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WO2018027983A1 - 一种数据传输方法及设备 - Google Patents

一种数据传输方法及设备 Download PDF

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Publication number
WO2018027983A1
WO2018027983A1 PCT/CN2016/095032 CN2016095032W WO2018027983A1 WO 2018027983 A1 WO2018027983 A1 WO 2018027983A1 CN 2016095032 W CN2016095032 W CN 2016095032W WO 2018027983 A1 WO2018027983 A1 WO 2018027983A1
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WO
WIPO (PCT)
Prior art keywords
control information
transmitting
scheduling period
offset
information
Prior art date
Application number
PCT/CN2016/095032
Other languages
English (en)
French (fr)
Inventor
李秉肇
王宏
陈力
权威
张戬
Original Assignee
华为技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Priority to BR112019002616A priority Critical patent/BR112019002616A2/pt
Priority to CN201810876350.2A priority patent/CN109040976B/zh
Priority to EP16912438.5A priority patent/EP3496307B1/en
Priority to CN201680078996.5A priority patent/CN108476088B/zh
Priority to PCT/CN2016/095032 priority patent/WO2018027983A1/zh
Publication of WO2018027983A1 publication Critical patent/WO2018027983A1/zh
Priority to US16/271,479 priority patent/US11178663B2/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation
    • H04W72/044Wireless resource allocation based on the type of the allocated resource
    • H04W72/0453Resources in frequency domain, e.g. a carrier in FDMA
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/0001Systems modifying transmission characteristics according to link quality, e.g. power backoff
    • H04L1/0023Systems modifying transmission characteristics according to link quality, e.g. power backoff characterised by the signalling
    • H04L1/0027Scheduling of signalling, e.g. occurrence thereof
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/08Arrangements for detecting or preventing errors in the information received by repeating transmission, e.g. Verdan system
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/12Arrangements for detecting or preventing errors in the information received by using return channel
    • H04L1/16Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
    • H04L1/18Automatic repetition systems, e.g. Van Duuren systems
    • H04L1/1867Arrangements specially adapted for the transmitter end
    • H04L1/189Transmission or retransmission of more than one copy of a message
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/12Arrangements for detecting or preventing errors in the information received by using return channel
    • H04L1/16Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals
    • H04L1/18Automatic repetition systems, e.g. Van Duuren systems
    • H04L1/1867Arrangements specially adapted for the transmitter end
    • H04L1/1896ARQ related signaling
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W28/00Network traffic management; Network resource management
    • H04W28/02Traffic management, e.g. flow control or congestion control
    • H04W28/04Error control
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/06Selective distribution of broadcast services, e.g. multimedia broadcast multicast service [MBMS]; Services to user groups; One-way selective calling services
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/70Services for machine-to-machine communication [M2M] or machine type communication [MTC]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L2001/0092Error control systems characterised by the topology of the transmission link
    • H04L2001/0093Point-to-multipoint
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/20Control channels or signalling for resource management
    • H04W72/23Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal

Definitions

  • the present invention relates to the field of communications, and in particular, to a data transmission method and device.
  • Machine Type Communication is a machine-to-machine (M2M) communication for data transmission over a cellular network. It is mainly used in the fields of intelligent transportation, smart grid, smart home, etc.
  • MTC terminals are deployed in limited closed spaces, such as in-vehicle, basement and other special communication environments. Compared with the ordinary communication environment, the received signals will add 20dB of penetration loss, that is, this kind of The communication quality in the environment is not good, and the success rate of receiving data by the MTC terminal is low. At present, the success rate of receiving data by the MTC terminal can be improved by introducing coverage enhancement technology.
  • the existing MTC only supports the unicast communication mode, that is, each MTC terminal separately establishes a communication link with the base station to receive data from the base station.
  • this unicast communication mode when the base station has a multicast service group type multicast service data to be delivered to all the MTC terminals in the group, the communication link established with each MTC terminal needs to be respectively
  • the corresponding MTC terminal sends the multicast service data, which causes the resource consumption of the base station to be more serious, and also causes the network burden to be aggravated.
  • the above problem is particularly prominent.
  • SC-PTM single cell point to multi-point
  • a group of MTC terminals receiving the same multicast service data will receive data using the same downlink configuration, that is, the group of MTC terminals only establish a shared communication link with the base station, so that when the base station has When the multicast service data needs to be delivered, the multicast service data can be sent to all the MTC terminals in the group through the shared communication link, so that the resource consumption of the base station is reduced and the network burden is reduced.
  • SC-PTM The technology does not currently support coverage enhancement technology, that is, after the introduction of SC-PTM technology, the success rate of receiving data by the MTC terminal is still low.
  • the embodiment of the invention provides a data transmission method and device, which solves the problem that the success rate of receiving data by the MTC terminal after introducing the SC-PTM technology is low.
  • a first aspect of the embodiments of the present invention provides a data transmission method, including:
  • the base station device sends first control information for controlling repeated transmission of the multicast service data to the terminal device, and transmits the multicast service data to the terminal device according to the first control information.
  • the base station device may be an access network device such as a base station, and the terminal device may be an MTC terminal, and the MTC terminal refers to a terminal that uses the MTC technology.
  • the base station device sends the first control information for controlling the repeated transmission of the multicast service data to the terminal device, and repeatedly transmits the multicast service data to the terminal device according to the first control information, so that the terminal
  • the device may receive the multicast service data repeatedly sent by the base station device according to the received first control information, so as to improve the success rate of the terminal device receiving the multicast service data.
  • the MTC terminal can receive the multicast service data repeatedly transmitted by the base station according to the received first control information, thereby improving the success rate of receiving data by the MTC terminal.
  • the first control information for controlling the repeated transmission of the multicast service data may also be repeatedly transmitted. Therefore, before the base station device sends the first control information to the terminal device, the data transmission method may further include: the base station device transmitting, to the terminal device, a system message for controlling repeated transmission of the first control information. At this time, correspondingly, the sending, by the base station device, the first control information to the terminal device may include: the base station device sending the first control information to the terminal device according to the system message.
  • the second transmission may be used to control the repeated transmission of the multicast service data.
  • the control information is also repeatedly transmitted. Therefore, before the base station device sends the first control information to the terminal device, the data transmission method may further include: the base station device transmitting, to the terminal device, a second for controlling repeated transmission of the first control information. Control information.
  • the sending, by the base station device, the first control information to the terminal device may include: the base station device sending the first control information to the terminal device according to the second control information.
  • the method for controlling the repeated transmission of the first control information may be used.
  • the second control information is also repeatedly transmitted. Therefore, before the base station device sends the second control information to the terminal device, the data transmission method may further include: the base station device sending, to the terminal device, a system message for controlling repeated transmission of the second control information. .
  • the sending, by the base station device, the second control information to the terminal device may include: the base station device sending the second control information to the terminal device according to the system message.
  • a parameter for partially transmitting the first control information for repeated transmission may be included in the system message, and therefore, before the base station device sends the second control information to the terminal device
  • the data transmission method may further include: the base station device transmitting, to the terminal device, a system message for controlling repeated transmission of the first control information.
  • the sending, by the base station device, the first control information to the terminal device may include: the base station device sending the first control information to the terminal device according to the system message.
  • the second control information used to control the repeated transmission of the first control information may also be repeatedly transmitted, and the first control information is repeatedly transmitted.
  • the data transmission method may further include: the base station device
  • the terminal device transmits a system message for controlling the repeated transmission of the second control information and for controlling the repeated transmission of the first control information.
  • the base station device is directed to the terminal
  • the sending, by the device, the second control information may include: the base station device sending the second control information to the terminal device according to the system message
  • the sending, by the base station device, the first control information to the terminal device may include: the base station device according to the system message to the terminal device Send the first control information.
  • a parameter for partially transmitting multicast service data for repeated transmission may be included.
  • the data transmission method may further include: the base station device sending, to the terminal device, a repetition for controlling the multicast service data.
  • the transmitting, by the base station device, the multicast service data to the terminal device according to the first control information may include: the base station device sending the multicast service data to the terminal device according to the first control information and the third control information.
  • the second transmission may be used to control the repeated transmission of the multicast service data.
  • the third control information is also repeatedly transmitted.
  • the first control information sent by the base station device to the terminal device is further used to control the repeated transmission of the third control information.
  • the sending, by the base station device, the third control information to the terminal device may include: the base station device sending the third control information to the terminal device according to the first control information.
  • the data transmission method further The method may include: the base station device transmitting, to the terminal device, third control information for controlling repeated transmission of the multicast service data.
  • the sending, by the base station device, the multicast service data to the terminal device according to the first control information may include: the base station device sending the multicast service data to the terminal device according to the third control information.
  • the data transmission method may further include: the base station device sending, to the terminal device, a modification notification that is used to notify the first control information that the first radio network Temporary Identity (RNTI) is carried.
  • RNTI radio network Temporary Identity
  • the modification notification for notifying that the first control information is changed may be
  • the data transmission method may further include: before the base station device sends the modification notification to the terminal device, the base station device sends the system message for controlling the repeated transmission of the modification notification to the terminal device.
  • the sending, by the base station device, the modification notification to the terminal device may include: the base station device sending the modification notification to the terminal device according to the system message.
  • the first control information when the first control information is used to control repeated transmission of the multicast service data, the first control information may include a first configuration parameter, where The first configuration parameter includes at least one of the following: a first offset, a first scheduling period, a first starting time, a first repetition number, a first repetition mode, a Modulation and Coding Scheme (MCS), and a transport block.
  • Transport Block Size (TBS) session ID (session ID), Temporary Mobile Group Identity (TMGI), first frequency information
  • the first scheduling period is used to determine the transmission of multicast service data.
  • the system frame number and the starting subframe number, or the first offset and the first scheduling period are used to determine a system frame number and a starting subframe number for transmitting the multicast service data, where the first start time is used to determine the transmission
  • the first start symbol of the broadcast service data; or the first configuration parameter includes at least one of the following: a first offset, a first scheduling period, and a first start time Engraving, first termination time, first repetition number, first repetition mode, MCS, TBS, session ID, TMGI, first frequency information
  • the first scheduling period is used to determine a system frame number for transmitting multicast service data
  • the first offset and the first scheduling period are used to determine a system frame number for transmitting multicast service data
  • the first start time is used to determine a transmission multicast a first start subframe number of the service data and/or a first start symbol
  • the first termination time includes a first termination subframe number and/or a first termination symbol
  • the first frequency information is used to indicate a frequency of transmitting the multicast service
  • the first scheduling period is used to determine a system frame number and a starting subframe number for transmitting the third control information, or the first offset and the first a scheduling period is used to determine a system frame number and a starting subframe number for transmitting third control information, where the first starting time is used to determine a first start symbol for transmitting third control information; or, the first scheduling period is used to determine sending a system frame number of the third control information, or the first offset and the first scheduling period are used to determine a system frame number for transmitting the third control information, where the first start time is used to determine the first start of sending the third control information
  • the subframe number and/or the first start symbol, the first frequency information is used to indicate the frequency at which the third control information is transmitted.
  • the third control information when the third control information is used to control repeated transmission of the multicast service data, the third control information may include the first configuration parameter,
  • the first configuration parameter may include at least one of the following: a first offset, a first repetition number, a first repetition mode, an MCS, a TBS, and first frequency information; and the first offset is used to indicate multicast service data.
  • the starting time lags behind the offset of the start or end time of the third control information, the starting time refers to the starting subframe number or the starting system frame number, and the ending time refers to the terminating subframe number or the terminating system.
  • the first frequency information is used to indicate a frequency of transmitting the multicast service data, and the first frequency information includes at least one of the following: a narrowband center frequency and a narrowband index value.
  • the system message when the system message is used to control repeated transmission of the modification notification, the system message may include: a second configuration parameter, where the second configuration parameter may include At least one of the following: a second offset, a second scheduling period, a second starting time, a second repetition number, a second repetition mode, a second frequency information, and a second scheduling period is used to determine a system for transmitting a modification notification a frame number and a starting subframe number, or a second offset and a second scheduling period are used to determine a system frame number and a starting subframe number of the transmission modification notification, where the second starting time is used to determine a transmission modification notification a second start symbol; or the second configuration parameter includes at least one of the following: a second offset, a second scheduling period, a second starting time, a second ending time, a second repetition number, a second repetition mode, Second frequency information; the second scheduling period is used to determine the system frame number of the transmission modification notification, or the second
  • the second control information sent by the base station device to the terminal device is scrambled by the first RNTI or the second RNTI; the first RNTI is used when the first control information is changed The second control information is scrambled, the first RNTI is further configured to indicate that the first control information is changed, and the second RNTI is configured to scramble the second control information when the first control information does not change.
  • the second control information sent by the base station device to the terminal device is further used to notify that the first control information is changed.
  • the system message when the system message is used to control repeated transmission of the second control information, the system message may include: a third configuration parameter, and a third configuration parameter
  • the method may include at least one of the following: a third offset, a third scheduling period, a third starting time, a third repetition number, a third repetition mode, and third frequency information, where the third scheduling period is used to determine to transmit the second control
  • the system frame number and the starting subframe number of the information, or the third offset and the third scheduling period are used to determine a system frame number and a starting subframe number for transmitting the second control information, and a third start time a third start symbol for determining to transmit the second control information
  • the third configuration parameter includes at least one of the following: a third offset, a third scheduling period, a third starting time, a third ending time, and a third a third repetition number, a third repetition mode, and a third frequency information, wherein the third scheduling period is used to determine a system frame
  • the system message when the system message is used to control repeated transmission of the first control information, the system message may include: a fourth configuration parameter, when the first control When the information does not need to be segmented, the fourth configuration parameter may include at least one of the following: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth repetition number, a fourth repetition mode, an MCS, a fourth scheduling period is used to determine a system frame number and a starting subframe number for transmitting the first control information, or a fourth offset period and a fourth scheduling period are used to determine to transmit the first control information.
  • the fourth configuration parameter includes at least one of the following: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth ending time, a fourth repetition number, a fourth repetition mode, an MCS, a TBS, a fourth frequency information, and a fourth scheduling period is used to determine a system for transmitting the first control information a frame number, or a fourth offset and a fourth scheduling period are used to determine a system frame number for transmitting the first control information, and a fourth start time is used for determining a fourth starting subframe number for transmitting the first control information and And a fourth start symbol; the fourth termination time includes a fourth termination subframe number and/or a fourth termination symbol, the fourth frequency information is used to indicate a frequency at which the first control information is transmitted, and the fourth frequency information includes the following At least one of: a narrowband center frequency, a narrowband index value; when the first
  • the second control information when the second control information is used to control repeated transmission of the first control information, the second control information may include: a fourth configuration parameter
  • the fourth configuration parameter may include at least one of the following: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth repetition number, and a fourth repetition.
  • the fourth configuration parameter includes at least one of the following: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth ending time, a fourth repetition number, The fourth repetition mode, the MCS, the TBS, and the fourth frequency information; when the first control information needs to be segmented, the fourth configuration parameter may further include at least one of the following: a segment number, and a repetition mode.
  • the sending, by the base station device, the first control information to the terminal device according to the second control information may include: the base station device sending the first control information to the terminal device according to the fourth configuration parameter.
  • the first control information when the first control information is used to control repeated transmission of the third control information, the first control information may include a fifth configuration parameter, where The fifth configuration parameter may include at least one of the following: a fifth offset, a fifth scheduling period, a fifth starting time, a fifth repetition number, a fifth repetition mode, and a fifth frequency information; and the fifth offset is used for And indicating that the start time of the third control information is delayed from the start time or the end time of the first control information, or the fifth scheduling period is used to determine the system frame number and the start subframe number of the third control information.
  • the fifth configuration parameter may include at least one of the following: a fifth offset, a fifth scheduling period, a fifth starting time, a fifth repetition number, a fifth repetition mode, and a fifth frequency information; and the fifth offset is used for And indicating that the start time of the third control information is delayed from the start time or the end time of the first control information, or the fifth scheduling period is used to determine the system frame number and the start subframe number of the third control information.
  • the fifth offset and the fifth scheduling period are used to determine a system frame number and a start subframe number for transmitting the third control information, where the fifth start time is used to determine to transmit the third control information.
  • the quantity is used to indicate that the start time of the third control information lags behind the start time or the end time of the first control information, or the fifth scheduling period is used to determine the system frame number for transmitting the third control information, or
  • the fifth offset and the fifth scheduling period are used to determine a system frame number for transmitting the third control information, and the fifth start time is used to determine a fifth starting subframe number for transmitting the third control information and/or the fifth a first symbol, the fifth termination time includes a fifth termination subframe number and/or a fifth termination symbol, the fifth frequency information is used
  • a second aspect of the embodiments of the present invention provides a data transmission method, including:
  • the terminal device receives the first control information that is sent by the base station device and controls the repeated transmission of the multicast service data, and receives the multicast service data that is sent by the base station device according to the first control information.
  • the terminal device sends, by the receiving base station device, first control information for controlling repeated transmission of the multicast service data, so that the base station device can repeatedly send the multicast service data according to the first control information, thereby improving The success rate of the terminal device receiving the multicast service data.
  • the MTC terminal can receive the multicast service data repeatedly transmitted by the base station according to the received first control information, thereby improving the success rate of receiving data by the MTC terminal.
  • the base station device may perform the first control information for controlling the repeated transmission of the multicast service data.
  • the data transmission method may further include: the terminal device receiving a system message sent by the base station device for controlling repeated transmission of the first control information, before the terminal device receives the first control information sent by the base station device.
  • the receiving, by the terminal device, the first control information sent by the base station device may include: receiving, by the terminal device, the first control information sent by the base station device according to the system message.
  • the base station device may also repeatedly transmit the first control information for controlling the repeated transmission of the multicast service data, and therefore, receive the base station device at the terminal device.
  • the data transmission method may further include: the terminal device receiving, by the base station device, second control information for controlling repeated transmission of the first control information.
  • the receiving, by the terminal device, the first control information sent by the base station device may include: receiving, by the terminal device, first control information that is sent by the terminal device according to the second control information.
  • the base station device may perform repeated transmission for controlling the first control information.
  • the second control information is also repeatedly transmitted. Therefore, before the terminal device receives the second control information sent by the base station device, the data transmission method may further include: the terminal device receiving, by the base station device, a repetition for controlling the second control information. System message transmitted.
  • the receiving, by the terminal device, the second control information sent by the base station device may include: receiving, by the terminal device, second control information that is sent by the base station device according to the system message.
  • the base station device includes, in the system message, a parameter for partially transmitting the first control information for repeated transmission, and therefore, receiving, by the terminal device, the second control sent by the base station device.
  • the data transmission method may further include: receiving, by the terminal device, a system message sent by the base station device for controlling repeated transmission of the first control information.
  • the receiving, by the terminal device, the first control information sent by the base station device may include: receiving, by the terminal device, the first control information sent by the base station device according to the system message.
  • the base station device may also repeatedly transmit the second control information for controlling the repeated transmission of the first control information, and repeat the first control information.
  • the base station device includes a parameter for partially transmitting the first control information for repeated transmission
  • the data transmission method may further include: before the terminal device receives the second control information sent by the base station device, the data transmission method may further include: The terminal device receives a system message sent by the base station device for controlling the repeated transmission of the second control information and for controlling the repeated transmission of the first control information.
  • the terminal device The receiving the second control information sent by the base station device may include: the terminal device receiving the second control information that is sent by the base station device according to the system message, and the receiving, by the terminal device, the first control information that is sent by the base station device, the specific The system message receives the first control information sent by the base station device.
  • the base station device partially uses a parameter for controlling multicast service data for repeated transmission.
  • the data transmission method may further include: the terminal device receiving, by the base station device, the control for the multicast service, before the terminal device receives the multicast service data sent by the base station device according to the first control information.
  • the receiving, by the terminal device, the multicast service data sent by the base station device according to the first control information may include: the terminal device receiving the multicast service data sent by the base station device according to the first control information and the third control information.
  • the base station device in order to further improve the success rate of receiving the multicast service data by the terminal device, the base station device is configured to control the repeated transmission of the multicast service data.
  • the third control information is also repeatedly transmitted.
  • the first control information sent by the base station device received by the terminal device is further used to control the repeated transmission of the third control information.
  • the receiving, by the terminal device, the third control information by the base station device may include: receiving, by the terminal device, the third control information according to the first control information.
  • the base station device in another possible implementation manner, includes a parameter for controlling repeated transmission of the multicast service data.
  • the first control information is specifically used to control the repeated transmission of the third control information, and therefore, before the terminal device receives the multicast service data according to the first control information, the data transmission method
  • the method may further include: the terminal device receiving, by the base station device, third control information for controlling repeated transmission of the multicast service data.
  • the receiving, by the terminal device, the multicast service data by the base station device according to the first control information may include: the terminal device receiving the multicast service data by the base station device according to the third control information.
  • the base station device after the first control information is changed, the base station device sends the base station device to send the terminal device to notify the terminal device to re-receive the first control information.
  • the data transmission method may further include: the terminal device receiving, by the base station device, a modification notification for notifying that the first control information is changed, and carrying the first RNTI.
  • the base station device may notify the first control information of the change.
  • the modification notification also performs the retransmission. Therefore, before the terminal device receives the modification notification sent by the base station device, the data transmission method may further include: the terminal device receiving the system message sent by the base station device for controlling the repeated transmission of the modification notification. At this time, correspondingly, the terminal device receiving the modification notification sent by the base station device may include: the terminal device receiving the modification notification sent by the base station device according to the system message.
  • the first control information when the first control information is used to control repeated transmission of the multicast service data, the first control information may include a first configuration parameter, where The first configuration parameter may include at least one of the following: a first offset, a first scheduling period, a first starting time, a first repetition number, a first repetition mode, an MCS, a TBS, a session ID, a TMGI, and a first frequency information.
  • the first configuration parameter may include at least one of the following: a first offset, a first scheduling period, a first starting time, a first repetition number, a first repetition mode, an MCS, a TBS, a session ID, a TMGI, and a first frequency information.
  • the first scheduling period is used to determine a system frame number and a starting subframe number for transmitting the multicast service data
  • the first offset and the first scheduling period are used to determine a system frame number for transmitting the multicast service data
  • a first start time is used to determine a first start symbol for transmitting the multicast service data
  • the first configuration parameter includes at least one of the following: a first offset, a first scheduling period, and a first start time a first termination time, a first repetition number, a first repetition mode, an MCS, a TBS, a session ID, a TMGI, a first frequency information
  • a first scheduling period is used to determine a system for transmitting multicast service data.
  • the receiving, by the terminal device, the multicast service data sent by the base station device according to the first control information may include: the terminal device receiving the multicast service data sent by the base station device according to the first configuration parameter.
  • the first scheduling period is used to determine a system frame number and a starting subframe number for transmitting the third control information, or the first offset and the first a scheduling period is used to determine a system frame number and a starting subframe number for transmitting third control information, where the first starting time is used to determine a first start symbol for transmitting third control information; or, the first scheduling period is used to determine sending a system frame number of the third control information, or the first offset and the first scheduling period are used to determine a system frame number for transmitting the third control information, where the first start time is used to determine the first time of transmitting and transmitting the third control information
  • the first subframe information and/or the first start symbol, the first frequency information is used to indicate the frequency at which the third control information is transmitted.
  • the third control information when the third control information is used to control repeated transmission of the multicast service data, the third control information may include the first configuration parameter, where The first configuration parameter may include at least one of the following: a first offset, a first repetition number, a first repetition mode, an MCS, a TBS, and first frequency information; and the first offset is used to indicate the start of the multicast service data.
  • the start time lags behind the start or end time of the third control information.
  • the start time refers to the start subframe number or the start system frame number
  • the end time refers to the termination subframe number or the termination system frame.
  • the first frequency information is used to indicate the frequency of transmitting the multicast service data, and the first frequency information includes at least one of the following: a narrowband center frequency and a narrowband index value.
  • the system message when the system message is used to control repeated transmission of the modification notification, the system message may include: a second configuration parameter, the second configuration parameter
  • the method may include at least one of: a second offset, a second scheduling period, a second starting time, a second repetition number, a second repetition mode, and second frequency information, where the second scheduling period is used to determine a transmission modification notification.
  • System frame number and starting subframe number, or, second offset and second scheduling period are used to confirm Determining a system frame number and a starting subframe number of the modification notification, where the second start time is used to determine a second start symbol of the transmission modification notification; or the second configuration parameter includes at least one of the following: a second offset a second scheduling period, a second starting time, a second ending time, a second repetition number, a second repetition mode, and a second frequency information, where the second scheduling period is used to determine a system frame number of the transmission modification notification, or The second offset and the second scheduling period are used to determine a system frame number of the transmission modification notification, and the second start time is used to determine a second starting subframe number and/or a second starting symbol of the transmission modification notification;
  • the termination time includes a second termination subframe number and/or a second termination symbol, the second frequency information is used to indicate a frequency of transmitting the modification notification, and the second frequency information includes at least one of the following: a narrowband center frequency, a narrowband index
  • the base station device after the first control information is changed, the base station device reduces the terminal device in order to notify the terminal device to re-receive the first control information.
  • the second control information sent by the base station device received by the terminal device is scrambled by using the first RNTI or the second RNTI; the first RNTI is used to be the first control information
  • the second control information is scrambled when the change occurs, the first RNTI is further configured to indicate that the first control information is changed, and the second RNTI is configured to scramble the second control information when the first control information does not change.
  • the second control information sent by the base station device received by the terminal device is used to notify that the first control information is changed.
  • the system message when the system message is used to control repeated transmission of the second control information, the system message may include: a third configuration parameter, the third configuration The parameter may include at least one of the following: a third offset, a third scheduling period, a third starting time, a third repetition number, a third repetition mode, and third frequency information, where the third scheduling period is used to determine the second transmission.
  • Controlling the system frame number and the starting subframe number of the information, or the third offset and the third scheduling period are used to determine a system frame number and a starting subframe number for transmitting the second control information, and the third starting time is used Determining to transmit a third start symbol of the second control information; or, the third configuration parameter
  • the at least one of the following includes: a third offset, a third scheduling period, a third starting time, a third ending time, a third repetition number, a third repetition mode, and third frequency information, where the third scheduling period is used to determine Transmitting a system frame number of the second control information, or the third offset and the third scheduling period are used to determine a system frame number for transmitting the second control information, and the third start time is used to determine the second transmission of the second control information a third start subframe number and/or a third start symbol; the third termination time includes a third termination subframe number and/or a third termination symbol, and the third frequency information is used to indicate a frequency of transmitting the second control information,
  • the system message when the system message is used to control repeated transmission of the first control information, the system message may include: a fourth configuration parameter, when the first control When the information does not need to be segmented, the fourth configuration parameter may include at least one of the following: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth repetition number, a fourth repetition mode, an MCS, and a TBS. And a fourth scheduling period, where the fourth scheduling period is used to determine a system frame number and a starting subframe number for transmitting the first control information, or the fourth offset and the fourth scheduling period are used to determine to transmit the first control information.
  • the fourth configuration parameter includes at least one of the following: a fourth offset, and a fourth a scheduling period, a fourth starting time, a fourth ending time, a fourth repetition number, a fourth repetition mode, an MCS, a TBS, a fourth frequency information, and a fourth scheduling period is used to determine a system for transmitting the first control information
  • the fourth offset and the fourth scheduling period are used to determine a system frame number for transmitting the first control information
  • the fourth starting time is used for determining a fourth starting subframe number for transmitting the first control information and/or Or a fourth start symbol
  • the fourth termination time includes a fourth termination subframe number and/or a fourth termination symbol
  • the fourth frequency information is used to indicate a frequency for transmitting the first control information
  • the fourth frequency information includes at least one of the following The narrowband center frequency and the narrowband index value; when the first control information needs to be segment
  • the receiving, by the terminal device, the first control information by the base station device according to the system message may include: the terminal device receiving the first control information by the base station device according to the fourth configuration parameter.
  • the second control information when the second control information is used to control repeated transmission of the first control information, the second control information may include: a fourth configuration parameter
  • the fourth configuration parameter may include at least one of the following: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth repetition number, and a fourth repetition.
  • the fourth configuration parameter includes at least one of the following: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth ending time, and a fourth repetition
  • the receiving, by the terminal device, the first control information by the base station device according to the second control information may include: receiving, by the terminal device, the first control information by the base station device according to the fourth configuration parameter.
  • the first control information when the first control information is used to control repeated transmission of the third control information, the first control information may include a fifth configuration parameter, where The fifth configuration parameter may include at least one of the following: a fifth offset, a fifth scheduling period, a fifth starting time, a fifth repetition number, a fifth repetition mode, and a fifth frequency information; and the fifth offset is used for And indicating that the start time of the third control information is delayed from the start time or the end time of the first control information, or the fifth scheduling period is used to determine the system frame number and the start subframe number of the third control information.
  • the fifth configuration parameter may include at least one of the following: a fifth offset, a fifth scheduling period, a fifth starting time, a fifth repetition number, a fifth repetition mode, and a fifth frequency information; and the fifth offset is used for And indicating that the start time of the third control information is delayed from the start time or the end time of the first control information, or the fifth scheduling period is used to determine the system frame number and the start subframe number of the third control information.
  • the fifth offset and the fifth scheduling period are used to determine a system frame number and a start subframe number for transmitting the third control information, where the fifth start time is used to determine a fifth start for transmitting the third control information.
  • the fifth configuration parameter includes at least one of the following: a fifth offset, a fifth scheduling period, a fifth starting time, a fifth ending time, a fifth repetition number, a fifth repetition mode, and a fifth frequency
  • the fifth offset is used to indicate that the start time of the third control information is delayed from the start time or the end time of the first control information, or the fifth scheduling period is used to determine the third control information.
  • the receiving, by the terminal device, the third control information by the base station device according to the first control information may include: receiving, by the terminal device, the third control information by the base station device according to the fifth configuration parameter.
  • a third aspect of the embodiments of the present invention provides a base station device, including:
  • a processing unit configured to determine first control information, where the first control information is used to control repeated transmission of multicast service data
  • a sending unit configured to send the first control information that is determined by the processing unit to the terminal device, and send the multicast service data to the terminal device according to the first control information.
  • the sending unit is further configured to send a system message to the terminal device, where the system message is used to control repeated transmission of the first control information.
  • the sending unit is further configured to send, to the terminal device, second control information, where the second control information is used to control the Repeat transmission of the first control information.
  • the sending unit is further configured to send a system message to the terminal device
  • the system message is used to control repeated transmission of the second control information, and/or the system message is used to control repeated transmission of the first control information.
  • the sending unit is further configured to send third control information to the terminal device, where the third control information is used to control the Repeated transmission of multicast service data.
  • the first control information that is sent by the sending unit is specifically used to control the And repeating transmission of the third control information; or the first control information sent by the sending unit is further used to control repeated transmission of the third control information.
  • the sending unit is further configured to send a modification notification to the terminal device, where the modification notification is used to notify the first control The information is changed, and the modification notification carries the first wireless network temporary identifier RNTI.
  • the sending unit is further configured to send a system message to the terminal device, where the system message is used to control the modification notification. Repeat the transfer.
  • the first control information that is sent by the sending unit includes a first configuration parameter, where the first configuration parameter includes at least one of the following : first offset, first scheduling period, first starting time, first repetition number, first repetition mode, modulation and coding policy MCS, transport block size TBS, session identification session ID, temporary mobility group identifier TMGI, first Frequency information;
  • the first scheduling period is used to determine a system frame number and a starting subframe number for transmitting the multicast service data or transmitting the third control information, or the first offset and the The first scheduling period is used to determine a system frame number and a starting subframe number for transmitting the multicast service data or sending the third control information, where the first start time is used to determine to transmit multicast service data or send a third control
  • the first start symbol of the information; or the first configuration parameter includes at least one of the following: a first offset, a first scheduling period, a first starting moment, a first ending moment, and a first weight
  • the third control information that is sent by the sending unit includes a first configuration parameter, where the first configuration parameter includes at least one of the following a first offset, a first repetition number, a first repetition mode, an MCS, a TBS, and a first frequency information; the first offset is used to indicate that a start time of the multicast service data lags behind the The offset of the start time or the end time of the third control information, where the start time refers to a start subframe number or a start system frame number, and the end time refers to a termination subframe number or a termination system frame.
  • the first frequency information is used to indicate a frequency for transmitting the multicast service data, and the first frequency information includes at least one of the following: a narrowband center frequency, a narrowband index value.
  • the system message that is sent by the sending unit includes: a second configuration parameter, where the second configuration parameter includes at least one of the following: a second offset, a second scheduling period, a second starting time, a second repetition number, a second repetition mode, and second frequency information; the second scheduling period is used to determine a system frame number for transmitting the modification notification And a starting subframe number, or the second offset and the second scheduling period are used to determine a system frame number and a starting subframe number for transmitting the modification notification, where the second start time is used Determining to transmit a second start symbol of the modification notification; or, the second configuration parameter includes at least one of: a second offset, a second scheduling period, a second starting time, a second ending time, a second repetition number, a second repetition mode, and a second frequency information; the second scheduling period is used to determine a system frame number for transmitting the modification notification, or the second offset and the second scheduling period Used to determine Transmit
  • the second control information sent by the sending unit uses the first RNTI or the second The RNTI performs scrambling; the first RNTI is configured to perform scrambling on the second control information when the first control information is changed, where the first RNTI is further used to indicate that the first control information is changed.
  • the second RNTI is configured to scramble the second control information when the first control information does not change; or the second control information is further used to notify that the first control information changes .
  • the system message that is sent by the sending unit includes: a third configuration parameter, where the third configuration parameter includes at least one of the following: a third offset, a third scheduling period, a third starting time, a third repetition number, a third repetition mode, and third frequency information; the third scheduling period is used to determine a system for transmitting the second control information a frame number and a starting subframe number, or the third offset and the third scheduling period are used to determine a system frame number and a starting subframe number for transmitting the second control information, the third The start time is used to determine a third start symbol for transmitting the second control information; or the third configuration parameter includes at least one of the following: a third offset, a third scheduling period, and a third start time a third termination time, a third repetition number, a third repetition mode, and third frequency information; the third scheduling period is used to determine a system frame number for transmitting the second control information, or the third offset Quantity and the third The
  • the system message sent by the sending unit includes: a fourth configuration parameter, when the first control information does not need to be segmented.
  • the fourth configuration parameter includes at least one of the following: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth repetition number, a fourth repetition mode, an MCS, a TBS, and a fourth frequency information.
  • the fourth scheduling period is used to determine a system frame number and a starting subframe number for transmitting the first control information, or the fourth offset period and the fourth scheduling period are used to determine to transmit the the first a system frame number of the control information and a start subframe number, where the fourth start time is used to determine a fourth start symbol for transmitting the first control information; or the fourth configuration parameter includes at least one of the following a fourth offset, a fourth scheduling period, a fourth starting time, a fourth ending time, a fourth repetition number, a fourth repetition mode, an MCS, a TBS, and a fourth frequency information, where the fourth scheduling period is used for Determining a system frame number for transmitting the first control information, or the fourth offset and the fourth scheduling period for determining a system frame number for transmitting the first control information, the fourth start Means for determining a fourth starting subframe number and/or a fourth starting symbol for transmitting the first control information; the fourth ending moment includes a fourth terminating subframe number and/or a fourth terminating symbol, The fourth
  • the second control information that is sent by the sending unit includes: a fourth configuration parameter; when the first control information does not need to be performed During the segment transmission, the fourth configuration parameter includes at least one of the following: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth repetition number, a fourth repetition mode, an MCS, a TBS, and a fourth Frequency information; or the fourth configuration parameter includes at least one of the following: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth ending time, a fourth repetition number, a fourth repetition mode, and an MCS
  • the TBS, the fourth frequency information; when the first control information needs to be segmented, the fourth configuration parameter further includes at least one of the following: a segment number, a repetition mode.
  • the first control information that is sent by the sending unit includes a fifth configuration parameter, where the fifth configuration parameter includes at least one of the following a fifth offset, a fifth scheduling period, a fifth starting time, a fifth repetition number, a fifth repetition mode, and a fifth frequency information; the fifth offset is used to indicate the third control information
  • the starting time lags behind the offset of the first control information start time or end time, or the fifth scheduling week a system for determining a system frame number and a starting subframe number for transmitting the third control information, or the fifth offset and the fifth scheduling period for determining a system for transmitting the third control information a frame number and a start subframe number, where the fifth start time is used to determine a fifth start symbol for transmitting the third control information; or the fifth configuration parameter includes at least one of the following: a fifth offset a shift amount, a fifth scheduling period, a fifth starting time, a fifth ending time, a fifth repetition number, a fifth repetition
  • a fourth aspect of the embodiments of the present invention provides a terminal device, including:
  • a receiving unit configured to receive first control information sent by the base station device, where the first control information is used to control repeated transmission of the multicast service data;
  • a processing unit configured to determine, according to the first control information received by the receiving unit, a repeated transmission parameter of the multicast service data
  • the receiving unit is further configured to receive, according to the repeated transmission parameter of the multicast service data that is determined by the determining unit, the multicast service data that is sent by the base station device.
  • the receiving unit is further configured to receive a system message sent by the base station device, where the system message is used to control repeated transmission of the first control information.
  • the receiving unit is further configured to receive second control information sent by the base station device, where the second control information is used to control repeated transmission of the first control information.
  • the receiving unit is further configured to receive a system message sent by the base station device, where the system message is used to control the Repeated transmission of the second control information, and/or the system message is used to control repeated transmission of the first control information.
  • the receiving unit is further configured to receive third control information that is sent by the base station device, where the third control information is used to control Repeated transmission of the multicast service data.
  • the first control information received by the receiving unit is specifically used to control repeated transmission of the third control information; or The first control information received by the receiving unit is further used to control repeated transmission of the third control information.
  • the receiving unit is further configured to receive a modification notification sent by the base station device, where the modification notification is used to notify the first The control information is changed, and the modification notification carries the first wireless network temporary identifier RNTI.
  • the receiving unit is further configured to receive a system message sent by the base station device, where the system message is used to control repeated transmission of the modification notification.
  • the first control information received by the receiving unit includes a first configuration parameter, where the first configuration parameter includes at least one of the following : first offset, first scheduling period, first starting time, first repetition number, first repetition mode, modulation and coding policy MCS, transport block size TBS, session identification session ID, temporary mobility group identifier TMGI, first Frequency information; the first scheduling period is used to determine a system frame number and a starting subframe number for transmitting the multicast service data or transmitting the third control information, or the first offset and the The first scheduling period is used to determine to transmit the multicast service data or send a system frame number and a starting subframe number of the third control information, where the first start time is used to determine a first start symbol for transmitting the multicast service data or sending the third control information; or
  • the first configuration parameter includes at least one of the following: a first offset, a first scheduling period, a first starting time, a first ending time, a first repetition number,
  • the third control information received by the receiving unit includes a first configuration parameter, where the first configuration parameter includes at least one of the following a first offset, a first repetition number, a first repetition mode, an MCS, a TBS, and a first frequency information; the first offset is used to indicate that a start time of the multicast service data lags behind the The offset of the start time or the end time of the third control information, where the start time refers to a start subframe number or a start system frame number, and the end time refers to a termination subframe number or a termination system frame.
  • the first frequency information is used to indicate a frequency for transmitting the multicast service data, and the first frequency information includes at least one of the following: a narrowband center frequency, a narrowband index value.
  • the system message received by the receiving unit includes: a second configuration parameter, where the second configuration parameter includes at least one of the following: a second offset, a second scheduling period, a second starting time, a second repetition number, a second repetition mode, and second frequency information, where the second scheduling period is used to determine a system frame number for transmitting the modification notification And a starting subframe number, or the second offset and the second scheduling period are used to determine a system frame number and a starting subframe number for transmitting the modification notification, where the second start time is used Confirmation Transmitting the second start symbol of the modification notification; or the second configuration parameter includes at least one of the following: a second offset, a second scheduling period, a second starting time, a second ending time, and a second a repetition number, a second repetition mode, and second frequency information; the second scheduling period is used to determine a system frame number for transmitting the modification notification, or the second offset and the second scheduling period are used for De
  • the second control information received by the receiving unit is scrambled by using a first RNTI or a second RNTI; the first RNTI And the second control information is used to perform scrambling when the first control information is changed, where the first RNTI is further used to indicate that the first control information is changed; and the second RNTI is used to The second control information is scrambled when the first control information is not changed; or the second control information is further used to notify that the first control information is changed.
  • the system message received by the receiving unit includes: a third configuration parameter, where the third configuration parameter includes at least one of the following: a third offset, a third scheduling period, a third starting time, a third repetition number, a third repetition mode, and third frequency information; the third scheduling period is used to determine a system for transmitting the second control information a frame number and a starting subframe number, or the third offset and the third scheduling period are used to determine a system frame number and a starting subframe number for transmitting the second control information, the third The start time is used to determine a third start symbol for transmitting the second control information; or the third configuration parameter includes at least one of the following: a third offset, a third scheduling period, and a third start time a third termination time, a third repetition number, a third repetition mode, and third frequency information; the third scheduling period is used to determine a system frame number for transmitting the second control information, or the third offset Quantity and the third Means for
  • the system message received by the receiving unit includes: a fourth configuration parameter, when the first control information does not need to be segmented During transmission, the fourth configuration parameter includes at least one of the following: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth repetition number, a fourth repetition mode, an MCS, a TBS, and a fourth frequency information.
  • the fourth scheduling period is used to determine a system frame number and a starting subframe number for transmitting the first control information, or the fourth offset period and the fourth scheduling period are used to determine to transmit the a system frame number of the first control information and a start subframe number, where the fourth start time is used to determine a fourth start symbol for transmitting the first control information; or, the fourth configuration parameter includes at least the following a fourth offset, a fourth scheduling period, a fourth starting time, a fourth ending time, a fourth repetition number, a fourth repetition mode, an MCS, a TBS, a fourth frequency information, and the fourth scheduling period Used to determine the transmission a system frame number of the control information, or the fourth offset and the fourth scheduling period are used to determine a system frame number for transmitting the first control information, and the fourth start time is used to determine the transmission a fourth starting subframe number and/or a fourth starting symbol of the first control information; the fourth ending moment includes a fourth terminating subframe number and/or a fourth terminating symbol, the fourth frequency information And a
  • the second control information received by the receiving unit includes: a fourth configuration parameter; when the first control information does not need to be performed When the segment is transmitted, the fourth configuration parameter includes At least one of the following: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth repetition number, a fourth repetition mode, an MCS, a TBS, and a fourth frequency information; or, the fourth configuration parameter includes At least one of the following: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth ending time, a fourth repetition number, a fourth repetition mode, an MCS, a TBS, and a fourth frequency information; When the control information needs to be segmented, the fourth configuration parameter further includes at least one of the following: a segment number and a repetition mode.
  • the first control information received by the receiving unit includes a fifth configuration parameter, where the fifth configuration parameter includes at least one of the following a fifth offset, a fifth scheduling period, a fifth starting time, a fifth repetition number, a fifth repetition mode, and a fifth frequency information; the fifth offset is used to indicate the third control information
  • the start time lags the offset of the first control information start time or the end time, or the fifth scheduling period is used to determine the system frame number and the start subframe number for transmitting the third control information.
  • the fifth offset period and the fifth scheduling period are used to determine a system frame number and a start subframe number for transmitting the third control information, where the fifth start time is used to determine a transmission station.
  • the fifth start symbol of the third control information; or the fifth configuration parameter includes at least one of the following: a fifth offset, a fifth scheduling period, a fifth starting time, a fifth ending time, and a fifth Number of repetitions, fifth repetition
  • the fifth frequency information is used to indicate that the start time of the third control information lags behind the start time or the end time of the first control information, or a fifth scheduling period is used to determine a system frame number for transmitting the third control information, or the fifth offset period and the fifth scheduling period are used to determine a system frame number for transmitting the third control information,
  • the fifth start time is used to determine a fifth start subframe number and/or a fifth start symbol for transmitting the third control information;
  • the fifth termination time includes a fifth termination subframe number and/or a fifth termination symbol,
  • the fifth frequency information is used to indicate a frequency for transmitting the third control information, and the fifth frequency information includes at least one of the following: a narrowband center frequency, a narrowband index value.
  • a fifth aspect of the embodiments of the present invention provides a base station device, including: a processor, a memory, and a transceiver;
  • the memory is configured to store a computer-executed instruction, when the base station device is in operation, the processor executes the computer-executed instructions stored in the memory to cause the base station device to perform the first aspect or the first aspect A data transmission method as claimed in any of the possible implementations.
  • a sixth aspect of the embodiments of the present invention provides a terminal device, including: a processor, a memory, and a transceiver;
  • the memory is configured to store a computer execution instruction, when the terminal device is in operation, the processor executes the computer-executed instruction stored in the memory, so that the terminal device performs the second aspect or the second aspect A data transmission method as claimed in any of the possible implementations.
  • FIG. 1 is a schematic diagram of channel composition in an SC-PTM technology provided by the prior art
  • FIG. 2 is a simplified schematic diagram of a system architecture to which the present invention is applied according to an embodiment of the present invention
  • FIG. 3 is a flowchart of a data transmission method according to an embodiment of the present invention.
  • FIG. 5 is a flowchart of another data transmission method according to an embodiment of the present invention.
  • 6A is a simplified schematic diagram of transmission data according to an embodiment of the present invention.
  • FIG. 6B is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • 6C is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • 6D is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • FIG. 6 is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • FIG. 7 is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • FIG. 8 is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • FIG. 8A is a schematic diagram of simplified system bandwidth division according to an embodiment of the present invention.
  • FIG. 9 is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • FIG. 10 is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • FIG. 10A is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • FIG. 11 is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • FIG. 12 is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • FIG. 13 is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • FIG. 14 is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • FIG. 15 is a simplified schematic diagram of another transmission data according to an embodiment of the present invention.
  • FIG. 16 is a schematic structural diagram of a base station device according to an embodiment of the present disclosure.
  • FIG. 17 is a schematic structural diagram of another base station device according to an embodiment of the present disclosure.
  • FIG. 18 is a schematic structural diagram of a terminal device according to an embodiment of the present disclosure.
  • FIG. 19 is a schematic structural diagram of another terminal device according to an embodiment of the present disclosure.
  • FIG. 20 is a schematic structural diagram of another base station device according to an embodiment of the present disclosure.
  • FIG. 21 is a schematic structural diagram of another terminal device according to an embodiment of the present invention.
  • an SC-PTM technology needs to be introduced in the MTC, and the SC-PTM technology is a utilization of shared resource information.
  • a group of MTC terminals receiving the same multicast service data and a base station establish a shared communication link, that is, sharing a downlink transmission channel, specifically As shown in Figure 1, the SC-PTM technology has one control channel, namely Single Cell Multicast Control Channel (SC-MCCH), and one data channel, that is, single cell multicast traffic channel (Single).
  • SC-MCCH Single Cell Multicast Control Channel
  • Single cell multicast traffic channel Single cell multicast traffic channel
  • SC-MTCH Cell Multi-cast Traffic Channel
  • DL-SCH Downlink Shared Channel
  • SC-MTCH Cell Multi-cast Traffic Channel
  • the SC-MCCH sends control information to all MTC terminals in the group (the control information may include the identifier of the multicast service data and the time when the multicast service data is received), and then all the MTCs in the group through the SC-MTCH.
  • the terminal transmits the multicast service data, thereby reducing the resource consumption of the base station and reducing the network load.
  • the current problem is that even if the SC-PTM technology is introduced, the resource consumption of the base station can be reduced and the burden on the network can be reduced.
  • the coverage increase technology is not currently supported.
  • the embodiment of the present invention provides a data transmission method.
  • the basic principle is that the base station device sends the terminal device to control the multicast service data.
  • the first control information is repeatedly transmitted, and the multicast service data is sent to the terminal device according to the first control information, so that the terminal device can receive the multicast service data repeatedly sent by the base station device according to the received first control information, so as to improve the terminal device.
  • the success rate of receiving multicast service data In this way, in the MTC that introduces the SC-PTM technology, the MTC terminal can receive the multicast service data repeatedly transmitted by the base station according to the received first control information, thereby improving the success rate of receiving data by the MTC terminal.
  • repeated transmission described in the embodiment of the present invention refers to repeatedly transmitting information.
  • FIG. 2 shows a simplified schematic diagram of a system architecture to which the present invention may be applied.
  • the system architecture can include base station device 11 and terminal device 12.
  • the base station device 11 may be a base station (BS) for wireless communication. Or the base station device or the like, the base station device 11 is a device deployed in the radio access network to provide a wireless communication function for the terminal device, and the main functions thereof are: performing radio resource management, and an Internet Protocol (Internet Protocol, IP) header compression and encryption of user data streams, selection of Mobile Management Entity (MME) when user equipment is attached, routing of user plane data to Service Gateway (SGW), organization of paging messages, and Sending, organization and transmission of broadcast messages, configuration of measurement and measurement reports for mobility or scheduling, etc.
  • the base station may include various forms of macro base stations, micro base stations, relay stations, access points, and the like.
  • the name of a device having a base station function may be different.
  • LTE Long Term Evolution
  • an evolved Node B evolved NodeB, The eNB or eNodeB
  • Node B the like in the 3rd Generation Telecommunication (3G) system.
  • the base station device 11 may also be an Access Point (AP) or other device that provides wireless communication functions for the terminal device.
  • AP Access Point
  • the foregoing apparatus for providing a wireless communication function for a terminal device is collectively referred to as a base station device 11.
  • the base station device 11 is a base station.
  • the terminal device 12 may be an MTC terminal, and may specifically include various handheld devices (such as mobile phones, smart terminals, multimedia devices, or streaming media devices) having wireless communication functions, in-vehicle devices, wearable devices, computing devices, or connected to the wireless device.
  • Other processing equipment of the modem, and various forms of user equipment User Equipment, UE), mobile station (Mobile Station, MS), terminal device (terminal device), smart meter, smart watch, smart water meter, smart street lamp, smart home appliance and many more.
  • the above-mentioned devices are collectively referred to as terminal devices 12.
  • the terminal device 12 is a user equipment.
  • FIG. 3 is a flowchart of a data transmission method according to an embodiment of the present invention. As shown in FIG. 3, the method may include:
  • the base station device sends first control information to the terminal device.
  • the first control information is used to control repeated transmission of multicast service data.
  • the base station device sends the multicast service data to the terminal device according to the first control information.
  • the base station device may first send, by using the SC-MCCH, the first control for controlling the repeated transmission of the multicast service data to the terminal device.
  • the base station device sends the first control information to the terminal device
  • the multicast service data is repeatedly sent to the terminal device by using the SC-MTCH according to the first control information, so that the terminal device can receive the first control information according to the received information.
  • the base station device repeatedly transmits the multicast service data, thereby improving the success rate of receiving the multicast service data.
  • the base station device sends the first control information for controlling the repeated transmission of the multicast service data to the terminal device, and repeatedly transmits the multicast service data to the terminal device according to the first control information, so that the terminal
  • the device may receive the multicast service data repeatedly sent by the base station device according to the received first control information, so as to improve the success rate of the terminal device receiving the multicast service data.
  • the MTC terminal can receive the multicast service data repeatedly transmitted by the base station according to the received first control information, thereby improving the success rate of receiving data by the MTC terminal.
  • the first control information for controlling the repeated transmission of the multicast service data may also be repeatedly transmitted.
  • the base station device may further send a system message for controlling the repeated transmission of the first control information to the terminal device, and the step 201 may specifically be the base station device according to the system message. Sending first control information to the terminal device.
  • the base station device may further send second control information for controlling repeated transmission of the first control information to the terminal device, and the step 201 may be specifically The base station device sends the first control information to the terminal device according to the second control information.
  • the base station device can pass the first physical downlink control channel (PDCCH) (the first The PDCCH is a PDCCH corresponding to the SC-MCCH and transmits second control information to the terminal device.
  • the second control information may also be carried on a physical downlink control channel (MTC-PDCCH, MPDCCH) of the first machine type communication.
  • the terminal device may be further received by repeatedly transmitting the second control information.
  • the success rate of the broadcast service data specifically, before the base station device sends the second control information to the terminal device, the base station device may further send a system message for controlling the repeated transmission of the second control information to the terminal device, and the base station device sends the second message to the terminal device.
  • the sending, by the device, the second control information may be that the base station device sends the second control information to the terminal device according to the system message.
  • the system message may further include a parameter for controlling repeated transmission of the first control information, that is, the system message may also be used to control repeated transmission of the first control information.
  • a parameter for controlling the repeated transmission of the multicast service data may be included in the scheduling information of the multicast service data, that is, the third control information, specifically, before step 202 is performed.
  • the base station device may further send the third control information for controlling the repeated transmission of the multicast service data to the terminal device, and the step 202 may specifically send, by the base station device, the multicast to the terminal device according to the first control information and the third control information.
  • Business data may send the third control information to the terminal device by using the second PDCCH (the second PDCCH is a PDCCH corresponding to the SC-MTCH).
  • the third control information may also be carried on the second MPDCCH.
  • the success rate of receiving the multicast service data by the terminal device may be further improved by the repeated transmission of the third control information.
  • step 201 The first control information sent by the base station device to the terminal device is further used to control the repeated transmission of the third control information, and the base station device sends the third control information to the terminal device, which may be sent by the base station device to the terminal device according to the first control information.
  • Third control information Third control information.
  • parameters for controlling repeated transmission of multicast service data may be used.
  • the first control information that is sent by the base station device to the terminal device in step 201 is specifically used to control the repeated transmission of the third control information, and the base station device sends the third control information to the terminal device.
  • the base station device sends the third control information to the terminal device according to the first control information, and the step 202 may specifically send the multicast service data to the terminal device according to the third control information.
  • the base station device may further send, to the terminal device, the first control.
  • the base station device may send a modification notification to the terminal device by using the third PDCCH.
  • the modification notification may also be sent through the third MPDCCH.
  • the success rate of the terminal device to receive the multicast service data is further improved by repeatedly transmitting the modification notification.
  • the base station device before the base station device sends the modification notification to the terminal device, the base station device further The system message for controlling the repeated transmission of the modification notification may be sent to the terminal device, and the base station device sends a modification notification to the terminal device, where the base station device may send the modification notification to the terminal device according to the system message.
  • FIG. 4 is a flowchart of another data transmission method according to an embodiment of the present invention. As shown in FIG. 4, the method may include:
  • the terminal device receives first control information sent by the base station device.
  • the first control information is used to control repeated transmission of multicast service data.
  • the terminal device receives the multicast service data sent by the base station device according to the first control information.
  • the base station device sends, to the terminal device, first control information for controlling repeated transmission of the multicast service data, and according to the first
  • the control information repeatedly transmits the multicast service data to the terminal device, so that the terminal device can receive the first control information sent by the base station device by using the SC-MCCH, and then repeatedly send the base station device by using the SC-MTCH according to the received first control information.
  • Multicast business data to increase The success rate of broadcast service data reception.
  • the terminal device sends, by the receiving base station device, first control information for controlling repeated transmission of the multicast service data, so that the base station device can repeatedly send the multicast service data according to the first control information, thereby improving The success rate of the terminal device receiving the multicast service data.
  • the MTC terminal can receive the multicast service data repeatedly transmitted by the base station according to the received first control information, thereby improving the success rate of receiving data by the MTC terminal.
  • the base station device further performs the repeated transmission of the first control information for controlling the repeated transmission of the multicast service data.
  • the base station device uses the system message to control the repeated transmission of the first control information, and correspondingly, before performing step 301, the terminal device receives the repetition sent by the base station device for controlling the first control information.
  • the transmitted system message in the step 301, may specifically be that the terminal device receives the first control information sent by the base station device according to the system message.
  • the base station device controls the repeated transmission of the first control information by using the second control information, and correspondingly, before performing step 301, the terminal device receives the first control sent by the base station device for controlling the first control.
  • the second control information of the repeated transmission of the information, and the step 301 may specifically be that the terminal device receives the first control information sent by the base station device according to the second control information.
  • the terminal device may send the second control information by using the first PDCCH or the first MPDCCH receiving base station device.
  • the base station device further performs the repeated transmission of the second control information, to further The success rate of the terminal device receiving the multicast service data is improved.
  • the terminal device may further receive the repeated transmission that is sent by the base station device and used to control the second control information.
  • the terminal device receives the second control information sent by the base station device, where the terminal device may receive the second control information sent by the base station device according to the system message.
  • the system message may further include a part of the parameter for controlling the repeated transmission of the first control information. The number, that is, the system message can also be used to control the repeated transmission of the first control information.
  • the terminal device may further receive third control information that is sent by the base station device and is used to control the repeated transmission of the multicast service data, and the step 302 may be specifically configured by the terminal device according to the first control information and the third control information.
  • the terminal device may send the third control information by using the second PDCCH or the second MPDCCH receiving base station device.
  • the base station device in order to further improve the success rate of receiving the multicast service data by the terminal device, also repeatedly transmits the third control information.
  • the base station device The first control information is used to control the repetitive transmission of the third control information.
  • the terminal device receives the third control information sent by the base station device, which may be the third control information that is sent by the terminal device according to the first control information.
  • the base station device uses the third control information to control the multicast service data for repeated transmission, and uses the first control information to control the repeated transmission of the third control information, and correspondingly, the terminal device receives the base station.
  • the third control information that is sent by the device may be that the terminal device receives the third control information that is sent by the base station device according to the first control information
  • the step 302 may be that the terminal device receives the multicast service sent by the base station device according to the third control information. data.
  • the base station device when the first control information is changed, the base station device needs to notify the terminal device to re-receive the first control information, and correspondingly, before performing step 301, the terminal device may further receive the base station device.
  • a modification notification sent to notify the first control information that the first RNTI is carried.
  • the terminal device may send the modification notification by using the third PDCCH or the third MPDCCH receiving base station device.
  • the success rate of receiving the multicast service data by the terminal device is further improved.
  • the terminal device may further receive a system message that is sent by the base station device to control the repeated transmission of the modification notification, and the terminal device receives the modification notification by the base station device.
  • the modification notification is sent to the terminal device according to the system message receiving base station device.
  • FIG. 5 is a flowchart of another data transmission method according to an embodiment of the present invention. As shown in FIG. 5, the method may include:
  • the embodiment of the present invention provides a data transmission method.
  • the terminal device receives the multicast service data. The general process is described in detail:
  • the base station device sends a system message to the terminal device.
  • the system message may include configuration information required for the terminal device to complete the multicast service data reception.
  • the terminal device receives a system message sent by the base station device.
  • the base station device sends a modification notification to the terminal device.
  • the modification notification is used to notify that the first control information is changed, and the modification notification carries the first RNTI.
  • the third PDCCH or the third MPDCCH carrying the modification notification is actually scrambled using the first RNTI.
  • the base station device may send a modification notification to the terminal device to notify the terminal device to reacquire the first control information, thereby reacquiring the multicast service data.
  • the modification notification is not sent when any information in the first control information is changed, and the modification notification may be sent when part of the information in the first control information is changed.
  • the modification notification is sent, and when the other information changes, the modification notification is not sent. Or, for example, only when a new multicast service type is added to the first control information, the modification notification is sent, in other cases, the modification notification is not sent, and the like.
  • the step 403 is not required, but the terminal device still needs to blindly send the third PDCCH or the third of the modification notification. MPDCCH to confirm whether there is a modification notice.
  • the base station device may repeatedly send the modification notification to the terminal device, and may perform the repeated transmission of the modification notification by using the system message. Specifically, when the system message is used to control the repeated transmission of the modification notification, the base station device may repeatedly send the modification notification to the terminal device according to the system message.
  • the second configuration parameter may be included in the system message to control the repeated transmission of the modification notification.
  • the second configuration parameter may include at least one of the following: a second offset, a second scheduling period, and a second start time. And a second termination time, a second repetition number, a second repetition mode, and second frequency information.
  • the second scheduling period when the second scheduling period is represented by the system frame number, the system frame number for transmitting the modification notification may be determined, where the system frame number is the initial system frame in which the modification notification is sent in a scheduling period.
  • the system frame number and the starting subframe number for transmitting the modification notification may be determined.
  • the number is 0, 2, etc., and the starting subframe number corresponding to system frame 0 is 0, and the starting subframe number corresponding to system frame 2 is 5.
  • the base station device when the base station device needs to send a modification notification, it may determine whether the current system frame needs to send a modification notification according to the second scheduling period, and determine which subframe of the current system frame to start transmitting, that is, determine the start.
  • the second offset when the second offset is represented by the system frame number, can be used together with the second scheduling period to determine the system frame number to which the modification notification is sent.
  • the system frame number and the starting subframe number for transmitting the modification notification may be determined together.
  • the second scheduling period is 25 (unit: subframe)
  • the second offset is 5 (unit: subframe)
  • the second scheduling is according to the formula (SFN*10+subframe number) mod.
  • Cycle second offset
  • the base station device when the base station device needs to send a modification notification, it may determine whether the current system frame needs to send a modification notification according to the second scheduling period, and determine which subframe of the current system frame to start transmitting, that is, determine the start.
  • the starting subframe number is 0.
  • the second starting time when only the system frame number for transmitting the modification notification is determined, the second starting time may be used to confirm the starting subframe number, and the second starting moment is used to determine the transmission modification notification. Start subframe number.
  • the second start time may also be used to determine a start symbol of the transmission modification notification, that is, in each subframe in which the modification notification is repeatedly sent, the specific modification notification is started from which symbol.
  • the second termination time refers to the last frame position and/or the last subframe position and/or the last symbol position in one subframe in which the modification notification is repeatedly transmitted.
  • the above determines the system frame number for transmitting the modification notification, and the starting subframe number in the system frame number, and the specific start symbol in the subframe in which the modification notification is repeatedly sent.
  • the second repetition number indicates the number of times the modification notification is repeatedly sent in one scheduling period. For example, once, twice, ..., N times, N is an integer greater than or equal to 1. As an example, as shown in FIG. 6, the second repetition number is 1 time, 2 times, or 3 times.
  • the second repetition mode refers to a mode of repeating the transmission modification notification (ie, the third PDCCH or the third MPDCCH).
  • the second repetition mode transmits a modification notification every 1 subframe, and transmits the modification every 2 subframes.
  • a modification notification is transmitted once every M subframes, and M is an integer greater than or equal to 1, exemplarily, as shown in FIG. 7, indicating that the second repetition mode transmits a modification notification every 1 subframe, every 2 sub-
  • the frame transmits a modification notification, and the modification notification is transmitted every 3 subframes, and according to the determined system frame number and the starting subframe number, the second repetition number and the second repetition mode, the current system frame or Which subframes in the current scheduling period require transmission of modification notifications.
  • the system frame number of the current system frame is 5
  • the starting subframe number is 3
  • the second repetition number is 2
  • the second repetition mode transmits a modification notification every 3 subframes.
  • the transmission of the modification notification is required on the subframes 3 and 6 on the system frame with the system frame number 5.
  • the subframe in which the modification notification ie, the third PDCCH or the third MPDCCH
  • the subframe in which the modification notification is repeatedly transmitted is not limited to be located in one system frame, that is, the repeated transmission subframe may be extended to the subsequent system frame, so that the current scheduling is determined. Which subframes in the cycle repeatedly send modification notifications.
  • the second frequency information indicates frequency information for transmitting the modification notification (ie, the third PDCCH or the third MPDCCH), that is, in which frequency bands the modification notification is sent, in the MTC, the system bandwidth is divided into multiple narrowbands, such as 6 a physical resource block (PRB) corresponding to 6 ⁇ 180 kHz, the second frequency information indicating which 6PRB is sent by the modification notification, and the frequency information may be a specific frequency, that is, in units of Hz, or
  • the system bandwidth is divided into a plurality of narrowband index values (Narrow Band Index). For example, as shown in FIG. 8A, each system bandwidth is divided into a number of 6 PRBs.
  • the system bandwidth can be obtained through system messages, such as 10MHz (corresponding to 50PRB).
  • system messages such as 10MHz (corresponding to 50PRB).
  • the system bandwidth is divided into 8 narrowbands, the first narrowband is the 2nd PRB to the 7th PRB, and the second narrowband is the 8th PRB to the 13th PRB. So on and so forth.
  • the method of dividing the narrowband may be different under different system bandwidths, but the narrowband of the partition may be sequentially indexed.
  • the narrowband index in the above example is 1, 2, ..., 8, so that when the base station device is configured in which narrowband When the modification notification is sent, the narrowband index value of the terminal device can be directly notified, that is, the second frequency information is an index value, for example, the index value is 3, indicating that the narrowband corresponding to 3 is 10 MHz (corresponding to 50 PRB) under the system bandwidth. Narrow band from the 14th PRB to the 19th PRB.
  • the terminal device receives the second frequency information, it can receive the modification notification on the specified narrowband.
  • the content that is specifically included in the second configuration parameter may be selected according to the requirements of the actual application scenario, and is not specifically limited herein.
  • the parameters required for controlling the repeated transmission of the modification notification may be pre-configured in the base station device and the terminal device, The terminal device may be notified in other manners according to the requirements of the actual application scenario, and the embodiment of the present invention is not specifically limited herein.
  • the second repetition number and the second repetition pattern included in the second configuration parameter may also be replaced with similar parameters to determine which subframes on the current system frame require transmission of the modification notification.
  • the second repetition mode may be replaced by a repetition interval or a repetition period, which refers to an interval of two subframes for transmitting a modification notification, such as a repetition interval of 0 subframes, 1 subframe, ..., X subframes, where X is An integer greater than or equal to 0, the repetition period refers to a period in which the modification notification is repeatedly sent within one scheduling period, such as a repetition period of 1 subframe, 2 subframes, ..., Y subframes, and Y is an integer greater than or equal to 0. . Exemplarily, as shown in FIG.
  • the repetition interval is 0 subframes (the corresponding repetition period is 1 subframe), 1 subframe (the corresponding repetition period is 2 subframes), and 2 subframes (corresponding repetition periods) Is 3 subframes).
  • the repetition time refers to the time from the transmission of the first modification notification to the last modification notification, for example, the repetition time is 1 subframe, 2 subframes, 3 Subframes, ..., Z sub-frames, Z is greater than or equal to 1 number.
  • the repetition time is 2 subframes, 3 subframes, and 4 subframes, and according to one of the repetition interval, the repetition period, and the second repetition pattern, and the repetition time, the current time can also be determined. Which subframes on the system frame need to be modified for transmission of the notification.
  • the second configuration parameter includes a second offset, a second scheduling period (and the second scheduling period and the second offset are all represented by a subframe number), a second starting moment, and a second repetition Repetition number, second repetition mode and second frequency information.
  • the base station device sends a modification notification to the terminal device according to the system message, which may be: the base station device may first according to the second offset and the first
  • the second scheduling period determines whether the current system frame is a system frame that needs to send a modification notification. If it is determined that the current system frame is not a system frame that needs to send a modification notification, it is determined whether the next system frame of the current system frame is to be sent.
  • Modifying the notified system frame if it is determined that the current system frame is a system frame that needs to send a modification notification, the base station device according to the second offset, the second scheduling period, the second starting time, the second repetition number, and the second The repeat mode determines which subframes and/or symbols need to be sent on the current system frame or the current scheduling period, and then according to the determined location A subframe number and / or symbols, and the second frequency information to the terminal device carries RNTI notifying the first modified in order to achieve modification notification is repeatedly transmitted.
  • the second offset is 5 (unit: subframe)
  • the second scheduling period is 25 (unit: subframe)
  • the second repetition number is 3 times
  • the second repetition mode is transmitted once every 2 subframes
  • the current system frame is 7.
  • the base station device sends a modification notification to the terminal device according to the system message.
  • the base station device may determine the current system frame 7 according to the second offset 5 and the second scheduling period 25.
  • the base station device sends the primary system frame according to the second offset 5, the second scheduling period 25, the second repetition number 3, and the second repetition mode every 2 subframes.
  • a modification notification (as shown in FIG. 10A) is sent on subframe 0, subframe 2, and subframe 4 of 7, and then to the terminal device on subframes 0, 2, and 4 of the system frame number 7 according to the second frequency information.
  • a modification notification carrying the first RNTI is sent to implement repeated transmission of the modification notification.
  • the first RNTI may specifically notify the wireless network of the single cell modification.
  • the third PDCCH or the third MPDCCH may be scrambled by using the SC-N-RNTI to notify the terminal device of the change of the first control information. the goal of.
  • This step is an optional step.
  • the terminal device receives a modification notification sent by the base station device.
  • the terminal device When the terminal device is interested in the multicast service data, the terminal device directly receives the first control information (the first control information may be carried in the SC-MCCH), and does not need to blindly check the third PDCCH or the first carrying the modification notification.
  • the third MPDCCH when the received first control information does not include the service of interest to the terminal device, the terminal device needs to blindly detect the third PDCCH or the third MPDCCH that sends the modification notification, because when the service interested in the terminal device appears Therefore, the first control information is changed, so that the base station device must send a modification notification. Therefore, in order to save the power consumption of the terminal device, the terminal device only needs to blindly detect the third PDCCH or the third MPDCCH carrying the modification notification.
  • the terminal device detects the modification notification, the first control information carried in the SC-MCCH is read. If the service of interest is not included, the third PDCCH or the third MPDCCH is continuously detected, and if it is included, the multicast service data carried in the SC-MTCH is received according to the first control information carried in the SC-MCCH. When receiving the multicast service data, the terminal device always receives the first control information carried in the SC-MCCH, and does not need to detect the third PDCCH or the third MPDCCH carrying the modification notification.
  • the terminal device may receive the modification notification that the base station device repeatedly sends according to the system message. Specifically, the terminal device may receive according to the second configuration parameter included in the system message. The modification notice sent by the base station device repeatedly.
  • the detailed description of the second configuration parameter is similar to the specific description of the second configuration parameter in the step 403, and details are not described in detail herein.
  • the terminal device receives the modification notification sent by the base station device according to the system message, which may be: the terminal device may first according to the The second offset period and the second scheduling period, or only according to the second scheduling period, determining whether the current system frame is a system frame that needs to receive the modification notification, and if it is determined that the current system frame is not a system frame that needs to receive the modification notification, Determining whether the next system frame of the current system frame is a system frame that needs to receive the modification notification. If it is determined that the current system frame is a system frame that needs to receive the modification notification, the terminal device is configured according to the second offset and the second scheduling period.
  • the system message may be: the terminal device may first according to the The second offset period and the second scheduling period, or only according to the second scheduling period, determining whether the current system frame is a system frame that needs to receive the modification notification, and if it is determined that the current system frame is not a system frame that needs to receive the modification notification, Determining whether the next system frame of the current system frame is
  • the second start time, the second repetition time, and the second repetition mode determine which subframes and/or symbols in the current system frame or the current scheduling period need to receive the modification notification, and then according to all the determined children.
  • the frame number and/or the symbol, and the second frequency information receiving base station device transmitting the modification notification carrying the first RNTI, because the modification notification can be repeatedly received on the plurality of subframe numbers and/or symbols, thereby improving the terminal device receiving the modification notification Success rate.
  • the terminal device may use the SC-N-RNTI to descramble the third PDCCH or the third MPDCCH. If the descrambling is successful, the first control information may be determined to be changed.
  • This step is an optional step.
  • the base station device sends second control information to the terminal device.
  • the base station device may send the scheduling information of the first control information, that is, the second control information, to the terminal device before sending the first control information to the terminal device.
  • the base station device may repeatedly send the second control information to the terminal device.
  • the system message may be used to control the repetition of the second control information. Transmission, specifically, when the system message is used to control repeated transmission of the second control information, the base station device may send the second control information to the terminal device according to the system message.
  • the third configuration parameter may be included in the system message, and is used to control repeated transmission of the second control information, where the third configuration parameter may include at least one of the following: a third offset, a third scheduling period, and a third The start time, the third end time, the third repetition number, the third repetition mode, and the third frequency information.
  • the third termination time refers to the last frame position and/or the last subframe position of the second transmission control information and/or the third symbol position of the last symbol position in one subframe may also indicate the modification notification.
  • the last subframe sent by the message to send The offset of the starting subframe of the second control information.
  • the specific description of the third configuration parameter in the embodiment of the present invention is similar to the description of the second configuration parameter in step 403, and details are not described in detail herein.
  • the content specifically included in the third configuration parameter may be selected according to the requirements of the actual application scenario, and the embodiment of the present invention is not specifically limited herein.
  • the parameters required for controlling the repeated transmission of the second control information may be pre-configured at the base station device and the terminal. In the device, the terminal device may be notified in other manners according to the requirements of the actual application scenario, and the embodiment of the present invention is not specifically limited herein.
  • the third configuration parameter includes a third offset, a third scheduling period (and the third scheduling period and the third offset are all represented by using a subframe number), a third starting moment, and a third repetition. Number of times, third repeat mode, and third frequency information.
  • the base station device sends the second control information to the terminal device according to the system message, which may be: the base station device may first determine, according to the third offset and the third scheduling period, whether the current system frame is a system that needs to send the second control information.
  • the base station device determines, according to the third offset, the third scheduling period, the third starting time, the third repetition number, and the third repetition mode, that the current system frame or The subframes and/or symbols of the current scheduling period are sent with the second control information, and then sent to the terminal device by using the first PDCCH or the first MPDCCH according to the determined all subframe numbers and/or symbols, and the third frequency information.
  • the second control information is to implement repeated transmission of the second control information.
  • the base station device may also perform repeated transmission of the second control information according to the subframe and/or the symbol of the repeated transmission modification notification, that is, the base station device sends the information to the terminal device.
  • the second control information may be directly sent according to the determined subframe and/or symbol that needs to send the modification notification.
  • the system message may include a modified offset (this modified offset may be included in the third offset) (the modified offset)
  • the quantity refers to the offset of the starting subframe in which the second control information is sent with respect to the starting subframe in which the modification notification is sent, and the unit of the modified offset may be a frame or a subframe.
  • the base station device When the unit of the shift is a subframe, the base station device sends the second control information to the terminal device. Specifically, the base station device determines, according to the modified offset and the determined subframe and/or symbol that needs to send the modification notification. Transmitting a subframe and/or a symbol of the second control information, and then transmitting the second control information according to the determined subframe and/or symbol for transmitting the second control information.
  • the base station device may send the second control information to the terminal device, where the base station device may send the modification notification according to the modified offset, the starting subframe number, and the determined
  • the frame and/or symbol determines a subframe and/or a symbol for transmitting the second control information, and then transmits the second control information according to the determined subframe and/or symbol for transmitting the second control information.
  • This step is an optional step.
  • the terminal device receives second control information sent by the base station device.
  • the terminal device can receive the second control information sent by the base station device.
  • the terminal device may receive the second control information repeatedly sent by the base station device according to the system message, specifically, the terminal The device may receive the second control information repeatedly sent by the base station device according to the third configuration parameter included in the system message.
  • the detailed description of the third configuration parameter is similar to the specific description of the third configuration parameter in the step 405, and details are not described in detail herein.
  • the terminal device receives the second control information sent by the base station device according to the system message, which may be: the terminal device may determine the current system according to the third offset and the third scheduling period. Whether the frame is a system frame that needs to receive the second control information, and if it is determined that the current system frame is not a system frame that needs to receive the second control information, determining whether the next system frame of the current system frame is to receive the second control information.
  • the system frame if it is determined that the current system frame is a system frame that needs to receive the second control information, the terminal device according to the third offset, the third scheduling period, the third starting time, the third repetition number, and the third Repeat mode determines the need for the current system Which subframes and/or symbols of the frame or the current scheduling period receive the second control information, and then receive the base station through the first PDCCH or the first MPDCCH according to the determined all subframe numbers and/or symbols, and the third frequency information.
  • the device sends the second control information, and the second control
  • the terminal device when the base station device directly performs the repeated transmission of the second control information according to the subframe and/or the symbol of the repeated transmission modification notification, the terminal device may perform the notification according to the determined reception modification. Subframes and/or symbols receive second control information.
  • the base station device when the base station device is configured according to the modified offset (the modified offset may be included in the system message, specifically, the modified offset may be included in the third offset)
  • the base station device may receive the subframe and/or symbol that needs to be modified according to the modified offset and the determined (or, according to the modified offset, the starting subframe number, and the determined Deriving a subframe and/or symbol that needs to receive the modification notification, determining a subframe and/or a symbol that receives the second control information, and then receiving the second subframe and/or symbol according to the determined second control information. Control information.
  • step 403 and step 404 need not be performed, but the first RNTI pair is sent.
  • the second control information is scrambled, and the first RNTI is used to perform scrambling on the second control information, and is used to indicate that the first control information is changed.
  • the first RNTI may be an SC-N-RNTI, specifically
  • the base station device may use the first RNTI, such as the SC-N-RNTI, to scramble the first PDCCH (or the first MPDCCH), and then send the first PDCCH (or the first MPDCCH) that is scrambled by using the first RNTI.
  • a control information when the first control information is not changed, the step 403 and the step 404 are also not required to be performed.
  • the base station device may use the second RNTI, such as the SC-RNTI, to add the first PDCCH (or the first MPDCCH).
  • the first control information is then transmitted by using the first PDCCH (or the first MPDCCH) scrambled by the second RNTI.
  • the terminal device it may perform the first PDCCH (or the first MPDCCH) by using the first RNTI and the second RNTI, respectively.
  • the first control information is changed, and the first control information needs to be re-acquired to re-acquire the multicast service data. If the first PDCCH (or the first MPDCCH) is descrambled successfully by using the second RNTI, it indicates that the first control information has not changed.
  • step 403 and step 404 need not be performed, but an indication information is added to the second control information, where the indication information is used to indicate that the first control information is changed, such that when the first control When the information is changed, the step 403 and the step 404 need not be performed, and the second control information may be directly notified to the terminal device that the first control information is changed, thereby reducing the delay of the terminal device acquiring the multicast service data.
  • This step is an optional step.
  • the base station device sends the first control information to the terminal device.
  • the base station device may send the first control information to the terminal device, where the first control information refers to the control information of the multicast service data.
  • the base station device may repeatedly send the first control information to the terminal device, and in a possible implementation manner, to control the repeated transmission of the first control information.
  • the parameter is all included in the second control information, that is, the second control information is used to control the repeated transmission of the first control information.
  • the base station device may send the first control information to the terminal device according to the second control information.
  • the second control information may include a fourth configuration parameter for controlling repeated transmission of the first control information, and considering the limitation of the system bandwidth, the first control information may need to be segmented, and therefore,
  • the fourth configuration parameter may include: a fourth offset, a fourth scheduling period, a fourth starting time, a fourth ending time, a fourth repetition number, and a fourth repetition mode.
  • the MCC, the TBS, and the fourth frequency information, when the first control information needs to be segmented, the fourth configuration parameter may further include: a segment number and a repetition mode.
  • the fourth termination time refers to the last frame position and/or the last subframe position of the first control information and/or the last symbol position of one subframe.
  • MCS includes modulation mode and coding rate, and general MCS uses index. Value, index different modulation methods and coding rates.
  • TBS transport block size, can be in bits, or index some bits.
  • the number of segments refers to the number of segments that need to be segmented for the first control information, such as 2 segments, ..., A segments, where A is an integer greater than or equal to 2, and the repetition mode is to sequentially transmit different segment information or to divide the current segment. After the segment information is repeatedly transmitted, the next segment information is repeatedly transmitted.
  • the number of segments is two segments, and the repetition mode is to sequentially transmit different segment information, the fourth repetition number is 4 times, and the fourth repetition mode is to transmit segment information every 2 subframes.
  • Schematic diagram As shown in FIG. 12, the number of segments is two. The repetition mode is to repeat the transmission of the current segment information, and then repeat the transmission of the next segment information. The fourth repetition number is 4 times, and the fourth repetition mode is 2 times. Schematic diagram of sub-frame transmission of segmentation information.
  • the fourth configuration parameter may further include a segmentation interval, where the segmentation interval refers to an interval between different time slots for transmitting information, such as 1 subframe, 2 subframes, ..., B subframes, B is an integer greater than or equal to 1, exemplarily, as shown in FIG. 13, the number of segments is 2 segments, the fourth repetition number is 4 times, and the fourth repetition mode is one segment transmission every 2 subframes.
  • the information and repetition mode is a schematic diagram in which the next segmentation information is repeated and the segmentation interval is 3 subframes after the current segmentation information is repeatedly transmitted.
  • different repetition times may be configured for different segmentation information.
  • different repetition times may be configured for different segmentation information.
  • different repetition times may be configured for different segmentation information.
  • different repetition times may be configured for different segmentation information.
  • different repetition times may be configured for different segmentation information.
  • the parameter of the fourth repeating mode may be replaced by the transmission interval of different segment information.
  • the number of segments is 2 segments.
  • the transmission interval of different segmentation information is 1 subframe.
  • the fourth transmission mode may be replaced by a first transmission interval of different segmentation information and a second transmission interval of different segmentation information.
  • the number of segments is 2 segments.
  • the first transmission interval of different segment information is 1 subframe
  • the second transmission interval of different segment information is 4 subframes.
  • the specific description of the fourth configuration parameter in the embodiment of the present invention is similar to the description of the second configuration parameter in step 403, and the embodiment of the present invention is not detailed here. Detailed description.
  • the content that is specifically included in the fourth configuration parameter may be selected according to the requirements of the actual application scenario, and is not specifically limited herein.
  • the parameters required for controlling the repeated transmission of the first control information may be pre-configured at the base station device and the terminal. In the device, the terminal device may be notified in other manners according to the requirements of the actual application scenario, and the embodiment of the present invention is not specifically limited herein.
  • the fourth configuration parameter includes a fourth offset, a fourth scheduling period (and the fourth scheduling period and the fourth offset are all represented by using a subframe number), The fourth start time, the fourth repetition number, the fourth repetition mode, the MCS, the TBS, and the fourth frequency information.
  • the base station device may send the first control information to the terminal device according to the second control information, where the base station device may determine whether the current system frame needs to send the first control information according to the fourth offset and the fourth scheduling period.
  • the base station device determines, according to the fourth offset, the fourth scheduling period, the fourth starting time, the fourth repetition number, and the fourth repetition mode, that the current system needs to be Which subframes and/or symbols of the frame or current scheduling period transmit the first control information, and then pass the SC-MCCH to the terminal according to the determined all subframe numbers and/or symbols, and the MCS, TBS, and fourth frequency information.
  • the device sends the first control information to implement repeated transmission of the first control information.
  • the fourth configuration parameter includes a fourth offset, a fourth scheduling period (and the fourth scheduling period and the fourth offset are all represented by subframe numbers), and the fourth start Time, fourth repetition number, fourth repetition mode, MCS, TBS, fourth frequency information, number of segments, and repetition mode.
  • the base station device may send the first control information to the terminal device according to the second control information, where the base station device may determine whether the current system frame needs to send the first control information according to the fourth offset and the fourth scheduling period.
  • the system frame of the segmentation information if it is determined that the current system frame is not the system frame of the segmentation information of the first control information, the next system frame is determined.
  • the base station device determines which subframes and/or symbols of the current system frame or current scheduling period need to be sent.
  • Segmentation information of the first control information and then, according to the determined all subframe numbers and/or symbols, and the MCS, the TBS, and the fourth frequency information, send the segmentation information of the first control information to the terminal device through the SC-MCCH, so that Repeat transmission of the first control information is implemented.
  • the base station device may carry the radio link control (RLC) protocol data unit (PDU) header of the previous segment information. An indication to indicate whether segmentation information still exists later.
  • RLC radio link control
  • PDU protocol data unit
  • the base station device may include all parameters for controlling the repeated transmission of the first control information in the system message, adopting the system message.
  • the base station device may send the first control information to the terminal device according to the system message.
  • the fourth configuration parameter may be included in the system message, and is used to control the repeated transmission of the first control information, and the fourth configuration parameter is similar to the specific description of the fourth configuration parameter in the first possible implementation manner in this step.
  • the embodiment of the present invention is not described in detail herein, and the specific process of the base station device transmitting the first control information to the terminal device according to the system message is similar to the process for the base station device to send the first control information to the terminal device according to the second control information.
  • the embodiments of the present invention are not described in detail herein.
  • the base station device may send a paging message to the terminal device to notify the terminal device to control the first control.
  • the parameters of the repeated transmission of information change.
  • a parameter for controlling repeated transmission of the first control information may be included in the system message, and a parameter for controlling the repeated transmission of the first control information is included in the second In the control information, the system is adopted.
  • the message and the second control information are used to control the repeated transmission of the first control information.
  • the base station device may send the first control information to the terminal device according to the system message and the second control information.
  • among the parameters for controlling the repeated transmission of the first control information which parameters are included in the system message, and which parameters are included in the second control information, may be set according to the requirements of the actual application scenario.
  • the embodiments of the present invention are not limited herein.
  • the parameters included in the system message and the second control information for controlling the repeated transmission of the first control information are similar to the specific description of the fourth configuration parameter in the first possible implementation manner in this step, and the embodiment of the present invention is
  • the detailed process of transmitting the first control information by the base station device to the terminal device according to the system message and the second control information is also similar to the process for the base station device to send the first control information to the terminal device according to the second control information.
  • the embodiments of the present invention are not described in detail herein.
  • the terminal device receives first control information sent by the base station device.
  • the terminal device may receive the first control information sent by the base station device.
  • the terminal device may receive, according to the second control information, the first control information that is repeatedly sent by the base station device, Specifically, the terminal device may receive the first control information repeatedly sent by the base station device according to the fourth configuration parameter included in the second control information.
  • the detailed description of the fourth configuration parameter is similar to the detailed description of the fourth configuration parameter in the step 407, and details are not described in detail herein.
  • the first control information is not required to be segmented
  • the terminal device receives the first control information sent by the base station device according to the second control information, which may be: the terminal device may first according to the fourth partial The shift amount and the fourth scheduling period determine whether the current system frame is a system frame that needs to receive the first control information, and if it is determined that the current system frame is not a system frame that needs to receive the first control information, determine the current system frame.
  • a system frame is a system frame that needs to receive the first control information
  • the terminal device root Determining which subframes and/or symbols of the current system frame or current scheduling period need to be received according to the fourth offset, the fourth scheduling period, the fourth starting moment, the fourth repetition number, and the fourth repetition mode First control information, and then transmitting, by the SC-MCCH receiving base station device, the first control information according to the determined all subframe numbers and/or symbols, and the MCS, TBS, and fourth frequency information, because the multiple subframe numbers and/or The first control information is repeatedly received on the symbol or the symbol, thereby improving the success rate of the terminal device receiving the first control information.
  • the terminal device receives the first control information sent by the base station device according to the second control information, which may be: the terminal device may first determine the current system according to the fourth offset and the fourth scheduling period. Whether the frame is a system frame that needs to receive the segmentation information of the first control information, and if it is determined that the current system frame is not a system frame that needs to receive the segmentation information of the first control information, determine the next system frame of the current system frame.
  • the terminal device Whether it is a system frame that needs to receive the segmentation information of the first control information, and if it is determined that the current system frame is a system frame that needs to receive the segmentation information of the first control information, the terminal device according to the fourth offset, the fourth The scheduling period, the fourth starting time, the fourth repetition number, the fourth repetition mode, the number of segments, and the repetition mode determine which subframes and/or symbols of the current system frame or current scheduling period need to receive the first Segmentation information of the control information, and then receiving, by the SC-MCCH, the base station device according to all the determined subframe numbers and/or symbols, and the MCS, the TBS, and the fourth frequency information. Segment information of the first control information, since the first control information may be repeated in a plurality of sub-frames or numbers and / or symbols, thus increasing the control information of the first terminal device receives the success rate.
  • the terminal device when the base station device sends the first control information to the terminal device according to the system message, the terminal device may receive the first control information according to the system message. Specifically, the terminal device may be included according to the system message.
  • the fourth configuration parameter receives the first control information repeatedly sent by the base station device.
  • the detailed description of the fourth configuration parameter is similar to the detailed description of the fourth configuration parameter in step 407.
  • the embodiment of the present invention is not described in detail herein, and the base station device sends the first control information according to the system message receiving base station device.
  • the specific process is similar to the process in which the base station device sends the first control information by the base station device according to the second control information, and the embodiments of the present invention are not described in detail herein.
  • the terminal device if the terminal device receives the base station setting The paging message is sent, and then the terminal device can determine that the first control information is changed. At this time, the terminal device needs to re-acquire the system message, and then re-acquire the first control information and the multicast service data.
  • the base station device when the base station device repeatedly sends the first control information to the terminal device according to the system message and the second control information, the base station device may receive the first control information according to the system message and the second control information, where The terminal device may receive the first control information that is repeatedly sent by the base station device according to the system configuration message and the fourth configuration parameter included in the second control information.
  • the detailed description of the fourth configuration parameter is similar to the detailed description of the fourth configuration parameter in the step 407.
  • the base station device receives the base station device according to the system message and the second control information.
  • the specific process of sending the first control information is similar to the process in which the base station device sends the first control information according to the second control information, and the embodiments of the present invention are not described in detail herein.
  • the base station device sends third control information to the terminal device.
  • the base station device may send the scheduling information of the multicast service data, that is, the third control information, to the terminal device before transmitting the multicast service data to the terminal device.
  • the base station device may repeatedly send the third control information to the terminal device, and may use the first control information to control the repeated transmission of the third control information, specifically, when When the first control information is used to control the repeated transmission of the third control information, the base station device may send the third control information to the terminal device according to the first control information.
  • the first control information may include a fifth configuration parameter, configured to control repeated transmission of the third control information, where the fifth configuration parameter may include at least one of the following: a fifth offset, a fifth scheduling period, and a Five start time, fifth end time, fifth repetition number, fifth repetition mode, and fifth frequency information.
  • the fifth termination time refers to the last frame position and/or the last subframe position of the third control information and/or the last symbol position of one subframe.
  • the fifth offset may also be used to indicate an offset of the start time of the third control information from the start time or the end time of the first control information.
  • the specific description of the fifth configuration parameter in the embodiment of the present invention is similar to the description of the second configuration parameter in step 403, and details are not described in detail herein.
  • the content that is specifically included in the fifth configuration parameter may be selected according to the requirements of the actual application scenario, and is not specifically limited herein.
  • the parameter required for controlling the repeated transmission of the third control information may be included in the system message, and The terminal device is notified by sending a system message to the terminal device, and the terminal device is notified in other manners according to the requirements of the actual application scenario.
  • the embodiment of the present invention is not specifically limited herein.
  • the fifth configuration parameter includes a fifth offset, a fifth scheduling period (and the fifth scheduling period and the fifth offset are all represented by using a subframe number), a fifth starting moment, and a fifth repetition. Number of times, fifth repetition mode, and fifth frequency information.
  • the base station device may send the third control information to the terminal device according to the first control information, where the base station device may determine, according to the fifth offset and the fifth scheduling period, whether the current system frame is required to send the third control information.
  • the base station device determines, according to the fifth offset, the fifth scheduling period, the fifth starting time, the fifth repetition number, and the fifth repetition mode, that the current system needs to be Which subframes and/or symbols of the frame or current scheduling period are sent with the third control information, and then according to all the determined subframe numbers and/or symbols, and the fifth frequency information is transmitted to the terminal through the second PDCCH or the second MPDCCH.
  • the device sends third control information to implement repeated transmission of the third control information.
  • the terminal device receives third control information sent by the base station device.
  • the terminal device may receive the third control information sent by the base station device.
  • the terminal device may receive the third control information repeatedly sent by the base station device according to the first control information.
  • the terminal device may be the first Control information
  • the fifth configuration parameter included receives third control information that is repeatedly sent by the base station device.
  • the detailed description of the fifth configuration parameter is similar to the detailed description of the fifth configuration parameter in step 409, and details are not described in detail herein.
  • the terminal device receives the third control information that is sent by the base station device according to the first control information, which may be: the terminal device may determine the current current according to the fifth offset and the fifth scheduling period. Whether the system frame is a system frame that needs to receive the third control information. If it is determined that the current system frame is not a system frame that needs to receive the third control information, it is determined whether the next system frame of the current system frame is required to receive the third control.
  • the first control information which may be: the terminal device may determine the current current according to the fifth offset and the fifth scheduling period. Whether the system frame is a system frame that needs to receive the third control information. If it is determined that the current system frame is not a system frame that needs to receive the third control information, it is determined whether the next system frame of the current system frame is required to receive the third control.
  • the system frame of the information if it is determined that the current system frame is a system frame that needs to receive the third control information, the terminal device according to the fifth offset, the fifth scheduling period, the fifth starting time, the fifth repetition number, and the The five repetition mode determines which subframes and/or symbols of the current system frame or the current scheduling period need to receive the third control information, and then according to the determined all subframe numbers and/or symbols, and the fifth frequency information.
  • Receiving the third control information by the second PDCCH or the second MPDCCH receiving base station device because the third control may be repeatedly received on multiple subframe numbers and/or symbols Information, thus improving the success ratio of the third control information receiving terminal device.
  • This step is an optional step.
  • the base station device sends multicast service data to the terminal device.
  • the multicast service data may be sent to the terminal device after the base station device sends the third control information to the terminal device.
  • the base station device may repeatedly send the multicast service data to the terminal device, and in a possible implementation manner, used to control the repeated transmission of the multicast service data.
  • the parameters are all included in the third control information, that is, the third control information is used to control the repeated transmission of the multicast service data.
  • the base station device may send the multicast service data to the terminal device according to the third control information.
  • the third control information may include a first configuration parameter for controlling repeated transmission of the multicast service data, where the first configuration parameter may include at least one of the following: a first offset, a first repetition, and a A repeat mode, MCS, TBS, first frequency information.
  • the starting time lags behind the offset of the start or end time of the third control information, the starting time refers to the starting subframe number or the starting system frame number, and the ending time refers to the terminating subframe number or the terminating system. Frame number.
  • the specific description of the other parameters in the first configuration parameter in the embodiment of the present invention is similar to the description of the second configuration parameter in the step 403, and details are not described in detail herein.
  • the content that is specifically included in the first configuration parameter may be selected according to the requirements of the actual application scenario, and is not specifically limited herein.
  • the parameters required for controlling the repeated transmission of the multicast service data may be pre-configured at the base station device and the terminal. In the device, the terminal device may be notified in other manners according to the requirements of the actual application scenario, and the embodiment of the present invention is not specifically limited herein.
  • the first configuration parameter includes a first offset, a first repetition number, a first repetition mode, an MCS, a TBS, and first frequency information.
  • the base station device may send the multicast service data to the terminal device according to the third control information.
  • the base station device may determine, according to the first offset, whether the current system frame is a system frame that needs to send the multicast service data.
  • the current system frame is a system frame that needs to send multicast service data
  • the base station device may include all parameters for controlling the repeated transmission of the multicast service data in the first control information, and adopt The first control information controls the repeated transmission of the multicast service data, that is, steps 409 and 410 may not be performed at this time. Execution, at this time, specifically, the base station device may send the multicast service data to the terminal device according to the first control information.
  • the first configuration information may include a first configuration parameter, where the first configuration parameter is used to control the repeated transmission of the multicast service data, and the first configuration parameter may include at least one of the following: a first offset, a first scheduling period, The first start time, the first end time, the first repetition number, the first repetition mode, the MCS, the TBS, the session ID, the TMGI, the first frequency information, and the first termination time refer to the last frame of repeatedly transmitting the multicast service data.
  • the position and/or the last subframe position and/or the last symbol position in a subframe, and the first configuration parameter is similar to the specific description of the second configuration parameter in step 403, and the embodiment of the present invention will not be described in detail herein.
  • the specific process for the base station device to send the multicast service data to the terminal device according to the first control information is similar to the process for the base station device to send the multicast service data to the terminal device according to the third control information, and the embodiment of the present invention does not More details will be described.
  • a parameter for partially controlling repeated transmission of multicast service data may be included in the first control information, and a remaining parameter for controlling repeated transmission of the multicast service data may be included in In the third control information, the first control information and the third control information are used together to control the repeated transmission of the multicast service data.
  • the base station device may use the first control information and the third control information to the terminal device.
  • Send multicast business data the parameters of the parameters for controlling the repeated transmission of the multicast service data are included in the first control information, and the parameters are included in the third control information, which may be according to the requirements of the actual application scenario.
  • the embodiment of the present invention is not limited herein.
  • the parameters included in the first control information and the third control information for controlling the repeated transmission of the multicast service data are similar to the specific description of the first configuration parameter in the second possible implementation manner in this step, and the present invention is
  • the specific process of transmitting the multicast service data to the terminal device according to the first control information and the third control information by the base station device is also sent to the terminal device according to the third control information.
  • the process of the data is similar, and the embodiments of the present invention are not described in detail herein.
  • the terminal device receives the multicast service data sent by the base station device.
  • the terminal The device can receive the multicast service data sent by the base station device.
  • the terminal device may receive the multicast service data repeatedly sent by the base station device according to the third control information. Specifically, the terminal device may receive the multicast service data repeatedly sent by the base station device according to the first configuration parameter included in the third control information.
  • the specific description of the first configuration parameter is similar to the specific description of the first configuration parameter in the step 411, and details are not described in detail herein.
  • the terminal device receives the multicast service data sent by the base station device according to the third control information, which may be: the terminal device may first determine whether the current system frame is required according to the first offset.
  • the system frame that receives the multicast service data if it is determined that the current system frame is not a system frame that needs to receive the multicast service data, determines whether the next system frame of the current system frame is a system frame that needs to receive the multicast service data. If it is determined that the current system frame is a system frame that needs to receive the multicast service data, the terminal device determines, according to the third control information start time or end time, the first offset quantity, the first repetition quantity, and the first repetition mode.
  • the SC-MTCH receiving base station device transmits multicast service data, and the multicast service data can be repeatedly received on multiple subframe numbers and/or symbols, thereby improving The success rate of receiving the multicast service data by the terminal device.
  • the terminal device may receive the multicast service data according to the first control information.
  • the terminal device may be configured according to the first The first configuration parameter included in the control information receives the multicast service data repeatedly sent by the base station device.
  • the specific description of the first configuration parameter is similar to the specific description of the first configuration parameter in step 411.
  • the embodiment of the present invention is not described in detail herein, and the base station device receives the multicast message according to the first control information.
  • the specific process of the service data is also similar to the process in which the base station device receives the multicast service data according to the third control information, and the base station device sends the multicast service data. The embodiments of the present invention are not described in detail herein.
  • the base station device when the base station device repeatedly sends the multicast service data to the terminal device according to the first control information and the third control information, the base station device may receive the multicast according to the first control information and the third control information.
  • the service data specifically, the terminal device may receive the multicast service data repeatedly sent by the base station device according to the first configuration parameter included in the first control information and the third control information.
  • the specific description of the first configuration parameter is similar to the specific description of the first configuration parameter in the step 411.
  • the base station device receives the first control information and the third control information.
  • the specific process of the base station device for transmitting the multicast service data is similar to the process for the base station device to receive the multicast service data according to the third control information, and the embodiments of the present invention are not described in detail herein.
  • the base station device sends the first control information for controlling the repeated transmission of the multicast service data to the terminal device, and repeatedly transmits the multicast service data to the terminal device according to the first control information, so that the terminal
  • the device may receive the multicast service data repeatedly sent by the base station device according to the received first control information, so as to improve the success rate of the terminal device receiving the multicast service data.
  • the MTC terminal can receive the multicast service data repeatedly transmitted by the base station according to the received first control information, thereby improving the success rate of receiving data by the MTC terminal.
  • the success rate of receiving the multicast service data by the MTC terminal is further improved.
  • the terminal is reduced The delay in which the device obtains multicast service data.
  • the first control information is changed, the first control information is changed in the second control information to indicate that the first control information is changed, or the second control information is used to indicate that the first control information is changed, instead By sending a modification notification to the terminal device, the delay of the terminal device acquiring the multicast service data is reduced.
  • each network element such as a base station device and a terminal device, includes hardware structures and/or software modules corresponding to each function in order to implement the above functions.
  • each network element such as a base station device and a terminal device
  • the present invention can be implemented in a combination of hardware or hardware and computer software in combination with the algorithm steps of the various examples described in the embodiments disclosed herein. Whether a function is implemented in hardware or computer software to drive hardware depends on the specific application and design constraints of the solution. A person skilled in the art can use different methods for implementing the described functions for each particular application, but such implementation should not be considered to be beyond the scope of the present invention.
  • the embodiments of the present invention may divide the function modules of the base station device and the terminal device according to the foregoing method.
  • each function module may be divided according to each function, or two or more functions may be integrated into one processing module.
  • the above integrated modules can be implemented in the form of hardware or in the form of software functional modules. It should be noted that the division of the module in the embodiment of the present invention is schematic, and is only a logical function division, and the actual implementation may have another division manner.
  • FIG. 16 is a schematic diagram showing a possible composition of the base station device involved in the foregoing and the embodiment.
  • the base station device may include: a processing unit 50. And transmitting unit 51.
  • the processing unit 50 is configured to determine first control information used to control repeated transmission of the multicast service data.
  • the sending unit 51 is configured to support the base station device to perform step 201 and step 202 in the data transmission method shown in FIG. 3, and step 401, step 403, step 405, step 407, and step in the data transmission method shown in FIG. 409, step 411.
  • the base station device provided by the embodiment of the present invention is configured to execute the foregoing data transmission method, so that the same effect as the above data transmission method can be achieved.
  • FIG. 17 shows another possible composition diagram of the base station apparatus involved in the above embodiment.
  • the base station device includes a processing module 61 and a communication module 62.
  • the processing module 61 is for controlling management of the actions of the base station device, and/or other processes for the techniques described herein.
  • the communication module 62 is configured to support communication between the base station device and other network entities, such as communication with the functional modules or network entities shown in FIG. 2, FIG. 18 or FIG. 19, specifically, for example, the communication module 62 is configured to execute the map. Steps 201 and 202 of the data transmission method shown in FIG. 3, step 401, step 403, step 405, step 407, step 409, and step 411 in the data transmission method shown in FIG. 5.
  • the base station device may further include a storage module 63 for storing program codes and data of the base station device.
  • the processing module 61 can be a processor or a controller. It is possible to implement or carry out the various illustrative logical blocks, modules and circuits described in connection with the present disclosure.
  • the processor may also be a combination of computing functions, for example, including one or more microprocessor combinations, a combination of a DSP and a microprocessor, and the like.
  • the communication module 62 can be a transceiver, a transceiver circuit, a communication interface, or the like.
  • the storage module 63 can be a memory.
  • the base station device When the processing module 61 is a processor, the communication module 62 is a transceiver, and the storage module 63 is a memory, the base station device according to the embodiment of the present invention may be the base station device shown in FIG.
  • FIG. 18 is a schematic diagram showing a possible configuration of the terminal device involved in the foregoing and the embodiment.
  • the terminal device may include: a receiving unit 71. And processing unit 72.
  • the receiving unit 71 is configured to support the terminal device to perform step 301 and step 302 in the data transmission method shown in FIG. 4, and step 402, step 404, step 406, and step 408 in the data transmission method shown in FIG. Step 410, step 412.
  • the processing unit 72 is configured to determine, according to the first control information received by the receiving unit 71, the repeated transmission parameter of the multicast service data, so that the receiving unit 71 can receive the multicast service according to the determined repeated transmission parameter of the multicast service data. data.
  • the terminal device provided by the embodiment of the present invention is configured to execute the foregoing data transmission method, so that the same effect as the above data transmission method can be achieved.
  • FIG. 19 shows another possible composition diagram of the terminal device involved in the above embodiment.
  • the terminal device includes a processing module 81 and a communication module 82.
  • the processing module 81 is for controlling management of the actions of the terminal device, and/or other processes for the techniques described herein.
  • the communication module 82 is configured to support communication between the terminal device and other network entities, such as communication with the functional modules or network entities shown in FIG. 2, FIG. 16, or FIG. 17, specifically, for example, the communication module 82 is configured to execute the map. Step 301, step 302 in the data transmission method shown in FIG. 4, step 402, step 404, step 406, step 408, step 410, and step 412 in the data transmission method shown in FIG.
  • the terminal device may further include a storage module 83 for storing program codes and data of the terminal device.
  • the processing module 81 can be a processor or a controller. It is possible to implement or carry out the various illustrative logical blocks, modules and circuits described in connection with the present disclosure.
  • the processor may also be a combination of computing functions, for example, including one or more microprocessor combinations, a combination of a DSP and a microprocessor, and the like.
  • the communication module 82 can be a transceiver, a transceiver circuit, a communication interface, or the like.
  • the storage module 83 can be a memory.
  • the terminal device When the processing module 81 is a processor, the communication module 82 is a transceiver, and the storage module 83 is a memory, the terminal device according to the embodiment of the present invention may be the terminal device shown in FIG.
  • FIG. 20 is a schematic diagram of another base station device according to an embodiment of the present invention.
  • the base station device may include: a processor 91, a memory 92, and a transceiver 93.
  • the memory 92 is configured to store a computer execution instruction, and when the base station device is in operation, the processor 91 executes the computer execution instruction stored by the memory 92 to cause the base station device to execute as shown in FIG. 3 or FIG. 5. The data transmission method described. And, when the base station device is running, the transceiver 93 is configured to perform the data transmission method as described in FIG. 3 or FIG. 5 to correspondingly implement the function of the transmitting unit 51 included in the base station device shown in FIG. 16.
  • transceiver 93 performs the steps in the data transmission method as described in FIG. 201, to implement the function of the transmitting unit 51 included in the base station device shown in FIG.
  • the transceiver 93 performs step 409 in the data transmission method as described in FIG. 5 to implement the functions of the transmitting unit 51 included in the base station device shown in FIG.
  • transceiver 93 may include all or part of a baseband processor, and may also optionally include an RF processor.
  • the RF processor is used to transmit and receive RF signals
  • the baseband processor is used to implement processing of a baseband signal converted by an RF signal or a baseband signal to be converted into an RF signal.
  • the embodiment further provides a storage medium, which may include the memory 92.
  • the processor 91 can be a central processing unit (CPU).
  • the processor 91 can also be a general-purpose processor, a digital signal processing (DSP), an application specific integrated circuit (ASIC), or a field-programmable gate array (FPGA). ) or other programmable logic devices, discrete gates or transistor logic devices, discrete hardware components, and the like.
  • the general purpose processor may be a microprocessor or the processor or any conventional processor or the like.
  • the processor 91 can detect the upper layer software running by the processor 91, for example, the application software needs to initiate a data communication service, and trigger the method mentioned in the previous embodiment.
  • the memory 92 may include a volatile memory such as a random-access memory (RAM); the memory 92 may also include a non-volatile memory, such as only Read-only memory (ROM), flash memory, hard disk drive (HDD) or solid-state drive (SSD); the memory 92 may also include the above types of memory The combination.
  • RAM random-access memory
  • ROM Read-only memory
  • HDD hard disk drive
  • SSD solid-state drive
  • the transceiver 93 can be specifically a wireless transceiver.
  • the wireless transceiver may include a radio frequency front end device or an antenna or the like in addition to the RF booster and the baseband processor.
  • the processor 91 transmits and receives data to and from other devices, such as other terminal devices, through the transceiver 93.
  • the base station device provided by the embodiment of the present invention is configured to execute the foregoing data transmission method, so that the same effect as the above data transmission method can be achieved.
  • FIG. 21 is a schematic diagram showing the composition of another terminal device according to an embodiment of the present invention.
  • the terminal device may include: a processor 1001, a memory 1002, and a transceiver 1003.
  • the memory 1002 is configured to store a computer execution instruction, when the terminal device is running, the processor 1001 executes the computer execution instruction stored by the memory 1002, so that the terminal device performs the execution as shown in FIG. 4 or FIG. 5.
  • the transceiver 1003 is configured to perform the data transmission method as described in FIG. 4 or FIG. 5 to correspondingly implement the function of the receiving unit 71 included in the terminal device shown in FIG. 18.
  • the transceiver 1003 performs step 301 in the data transmission method as described in FIG. 4 to implement the functions of the receiving unit 71 included in the base station device shown in FIG.
  • the transceiver 1003 performs step 406 in the data transmission method as described in FIG. 5 to implement the functions of the receiving unit 71 included in the terminal device illustrated in FIG. 18.
  • the transceiver 1003 may include all or part of a baseband processor, and may also optionally include an RF processor.
  • the RF processor is used to transmit and receive RF signals
  • the baseband processor is used to implement processing of a baseband signal converted by an RF signal or a baseband signal to be converted into an RF signal.
  • the embodiment further provides a storage medium, which may include the memory 1002.
  • the processor 1001 can be a CPU.
  • the processor 91 can also be other general purpose processors, DSPs, ASICs, FPGAs or other programmable logic devices, discrete gates or transistor logic devices, discrete hardware components, and the like.
  • the general purpose processor may be a microprocessor or the processor or any conventional processor or the like.
  • the processor 1001 can detect the upper layer software running by the processor 1001, for example, the application software needs to initiate a data communication service, and trigger the method mentioned in the previous embodiment.
  • the memory 1002 may be a volatile memory such as a RAM; the memory 1002 may also include a non-volatile memory such as a ROM, a flash memory, an HDD or an SSD; and the memory 1002 may further include a combination of the above types of memories.
  • the transceiver 1003 may specifically be a wireless transceiver.
  • the wireless transceiver may include a radio frequency front end device or an antenna or the like in addition to the RF booster and the baseband processor.
  • the processor 1001 performs data transmission and reception with the other devices, such as other base station devices, through the transceiver 1003.
  • the terminal device provided by the embodiment of the present invention is configured to execute the foregoing data transmission method, so that the same effect as the above data transmission method can be achieved.
  • the method provided by this embodiment can be stored in a readable storage medium if it is implemented in the form of a software functional unit and sold or used as a stand-alone product. Based on such understanding, the technical solution of the present invention may contribute to the prior art or all or part of the technical solution may be embodied in the form of a software product stored in a storage medium. A number of instructions are included to cause a device (which may be a microcontroller, chip, etc.) or a processor to perform all or part of the steps of the methods described in various embodiments of the present invention.
  • the foregoing storage medium includes various media that can store program codes, such as a USB flash drive, a mobile hard disk, a ROM, a RAM, a magnetic disk, or an optical disk.

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Abstract

本发明实施例公开了一种数据传输方法及设备,涉及通信领域,解决了引入SC-PTM技术后的MTC终端接收数据的成功率较低的问题。具体方案为:基站设备向终端设备发送第一控制信息,第一控制信息用于控制多播业务数据的重复传输;基站设备根据第一控制信息向终端设备发送多播业务数据。本发明用于数据传输的过程中。

Description

一种数据传输方法及设备 技术领域
本发明涉及通信领域,尤其涉及一种数据传输方法及设备。
背景技术
机器类型通信(Machine Type Communication,MTC)是一种通过蜂窝网络进行数据传输的机器与机器(Machine to Machine,M2M)的通信,其主要应用于智能交通、智能电网、智能家居等领域,在这些领域中,MTC终端多部署在有限封闭的空间,如车内、地下室等特殊通信环境,与普通通信环境相比,其接收到的信号将会附加20dB的穿透损耗,也就是说,这种环境下的通信质量不好,MTC终端接收数据的成功率较低。目前,可以通过引入覆盖增强(Coverage enhancement)技术,来提高MTC终端接收数据的成功率。
另外,现有的MTC只支持单播通信模式,即每个MTC终端都要单独与基站建立通信链路,以便接收来自基站的数据。在这种单播通信模式下,当基站有软件升级等群组类型的多播业务数据需下发到群组内的所有MTC终端时,需要分别通过与每个MTC终端建立的通信链路向相应的MTC终端发送多播业务数据,这样会导致基站的资源耗损较为严重,也会使得网络负担加重,尤其在群组内包括的MTC终端的数量较大时,上述问题尤为突出。为了降低基站的资源损耗,减轻网络负担,MTC中可以引入一种单小区点对多点通信(Single Cell Point to Multi-point,SC-PTM)技术。在这种技术下,接收同一多播业务数据的一组MTC终端会使用相同的下行配置来接收数据,即该组MTC终端仅会与基站建立一条共享的通信链路,这样,当基站有多播业务数据需下发时,仅需通过该共享的通信链路便可以向群组内的所有MTC终端发送该多播业务数据,这样基站的资源耗损便得到降低,网络负担也得以减轻。但是,SC-PTM 技术目前并不支持覆盖增强技术,即在引入SC-PTM技术后,MTC终端接收数据的成功率仍然较低。
因此,如何提高引入SC-PTM技术后的MTC终端接收数据的成功率已成为本领域技术人员研究的重点课题。
发明内容
本发明实施例提供一种数据传输方法及设备,解决了引入SC-PTM技术后的MTC终端接收数据的成功率较低的问题。
为达到上述目的,本发明采用如下技术方案:
本发明实施例的第一方面,提供一种数据传输方法,包括:
基站设备向终端设备发送用于控制多播业务数据的重复传输的第一控制信息,并根据第一控制信息向终端设备发送多播业务数据。
其中,所述的基站设备具体可以为基站等接入网设备,所述的终端设备具体的可以为MTC终端,该MTC终端指的是采用MTC技术的终端。
本发明提供的数据传输方法,基站设备通过向终端设备发送用于控制多播业务数据的重复传输的第一控制信息,并通过根据第一控制信息向终端设备重复发送多播业务数据,使得终端设备可以根据接收到的第一控制信息接收基站设备重复发送的多播业务数据,以提高终端设备接收多播业务数据的成功率。这样,在引入SC-PTM技术的MTC中,MTC终端便可以通过根据接收到的第一控制信息接收基站重复发送的多播业务数据,从而提高了MTC终端接收数据的成功率。
结合第一方面,在一种可能的实现方式中,为了进一步的提高终端设备接收多播业务数据的成功率,可以将用于控制多播业务数据的重复传输的第一控制信息也进行重复传输,因此,在基站设备向终端设备发送第一控制信息之前,该数据传输方法还可以包括:基站设备向终端设备发送用于控制第一控制信息的重复传输的系统消息。此时,相应的,基站设备向终端设备发送第一控制信息具体的可以包括:基站设备根据系统消息向终端设备发送第一控制信息。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,为了进一步的提高终端设备接收多播业务数据的成功率,可以将用于控制多播业务数据的重复传输的第一控制信息也进行重复传输,因此,在基站设备向终端设备发送第一控制信息之前,该数据传输方法还可以包括:基站设备向终端设备发送用于控制第一控制信息的重复传输的第二控制信息。此时,相应的,基站设备向终端设备发送第一控制信息具体的可以包括:基站设备根据第二控制信息向终端设备发送第一控制信息。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,为了进一步的提高终端设备接收多播业务数据的成功率,可以将用于控制第一控制信息的重复传输的第二控制信息也进行重复传输,因此,在基站设备向终端设备发送第二控制信息之前,该数据传输方法还可以包括:基站设备向终端设备发送用于控制第二控制信息的重复传输的系统消息。此时,相应的,基站设备向终端设备发送第二控制信息具体的可以包括:基站设备根据系统消息向终端设备发送第二控制信息。或者,在将第一控制信息进行重复传输的方案中,可以将部分用于控制第一控制信息进行重复传输的参数包含在系统消息中,因此,在基站设备向终端设备发送第二控制信息之前,该数据传输方法还可以包括:基站设备向终端设备发送用于控制第一控制信息的重复传输的系统消息。此时,相应的,基站设备向终端设备发送第一控制信息具体的可以包括:基站设备根据系统消息向终端设备发送第一控制信息。或者,为了进一步的提高终端设备接收多播业务数据的成功率,可以将用于控制第一控制信息的重复传输的第二控制信息也进行重复传输,同时在将第一控制信息进行重复传输的方案中,可以将部分用于控制第一控制信息进行重复传输的参数包含在系统消息中,因此,在基站设备向终端设备发送第二控制信息之前,该数据传输方法还可以包括:基站设备向终端设备发送用于控制第二控制信息的重复传输和用于控制第一控制信息的重复传输的系统消息。此时,相应的,基站设备向终端 设备发送第二控制信息具体的可以包括:基站设备根据系统消息向终端设备发送第二控制信息,同时,基站设备向终端设备发送第一控制信息具体的可以包括:基站设备根据系统消息向终端设备发送第一控制信息。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,在将多播业务数据进行重复传输的方案中,可以将部分用于控制多播业务数据进行重复传输的参数包含在第三控制信息中,因此,在基站设备根据第一控制信息向终端设备发送多播业务数据之前,该数据传输方法还可以包括:基站设备向终端设备发送用于控制多播业务数据的重复传输的第三控制信息。此时,基站设备根据第一控制信息向终端设备发送多播业务数据具体的可以包括:基站设备根据第一控制信息和第三控制信息向终端设备发送多播业务数据。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,为了进一步的提高终端设备接收多播业务数据的成功率,可以将用于控制多播业务数据的重复传输的第三控制信息也进行重复传输,此时,基站设备向终端设备发送的第一控制信息还用于控制第三控制信息的重复传输。相应的,基站设备向终端设备发送第三控制信息具体的可以包括:基站设备根据第一控制信息向终端设备发送第三控制信息。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,在将多播业务数据进行重复传输的方案中,可以将用于控制多播业务数据进行重复传输的参数包含在第三控制信息中,而此时第一控制信息具体用于控制第三控制信息的重复传输,因此,在基站设备根据第一控制信息向终端设备发送多播业务数据之前,该数据传输方法还可以包括:基站设备向终端设备发送用于控制多播业务数据的重复传输的第三控制信息。相应的,基站设备根据第一控制信息向终端设备发送多播业务数据具体的可以包括:基站设备根据第三控制信息向终端设备发送多播业务数据。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,当第一控制信息发生变化之后,为了通知终端设备重新接收第一控制信息,在基站设备向终端设备发送第一控制信息之前,该数据传输方法还可以包括:基站设备向终端设备发送用于通知第一控制信息发生改变的、携带有第一无线网络临时标识(Radio Network Temporary Identity,RNTI)的修改通知。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,为了进一步的提高终端设备接收多播业务数据的成功率,可以将用于通知第一控制信息发生改变的修改通知也进行重复传输,因此,在基站设备向终端设备发送修改通知之前,该数据传输方法还可以包括:基站设备向终端设备发送用于控制修改通知的重复传输的系统消息。此时,相应的,基站设备向终端设备发送修改通知具体的可以包括:基站设备根据系统消息向终端设备发送修改通知。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,当第一控制信息用于控制多播业务数据的重复传输时,第一控制信息可以包括第一配置参数,该第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一重复次数、第一重复模式、调制编码策略(Modulation and Coding Scheme,MCS)、传输块大小(Transport Block Size,TBS)、会话标识(session Identity,session ID)、临时移动组标识(Temporary Mobile Group Identity,TMGI)、第一频率信息;第一调度周期用于确定传输多播业务数据的系统帧号和起始子帧号,或者,第一偏移量和第一调度周期用于确定传输多播业务数据的系统帧号和起始子帧号,第一起始时刻用于确定传输多播业务数据的第一起始符号;或者,第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一终止时刻、第一重复次数、第一重复模式、MCS、TBS、session ID、TMGI、第一频率信息,第一调度周期用于确定传输多播业务数据的系统帧号,或者,第一偏移量和第一调度周期用于确定传输多播业务数据的系统帧号,第一起始时刻用于确定传输多播 业务数据的第一起始子帧号和/或第一起始符号,第一终止时刻包括第一终止子帧号和/或第一终止符号,第一频率信息用于指示发送多播业务数据的频率,第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。此时,相应的,基站设备根据第一控制信息向终端设备发送多播业务数据具体的可以包括:基站设备根据第一配置参数向终端设备发送多播业务数据。
当第一控制信息用于控制第三控制信息的重复传输时,上述第一调度周期用于确定发送第三控制信息的系统帧号和起始子帧号,或者,第一偏移量和第一调度周期用于确定发送第三控制信息的系统帧号和起始子帧号,第一起始时刻用于确定发送第三控制信息的第一起始符号;或者,第一调度周期用于确定发送第三控制信息的系统帧号,或者,第一偏移量和第一调度周期用于确定发送第三控制信息的系统帧号,第一起始时刻用于确定发送第三控制信息的第一起始子帧号和/或第一起始符号,第一频率信息用于指示发送第三控制信息的频率。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,当第三控制信息用于控制多播业务数据的重复传输时,该第三控制信息可以包括第一配置参数,该第一配置参数可以包括以下至少一项:第一偏移量、第一重复次数、第一重复模式、MCS、TBS、第一频率信息;第一偏移量用于指示多播业务数据的起始时刻滞后于第三控制信息起始时刻或终止时刻的偏移量,起始时刻指的是起始子帧号或起始系统帧号,终止时刻指的是终止子帧号或终止系统帧号;第一频率信息用于指示发送多播业务数据的频率,第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,当系统消息用于控制修改通知的重复传输时,系统消息可以包括:第二配置参数,第二配置参数可以包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二重复次数、第二重复模式、第二频率信息,第二调度周期用于确定传输修改通知的系统 帧号和起始子帧号,或者,第二偏移量和第二调度周期用于确定传输修改通知的系统帧号和起始子帧号,第二起始时刻用于确定传输修改通知的第二起始符号;或者,第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二终止时刻、第二重复次数、第二重复模式、第二频率信息;第二调度周期用于确定传输修改通知的系统帧号,或者,第二偏移量和第二调度周期用于确定传输修改通知的系统帧号,第二起始时刻用于确定传输修改通知的第二起始子帧号和/或第二起始符号;第二终止时刻包括第二终止子帧号和/或第二终止符号,第二频率信息用于指示发送修改通知的频率,第二频率信息包括以下至少一项:窄带中心频率、窄带索引值。此时,相应的,基站设备根据系统消息向终端设备发送修改通知具体的可以包括:基站设备根据第二配置参数向终端设备发送修改通知。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,当第一控制信息发生变化之后,为了在通知终端设备重新接收第一控制信息的同时,减小终端设备接收到第一控制信息和多播业务数据的时延,基站设备向终端设备发送的第二控制信息用第一RNTI或第二RNTI进行加扰;第一RNTI用于当第一控制信息发生改变时对第二控制信息进行加扰,第一RNTI还用于指示第一控制信息发生改变;第二RNTI用于当第一控制信息未发生改变时对第二控制信息进行加扰。或者,基站设备向终端设备发送的第二控制信息还用于通知第一控制信息发生改变。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,当系统消息用于控制第二控制信息的重复传输时,系统消息可以包括:第三配置参数,第三配置参数可以包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三重复次数、第三重复模式、第三频率信息,第三调度周期用于确定传输第二控制信息的系统帧号和起始子帧号,或者,第三偏移量和第三调度周期用于确定传输第二控制信息的系统帧号和起始子帧号,第三起始时刻 用于确定传输第二控制信息的第三起始符号;或者,第三配置参数包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三终止时刻、第三重复次数、第三重复模式、第三频率信息,第三调度周期用于确定传输第二控制信息的系统帧号,或者,第三偏移量和第三调度周期用于确定传输第二控制信息的系统帧号,第三起始时刻用于确定传输第二控制信息的第三起始子帧号和/或第三起始符号;第三终止时刻包括第三终止子帧号和/或第三终止符号,第三频率信息用于指示发送第二控制信息的频率,第三频率信息包括以下至少一项:窄带中心频率、窄带索引值。此时,基站设备根据系统消息向终端设备发送第二控制信息具体的可以包括:基站设备根据第三配置参数向终端设备发送第二控制信息。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,当系统消息用于控制第一控制信息的重复传输时,系统消息可以包括:第四配置参数,当第一控制信息不需进行分段传输时,该第四配置参数可以包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,第四调度周期用于确定传输第一控制信息的系统帧号和起始子帧号,或者,第四偏移量和第四调度周期用于确定传输第一控制信息的系统帧号和起始子帧号,第四起始时刻用于确定传输第一控制信息的第四起始符号;或者,第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,第四调度周期用于确定传输第一控制信息的系统帧号,或者,第四偏移量和第四调度周期用于确定传输第一控制信息的系统帧号,第四起始时刻用于确定传输第一控制信息的第四起始子帧号和/或第四起始符号;第四终止时刻包括第四终止子帧号和/或第四终止符号,第四频率信息用于指示发送第一控制信息的频率,所述第四频率信息包括以下至少一项:窄带中心频率、窄带索引值;当第一控制信息需进行分段传输时,第四配置参数还可以包括以下至少一种: 分段数、重复方式,该重复方式为:依次间隔传输不同分段信息,或,将当前分段信息重复传输完成之后,再重复传输下一个分段信息。此时,基站设备根据系统消息向终端设备发送第一控制信息具体的可以包括:基站设备根据第四配置参数向终端设备发送第一控制信息。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,当第二控制信息用于控制第一控制信息的重复传输时,该第二控制信息可以包括:第四配置参数;当第一控制信息不需进行分段传输时,第四配置参数可以包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;或者,第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;当第一控制信息需进行分段传输时,第四配置参数还可以包括以下至少一种:分段数、重复方式。此时,基站设备根据第二控制信息向终端设备发送第一控制信息具体的可以包括:基站设备根据第四配置参数向终端设备发送第一控制信息。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,当第一控制信息用于控制第三控制信息的重复传输时,第一控制信息可以包括第五配置参数,该第五配置参数可以包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五重复次数、第五重复模式、第五频率信息;第五偏移量用于指示第三控制信息的起始时刻滞后于第一控制信息起始时刻或终止时刻的偏移量,或者,第五调度周期用于确定传输第三控制信息的系统帧号和起始子帧号,或者,第五偏移量和第五调度周期用于确定传输第三控制信息的系统帧号和起始子帧号,所述第五起始时刻用于确定传输所述第三控制信息的第五起始符号;或者,第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五终止时刻、第五重复次数、第五重复模式、第五频率信息,第五偏移 量用于指示第三控制信息的起始时刻滞后于第一控制信息起始时刻或终止时刻的偏移量,或者,第五调度周期用于确定传输第三控制信息的系统帧号,或者,第五偏移量和第五调度周期用于确定传输第三控制信息的系统帧号,第五起始时刻用于确定传输第三控制信息的第五起始子帧号和/或第五起始符号,第五终止时刻包括第五终止子帧号和/或第五终止符号,第五频率信息用于指示发送所述第三控制信息的频率,第五频率信息包括以下至少一项:窄带中心频率、窄带索引值。此时,基站设备根据第一控制信息向终端设备发送第三控制信息具体的可以包括:基站设备根据第五配置参数向终端设备发送第三控制信息。
本发明实施例的第二方面,提供一种数据传输方法,包括:
终端设备接收基站设备发送的用于控制多播业务数据的重复传输的第一控制信息,并根据第一控制信息接收基站设备发送的多播业务数据。
本发明提供的数据传输方法,终端设备通过接收基站设备发送用于控制多播业务数据的重复传输的第一控制信息,以便可以根据第一控制信息接收基站设备重复发送多播业务数据,从而提高终端设备接收多播业务数据的成功率。这样,在引入SC-PTM技术的MTC中,MTC终端便可以通过根据接收到的第一控制信息接收基站重复发送的多播业务数据,从而提高了MTC终端接收数据的成功率。
结合第二方面,在一种可能的实现方式中,为了进一步的提高终端设备接收多播业务数据的成功率,基站设备可以将用于控制多播业务数据的重复传输的第一控制信息也进行重复传输,因此,在终端设备接收基站设备发送的第一控制信息之前,该数据传输方法还可以包括:终端设备接收基站设备发送的用于控制第一控制信息的重复传输的系统消息。此时,相应的,终端设备接收基站设备发送的第一控制信息具体的可以包括:终端设备根据系统消息接收基站设备发送的第一控制信息。
结合第二方面和上述可能的实现方式,在另一种可能的实现方 式中,为了进一步的提高终端设备接收多播业务数据的成功率,基站设备可以将用于控制多播业务数据的重复传输的第一控制信息也进行重复传输,因此,在终端设备接收基站设备发送的第一控制信息之前,该数据传输方法还可以包括:终端设备接收基站设备发送的用于控制第一控制信息的重复传输的第二控制信息。此时,相应的,终端设备接收基站设备发送的第一控制信息具体的可以包括:终端设备根据第二控制信息接收终端设备发送的第一控制信息。
结合第二方面和上述可能的实现方式,在另一种可能的实现方式中,为了进一步的提高终端设备接收多播业务数据的成功率,基站设备可以将用于控制第一控制信息的重复传输的第二控制信息也进行重复传输,因此,在终端设备接收基站设备发送的第二控制信息之前,该数据传输方法还可以包括:终端设备接收基站设备发送的用于控制第二控制信息的重复传输的系统消息。此时,相应的,终端设备接收基站设备发送的第二控制信息具体的可以包括:终端设备根据系统消息接收基站设备发送的第二控制信息。或者,在将第一控制信息进行重复传输的方案中,基站设备将部分用于控制第一控制信息进行重复传输的参数包含在系统消息中,因此,在终端设备接收基站设备发送的第二控制信息之前,该数据传输方法还可以包括:终端设备接收基站设备发送的用于控制第一控制信息的重复传输的系统消息。此时,相应的,终端设备接收基站设备发送的第一控制信息具体的可以包括:终端设备根据系统消息接收基站设备发送的第一控制信息。或者,为了进一步的提高终端设备接收多播业务数据的成功率,基站设备可以将用于控制第一控制信息的重复传输的第二控制信息也进行重复传输,同时在将第一控制信息进行重复传输的方案中,基站设备将部分用于控制第一控制信息进行重复传输的参数包含在系统消息中,因此,在终端设备接收基站设备发送的第二控制信息之前,该数据传输方法还可以包括:终端设备接收基站设备发送的用于控制第二控制信息的重复传输和用于控制第一控制信息的重复传输的系统消息。此时,相应的,终端设备 接收基站设备发送的第二控制信息具体的可以包括:终端设备根据系统消息接收基站设备发送的第二控制信息,同时,终端设备接收基站设备发送的第一控制信息具体的可以包括:终端设备根据系统消息接收基站设备发送的第一控制信息。
结合第二方面和上述可能的实现方式,在另一种可能的实现方式中,在将多播业务数据进行重复传输的方案中,基站设备将部分用于控制多播业务数据进行重复传输的参数包含在第三控制信息中,因此,在终端设备根据第一控制信息接收基站设备发送的多播业务数据之前,该数据传输方法还可以包括:终端设备接收基站设备发送的用于控制多播业务数据的传输的第三控制信息。此时,终端设备根据第一控制信息接收基站设备发送的多播业务数据具体的可以包括:终端设备根据第一控制信息和第三控制信息接收基站设备发送的多播业务数据。
结合第二方面和上述可能的实现方式,在另一种可能的实现方式中,为了进一步的提高终端设备接收多播业务数据的成功率,基站设备将用于控制多播业务数据的重复传输的第三控制信息也进行重复传输,此时,终端设备接收到的基站设备发送的第一控制信息还用于控制第三控制信息的重复传输。相应的,终端设备接收基站设备发送第三控制信息具体的可以包括:终端设备根据第一控制信息接收终端设备发送第三控制信息。
结合第一方面和上述可能的实现方式,在另一种可能的实现方式中,在将多播业务数据进行重复传输的方案中,基站设备将用于控制多播业务数据进行重复传输的参数包含在第三控制信息中,而此时第一控制信息具体用于控制第三控制信息的重复传输,因此,在终端设备根据第一控制信息接收终端设备发送多播业务数据之前,该数据传输方法还可以包括:终端设备接收基站设备发送用于控制多播业务数据的重复传输的第三控制信息。相应的,终端设备根据第一控制信息接收基站设备发送多播业务数据具体的可以包括:终端设备根据第三控制信息接收基站设备发送多播业务数据。
结合第二方面和上述可能的实现方式,在另一种可能的实现方式中,当第一控制信息发生变化之后,基站设备为了通知终端设备重新接收第一控制信息,在终端设备接收基站设备发送的第一控制信息之前,该数据传输方法还可以包括:终端设备接收基站设备发送的用于通知第一控制信息发生改变、携带有第一RNTI的修改通知。
结合第二方面和上述可能的实现方式,在另一种可能的实现方式中,为了进一步的提高终端设备接收多播业务数据的成功率,基站设备可以将用于通知第一控制信息发生改变的修改通知也进行重复传输,因此,在终端设备接收基站设备发送的修改通知之前,该数据传输方法还可以包括:终端设备接收基站设备发送的用于控制修改通知的重复传输的系统消息。此时,相应的,终端设备接收基站设备发送的修改通知具体的可以包括:终端设备根据系统消息接收基站设备发送的修改通知。
结合第二方面和上述可能的实现方式,在另一种可能的实现方式中,当第一控制信息用于控制多播业务数据的重复传输时,第一控制信息可以包括第一配置参数,该第一配置参数可以包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一重复次数、第一重复模式、MCS、TBS、session ID、TMGI、第一频率信息;第一调度周期用于确定传输多播业务数据的系统帧号和起始子帧号,或者,第一偏移量和第一调度周期用于确定传输多播业务数据的系统帧号和起始子帧号,第一起始时刻用于确定传输多播业务数据的第一起始符号,或者,第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一终止时刻、第一重复次数、第一重复模式、MCS、TBS、session ID、TMGI、第一频率信息,第一调度周期用于确定传输多播业务数据的系统帧号,或者,第一偏移量和第一调度周期用于确定传输多播业务数据的系统帧号,第一起始时刻用于确定传输多播业务数据第一起始子帧号和/或第一起始符号,第一终止时刻包括第一终止子帧号和/或第一终止符 号,第一频率信息用于指示发送多播业务数据的频率,第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。此时,相应的,终端设备根据第一控制信息接收基站设备发送的多播业务数据具体的可以包括:终端设备根据第一配置参数接收基站设备发送的多播业务数据。
当第一控制信息用于控制第三控制信息的重复传输时,上述第一调度周期用于确定发送第三控制信息的系统帧号和起始子帧号,或者,第一偏移量和第一调度周期用于确定发送第三控制信息的系统帧号和起始子帧号,第一起始时刻用于确定发送第三控制信息的第一起始符号;或者,第一调度周期用于确定发送第三控制信息的系统帧号,或者,第一偏移量和第一调度周期用于确定发送第三控制信息的系统帧号,第一起始时刻用于确定传输发送第三控制信息的第一起始子帧号和/或第一起始符号,第一频率信息用于指示发送第三控制信息的频率。
结合第二方面和上述可能的实现方式,在另一种可能的实现方式中,当第三控制信息用于控制多播业务数据的重复传输时,第三控制信息可以包括第一配置参数,该第一配置参数可以包括以下至少一项:第一偏移量、第一重复次数、第一重复模式、MCS、TBS、第一频率信息;第一偏移量用于指示多播业务数据的起始时刻滞后于第三控制信息起始时刻或终止时刻的偏移量,起始时刻指的是起始子帧号或起始系统帧号,终止时刻指的是终止子帧号或终止系统帧号;第一频率信息用于指示发送多播业务数据的频率,第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。
结合第二方面和上述可能的实现方式,在另一种可能的实现方式中,当系统消息用于控制修改通知的重复传输时,该系统消息可以包括:第二配置参数,该第二配置参数可以包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二重复次数、第二重复模式、第二频率信息,第二调度周期用于确定传输修改通知的系统帧号和起始子帧号,或者,第二偏移量和第二调度周期用于确 定传输修改通知的系统帧号和起始子帧号,第二起始时刻用于确定传输修改通知的第二起始符号;或者,第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二终止时刻、第二重复次数、第二重复模式、第二频率信息,第二调度周期用于确定传输修改通知的系统帧号,或者,第二偏移量和第二调度周期用于确定传输修改通知的系统帧号,第二起始时刻用于确定传输修改通知的第二起始子帧号和/或第二起始符号;第二终止时刻包括第二终止子帧号和/或第二终止符号,第二频率信息用于指示发送修改通知的频率,第二频率信息包括以下至少一项:窄带中心频率、窄带索引值。此时,相应的,终端设备根据系统消息接收基站设备发送修改通知具体的可以包括:终端设备根据第二配置参数接收基站设备发送修改通知。
结合第二方面和上述可能的实现方式,在另一种可能的实现方式中,当第一控制信息发生变化之后,基站设备为了在通知终端设备重新接收第一控制信息的同时,减小终端设备接收到第一控制信息和多播业务数据的时延,终端设备接收到的基站设备发送的第二控制信息用第一RNTI或第二RNTI进行加扰;第一RNTI用于当第一控制信息发生改变时对第二控制信息进行加扰,第一RNTI还用于指示第一控制信息发生改变;第二RNTI用于当第一控制信息未发生改变时对第二控制信息进行加扰。或者,终端设备接收到的基站设备发送的第二控制信息用于通知第一控制信息发生改变。
结合第二方面和上述可能的实现方式,在另一种可能的实现方式中,当系统消息用于控制第二控制信息的重复传输时,系统消息可以包括:第三配置参数,该第三配置参数可以包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三重复次数、第三重复模式、第三频率信息,第三调度周期用于确定传输第二控制信息的系统帧号和起始子帧号,或者,第三偏移量和第三调度周期用于确定传输第二控制信息的系统帧号和起始子帧号,第三起始时刻用于确定传输第二控制信息的第三起始符号;或者,第三配置参数 包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三终止时刻、第三重复次数、第三重复模式、第三频率信息,第三调度周期用于确定传输第二控制信息的系统帧号,或者,第三偏移量和第三调度周期用于确定传输第二控制信息的系统帧号,第三起始时刻用于确定传输第二控制信息的第三起始子帧号和/或第三起始符号;第三终止时刻包括第三终止子帧号和/或第三终止符号,第三频率信息用于指示发送第二控制信息的频率,第三频率信息包括以下至少一项:窄带中心频率、窄带索引值。此时,终端设备根据系统消息接收基站设备发送第二控制信息具体的可以包括:终端设备根据第三配置参数接收基站设备发送第二控制信息。
结合第二方面和上述可能的实现方式,在另一种可能的实现方式中,当系统消息用于控制第一控制信息的重复传输时,系统消息可以包括:第四配置参数,当第一控制信息不需进行分段传输时,第四配置参数可以包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,第四调度周期用于确定传输第一控制信息的系统帧号和起始子帧号,或者,第四偏移量和第四调度周期用于确定传输第一控制信息的系统帧号和起始子帧号,第四起始时刻用于确定传输第一控制信息的第四起始符号;或者,第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,第四调度周期用于确定传输第一控制信息的系统帧号,或者,第四偏移量和第四调度周期用于确定传输第一控制信息的系统帧号,第四起始时刻用于确定传输第一控制信息的第四起始子帧号和/或第四起始符号;第四终止时刻包括第四终止子帧号和/或第四终止符号,第四频率信息用于指示发送第一控制信息的频率,第四频率信息包括以下至少一项:窄带中心频率、窄带索引值;当第一控制信息需进行分段传输时,第四配置参数还可以包括以下至少一种:分段数、重复方式,重复方式为:依次间隔传输不同分段信息,或,将当前 分段信息重复传输完成之后,再重复传输下一个分段信息。此时,终端设备根据系统消息接收基站设备发送第一控制信息具体的可以包括:终端设备根据第四配置参数接收基站设备发送第一控制信息。
结合第二方面和上述可能的实现方式,在另一种可能的实现方式中,当第二控制信息用于控制第一控制信息的重复传输时,该第二控制信息可以包括:第四配置参数;当第一控制信息不需进行分段传输时,第四配置参数可以包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;或者,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;当第一控制信息需进行分段传输时,第四配置参数还可以包括以下至少一种:分段数、重复方式。此时,终端设备根据第二控制信息接收基站设备发送第一控制信息具体的可以包括:终端设备根据第四配置参数接收基站设备发送第一控制信息。
结合第二方面和上述可能的实现方式,在另一种可能的实现方式中,当第一控制信息用于控制第三控制信息的重复传输时,第一控制信息可以包括第五配置参数,该第五配置参数可以包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五重复次数、第五重复模式、第五频率信息;第五偏移量用于指示第三控制信息的起始时刻滞后于第一控制信息起始时刻或终止时刻的偏移量,或者,第五调度周期用于确定传输第三控制信息的系统帧号和起始子帧号,或者,第五偏移量和第五调度周期用于确定传输第三控制信息的系统帧号和起始子帧号,第五起始时刻用于确定传输第三控制信息的第五起始符号;或者,第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五终止时刻、第五重复次数、第五重复模式、第五频率信息,第五偏移量用于指示第三控制信息的起始时刻滞后于第一控制信息起始时刻或终止时刻的偏移量,或者,第五调度周期用于确定传输第三控制信息的系 统帧号,或者,第五偏移量和第五调度周期用于确定传输第三控制信息的系统帧号,第五起始时刻用于确定传输第三控制信息的第五起始子帧号和/或第五起始符号,第五终止时刻包括第五终止子帧号和/或第五终止符号,第五频率信息用于指示发送第三控制信息的频率,第五频率信息包括以下至少一项:窄带中心频率、窄带索引值。此时,终端设备根据第一控制信息接收基站设备发送第三控制信息具体的可以包括:终端设备根据第五配置参数接收基站设备发送第三控制信息。
本发明实施例的第三方面,提供一种基站设备,包括:
处理单元,用于确定第一控制信息,所述第一控制信息用于控制多播业务数据的重复传输;
发送单元,用于向终端设备发送所述处理单元确定出的所述第一控制信息,并根据所述第一控制信息向所述终端设备发送所述多播业务数据。
结合第三方面,在一种可能的实现方式中,所述发送单元,还用于向所述终端设备发送系统消息,所述系统消息用于控制所述第一控制信息的重复传输。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元,还用于向所述终端设备发送第二控制信息,所述第二控制信息用于控制所述第一控制信息的重复传输。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元,还用于向所述终端设备发送系统消息;
其中,所述系统消息用于控制所述第二控制信息的重复传输,和/或,所述系统消息用于控制所述第一控制信息的重复传输。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元,还用于向所述终端设备发送第三控制信息,所述第三控制信息用于控制所述多播业务数据的重复传输。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元发送的所述第一控制信息具体用于控制所述第 三控制信息的重复传输;或者,所述发送单元发送的所述第一控制信息还用于控制所述第三控制信息的重复传输。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元,还用于向所述终端设备发送修改通知,所述修改通知用于通知所述第一控制信息发生改变,所述修改通知中携带有第一无线网络临时标识RNTI。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元,还用于向所述终端设备发送系统消息,所述系统消息用于控制所述修改通知的重复传输。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元发送的所述第一控制信息包括第一配置参数,所述第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一重复次数、第一重复模式、调制编码策略MCS、传输块大小TBS、会话标识session ID、临时移动组标识TMGI、第一频率信息;所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号和起始子帧号,或者,所述第一偏移量和所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号和起始子帧号,第一起始时刻用于确定传输多播业务数据或发送第三控制信息的第一起始符号;或者,所述第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一终止时刻、第一重复次数、第一重复模式、MCS、TBS、session ID、TMGI、第一频率信息;所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号,或者,所述第一偏移量和所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号,所述第一起始时刻用于确定传输多播业务数据或发送第三控制信息的第一起始子帧号和/或第一起始符号;所述第一终止时刻包括第一终止子帧号和/或第一终止符号,所述第一频率信息用于指示发送所述多播业务数据或发送所述第三控制信息的频率,所述第一频率信息包括以下至少一项: 窄带中心频率、窄带索引值。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元发送的所述第三控制信息包括第一配置参数,所述第一配置参数包括以下至少一项:第一偏移量、第一重复次数、第一重复模式、MCS、TBS、第一频率信息;所述第一偏移量用于指示所述多播业务数据的起始时刻滞后于所述第三控制信息起始时刻或终止时刻的偏移量,所述起始时刻指的是起始子帧号或起始系统帧号,所述终止时刻指的是终止子帧号或终止系统帧号;所述第一频率信息用于指示发送所述多播业务数据的频率,所述第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元发送的所述系统消息包括:第二配置参数,所述第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二重复次数、第二重复模式、第二频率信息;所述第二调度周期用于确定传输所述修改通知的系统帧号和起始子帧号,或者,所述第二偏移量和所述第二调度周期用于确定传输所述修改通知的系统帧号和起始子帧号,所述第二起始时刻用于确定传输所述修改通知的第二起始符号;或者,所述第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二终止时刻、第二重复次数、第二重复模式、第二频率信息;所述第二调度周期用于确定传输所述修改通知的系统帧号,或者,所述第二偏移量和所述第二调度周期用于确定传输所述修改通知的系统帧号,所述第二起始时刻用于确定传输所述修改通知的第二起始子帧号和/或第二起始符号;所述第二终止时刻包括第二终止子帧号和/或第二终止符号,所述第二频率信息用于指示发送所述修改通知的频率,所述第二频率信息包括以下至少一项:窄带中心频率、窄带索引值。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元发送的所述第二控制信息用第一RNTI或第二 RNTI进行加扰;所述第一RNTI用于当所述第一控制信息发生改变时对所述第二控制信息进行加扰,所述第一RNTI还用于指示所述第一控制信息发生改变;所述第二RNTI用于当所述第一控制信息未发生改变时对所述第二控制信息进行加扰;或者,所述第二控制信息还用于通知所述第一控制信息发生改变。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元发送的所述系统消息包括:第三配置参数,所述第三配置参数包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三重复次数、第三重复模式、第三频率信息;所述第三调度周期用于确定传输所述第二控制信息的系统帧号和起始子帧号,或者,所述第三偏移量和所述第三调度周期用于确定传输所述第二控制信息的系统帧号和起始子帧号,所述第三起始时刻用于确定传输所述第二控制信息的第三起始符号;或者,所述第三配置参数包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三终止时刻、第三重复次数、第三重复模式、第三频率信息;所述第三调度周期用于确定传输所述第二控制信息的系统帧号,或者,所述第三偏移量和所述第三调度周期用于确定传输所述第二控制信息的系统帧号,所述第三起始时刻用于确定传输所述第二控制信息的第三起始子帧号和/或第三起始符号;所述第三终止时刻包括第三终止子帧号和/或第三终止符号,所述第三频率信息用于指示发送所述第二控制信息的频率,所述第三频率信息包括以下至少一项:窄带中心频率、窄带索引值。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元发送的所述系统消息包括:第四配置参数,当所述第一控制信息不需进行分段传输时,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,所述第四调度周期用于确定传输所述第一控制信息的系统帧号和起始子帧号,或者,所述第四偏移量和所述第四调度周期用于确定传输所述第一 控制信息的系统帧号和起始子帧号,所述第四起始时刻用于确定传输所述第一控制信息的第四起始符号;或者,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,所述第四调度周期用于确定传输所述第一控制信息的系统帧号,或者,所述第四偏移量和所述第四调度周期用于确定传输所述第一控制信息的系统帧号,所述第四起始时刻用于确定传输所述第一控制信息的第四起始子帧号和/或第四起始符号;所述第四终止时刻包括第四终止子帧号和/或第四终止符号,所述第四频率信息用于指示发送所述第一控制信息的频率,所述第四频率信息包括以下至少一项:窄带中心频率、窄带索引值;当所述第一控制信息需进行分段传输时,所述第四配置参数还包括以下至少一种:分段数、重复方式,所述重复方式为:依次间隔传输不同分段信息,或,将当前分段信息重复传输完成之后,再重复传输下一个分段信息。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元发送的所述第二控制信息包括:第四配置参数;当所述第一控制信息不需进行分段传输时,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;或者,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;当所述第一控制信息需进行分段传输时,所述第四配置参数还包括以下至少一种:分段数、重复方式。
结合第三方面和上述可能的实现方式,在另一种可能的实现方式中,所述发送单元发送的所述第一控制信息包括第五配置参数,所述第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五重复次数、第五重复模式、第五频率信息;所述第五偏移量用于指示所述第三控制信息的起始时刻滞后于所述第一控制信息起始时刻或终止时刻的偏移量,或者,所述第五调度周 期用于确定传输所述第三控制信息的系统帧号和起始子帧号,或者,所述第五偏移量和所述第五调度周期用于确定传输所述第三控制信息的系统帧号和起始子帧号,所述第五起始时刻用于确定传输所述第三控制信息的第五起始符号;或者,所述第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五终止时刻、第五重复次数、第五重复模式、第五频率信息;所述第五偏移量用于指示所述第三控制信息的起始时刻滞后于所述第一控制信息起始时刻或终止时刻的偏移量,或者,所述第五调度周期用于确定传输所述第三控制信息的系统帧号,或者,所述第五偏移量和所述第五调度周期用于确定传输所述第三控制信息的系统帧号,所述第五起始时刻用于确定传输所述第三控制信息的第五起始子帧号和/或第五起始符号;所述第五终止时刻包括第五终止子帧号和/或第五终止符号,所述第五频率信息用于指示发送所述第三控制信息的频率,所述第五频率信息包括以下至少一项:窄带中心频率、窄带索引值。
具体的实现方式可以参考第一方面或第一方面的可能的实现方式提供的数据传输方法中基站设备的行为功能,本处不再详细赘述。
本发明实施例的第四方面,提供一种终端设备,包括:
接收单元,用于接收基站设备发送的第一控制信息,所述第一控制信息用于控制多播业务数据的重复传输;
处理单元,用于根据所述接收单元接收到的所述第一控制信息确定所述多播业务数据的重复传输参数;
所述接收单元,还用于根据所述确定单元确定出的所述多播业务数据的重复传输参数接收所述基站设备发送的所述多播业务数据。
结合第四方面,在一种可能的实现方式中,所述接收单元,还用于接收所述基站设备发送的系统消息,所述系统消息用于控制所述第一控制信息的重复传输。
结合第四方面和上述可能的实现方式,在另一种可能的实现方 式中,所述接收单元,还用于接收所述基站设备发送的第二控制信息,所述第二控制信息用于控制所述第一控制信息的重复传输。
结合第四方面和上述可能的实现方式,在另一种可能的实现方式中,所述接收单元,还用于接收所述基站设备发送的系统消息;其中,所述系统消息用于控制所述第二控制信息的重复传输,和/或,所述系统消息用于控制所述第一控制信息的重复传输。
结合第四方面和上述可能的实现方式,在另一种可能的实现方式中,所述接收单元,还用于接收所述基站设备发送的第三控制信息,所述第三控制信息用于控制所述多播业务数据的重复传输。
结合第四方面和上述可能的实现方式,在另一种可能的实现方式中,所述接收单元接收的所述第一控制信息具体用于控制所述第三控制信息的重复传输;或者,所述接收单元接收的所述第一控制信息还用于控制所述第三控制信息的重复传输。
结合第四方面和上述可能的实现方式,在另一种可能的实现方式中,所述接收单元,还用于接收所述基站设备发送的修改通知,所述修改通知用于通知所述第一控制信息发生改变,所述修改通知中携带有第一无线网络临时标识RNTI。
结合第四方面和上述可能的实现方式,在另一种可能的实现方式中,
所述接收单元,还用于接收所述基站设备发送的系统消息,所述系统消息用于控制所述修改通知的重复传输。
结合第四方面和上述可能的实现方式,在另一种可能的实现方式中,所述接收单元接收的所述第一控制信息包括第一配置参数,所述第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一重复次数、第一重复模式、调制编码策略MCS、传输块大小TBS、会话标识session ID、临时移动组标识TMGI、第一频率信息;所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号和起始子帧号,或者,所述第一偏移量和所述第一调度周期用于确定传输所述多播业务数据或发送 所述第三控制信息的系统帧号和起始子帧号,所述第一起始时刻用于确定传输所述多播业务数据或发送所述第三控制信息的第一起始符号;或者,所述第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一终止时刻、第一重复次数、第一重复模式、MCS、TBS、session ID、TMGI、第一频率信息;所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号,或者,所述第一偏移量和所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号,所述第一起始时刻用于确定传输所述多播业务数据或发送所述第三控制信息的第一起始子帧号和/或第一起始符号;所述第一终止时刻包括第一终止子帧号和/或第一终止符号,所述第一频率信息用于指示发送所述多播业务数据或发送所述第三控制信息的频率,所述第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。
结合第四方面和上述可能的实现方式,在另一种可能的实现方式中,所述接收单元接收的所述第三控制信息包括第一配置参数,所述第一配置参数包括以下至少一项:第一偏移量、第一重复次数、第一重复模式、MCS、TBS、第一频率信息;所述第一偏移量用于指示所述多播业务数据的起始时刻滞后于所述第三控制信息起始时刻或终止时刻的偏移量,所述起始时刻指的是起始子帧号或起始系统帧号,所述终止时刻指的是终止子帧号或终止系统帧号;所述第一频率信息用于指示发送所述多播业务数据的频率,所述第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。
结合第四方面和上述可能的实现方式,在另一种可能的实现方式中,所述接收单元接收的所述系统消息包括:第二配置参数,所述第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二重复次数、第二重复模式、第二频率信息,所述第二调度周期用于确定传输所述修改通知的系统帧号和起始子帧号,或者,所述第二偏移量和所述第二调度周期用于确定传输所述修改通知的系统帧号和起始子帧号,所述第二起始时刻用于确定传 输所述修改通知的第二起始符号;或者,所述第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二终止时刻、第二重复次数、第二重复模式、第二频率信息;所述第二调度周期用于确定传输所述修改通知的系统帧号,或者,所述第二偏移量和所述第二调度周期用于确定传输所述修改通知的系统帧号,所述第二起始时刻用于确定传输所述修改通知的第二起始子帧号和/或第二起始符号;所述第二终止时刻包括第二终止子帧号和/或第二终止符号,所述第二频率信息用于指示发送所述修改通知的频率,所述第二频率信息包括以下至少一项:窄带中心频率、窄带索引值。
结合第四方面和上述可能的实现方式,在另一种可能的实现方式中,所述接收单元接收的所述第二控制信息用第一RNTI或第二RNTI进行加扰;所述第一RNTI用于当所述第一控制信息发生改变时对所述第二控制信息进行加扰,所述第一RNTI还用于指示所述第一控制信息发生改变;所述第二RNTI用于当所述第一控制信息未发生改变时对所述第二控制信息进行加扰;或者,所述第二控制信息还用于通知所述第一控制信息发生改变。
结合第四方面和上述可能的实现方式,在另一种可能的实现方式中,所述接收单元接收的所述系统消息包括:第三配置参数,所述第三配置参数包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三重复次数、第三重复模式、第三频率信息;所述第三调度周期用于确定传输所述第二控制信息的系统帧号和起始子帧号,或者,所述第三偏移量和所述第三调度周期用于确定传输所述第二控制信息的系统帧号和起始子帧号,所述第三起始时刻用于确定传输所述第二控制信息的第三起始符号;或者,所述第三配置参数包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三终止时刻、第三重复次数、第三重复模式、第三频率信息;所述第三调度周期用于确定传输所述第二控制信息的系统帧号,或者,所述第三偏移量和所述第三调度周期用于确定传输所述第二 控制信息的系统帧号,所述第三起始时刻用于确定传输所述第二控制信息的第三起始子帧号和/或第三起始符号;所述第三终止时刻包括第三终止子帧号和/或第三终止符号,所述第三频率信息用于指示发送所述第二控制信息的频率,所述第三频率信息包括以下至少一项:窄带中心频率、窄带索引值。
结合第四方面和上述可能的实现方式,在另一种可能的实现方式中,所述接收单元接收的所述系统消息包括:第四配置参数,当所述第一控制信息不需进行分段传输时,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,所述第四调度周期用于确定传输所述第一控制信息的系统帧号和起始子帧号,或者,所述第四偏移量和所述第四调度周期用于确定传输所述第一控制信息的系统帧号和起始子帧号,所述第四起始时刻用于确定传输所述第一控制信息的第四起始符号;或者,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,所述第四调度周期用于确定传输所述第一控制信息的系统帧号,或者,所述第四偏移量和所述第四调度周期用于确定传输所述第一控制信息的系统帧号,所述第四起始时刻用于确定传输所述第一控制信息的第四起始子帧号和/或第四起始符号;所述第四终止时刻包括第四终止子帧号和/或第四终止符号,所述第四频率信息用于指示发送所述第一控制信息的频率,所述第四频率信息包括以下至少一项:窄带中心频率、窄带索引值;当所述第一控制信息需进行分段传输时,所述第四配置参数还包括以下至少一种:分段数、重复方式,所述重复方式为:依次间隔传输不同分段信息,或,将当前分段信息重复传输完成之后,再重复传输下一个分段信息。
结合第四方面和上述可能的实现方式,在另一种可能的实现方式中,所述接收单元接收的所述第二控制信息包括:第四配置参数;当所述第一控制信息不需进行分段传输时,所述第四配置参数包括 以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;或者,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;当所述第一控制信息需进行分段传输时,所述第四配置参数还包括以下至少一种:分段数、重复方式。
结合第四方面和上述可能的实现方式,在另一种可能的实现方式中,所述接收单元接收的所述第一控制信息包括第五配置参数,所述第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五重复次数、第五重复模式、第五频率信息;所述第五偏移量用于指示所述第三控制信息的起始时刻滞后于所述第一控制信息起始时刻或终止时刻的偏移量,或者,所述第五调度周期用于确定传输所述第三控制信息的系统帧号和起始子帧号,或者,所述第五偏移量和所述第五调度周期用于确定传输所述第三控制信息的系统帧号和起始子帧号,所述第五起始时刻用于确定传输所述第三控制信息的第五起始符号;或者,所述第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五终止时刻、第五重复次数、第五重复模式、第五频率信息;所述第五偏移量用于指示所述第三控制信息的起始时刻滞后于所述第一控制信息起始时刻或终止时刻的偏移量,或者,所述第五调度周期用于确定传输所述第三控制信息的系统帧号,或者,所述第五偏移量和所述第五调度周期用于确定传输所述第三控制信息的系统帧号,所述第五起始时刻用于确定传输所述第三控制信息的第五起始子帧号和/或第五起始符号;所述第五终止时刻包括第五终止子帧号和/或第五终止符号,所述第五频率信息用于指示发送所述第三控制信息的频率,所述第五频率信息包括以下至少一项:窄带中心频率、窄带索引值。
具体的实现方式可以参考第二方面或第二方面的可能的实现方式提供的数据传输方法中终端设备的行为功能,本处不再详细赘述。
本发明实施例的第五方面,提供一种基站设备,包括:处理器、存储器和收发器;
所述存储器用于存储计算机执行指令,当所述基站设备运行时,所述处理器执行所述存储器存储的所述计算机执行指令,以使所述基站设备执行如第一方面或第一方面的可能的实现方式中任一所述的数据传输方法。
本发明实施例的第六方面,提供一种终端设备,包括:处理器、存储器和收发器;
所述存储器用于存储计算机执行指令,当所述终端设备运行时,所述处理器执行所述存储器存储的所述计算机执行指令,以使所述终端设备执行如第二方面或第二方面的可能的实现方式中任一所述的数据传输方法。
附图说明
为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动性的前提下,还可以根据这些附图获得其他的附图。
图1为现有技术提供的一种SC-PTM技术中的信道组成示意图;
图2为本发明实施例提供的一种应用本发明的系统架构的简化示意图;
图3为本发明实施例提供的一种数据传输方法的流程图;
图4为本发明实施例提供的另一种数据传输方法的流程图;
图5为本发明实施例提供的另一种数据传输方法的流程图;
图6A为本发明实施例提供的一种传输数据的简化示意图;
图6B为本发明实施例提供的另一种传输数据的简化示意图;
图6C为本发明实施例提供的另一种传输数据的简化示意图;
图6D为本发明实施例提供的另一种传输数据的简化示意图;
图6为本发明实施例提供的另一种传输数据的简化示意图;
图7为本发明实施例提供的另一种传输数据的简化示意图;
图8为本发明实施例提供的另一种传输数据的简化示意图;
图8A为本发明实施例提供的一种简化的系统带宽划分示意图;
图9为本发明实施例提供的另一种传输数据的简化示意图;
图10为本发明实施例提供的另一种传输数据的简化示意图;
图10A为本发明实施例提供的另一种传输数据的简化示意图;
图11为本发明实施例提供的另一种传输数据的简化示意图;
图12为本发明实施例提供的另一种传输数据的简化示意图;
图13为本发明实施例提供的另一种传输数据的简化示意图;
图14为本发明实施例提供的另一种传输数据的简化示意图;
图15为本发明实施例提供的另一种传输数据的简化示意图;
图16为本发明实施例提供的一种基站设备的组成示意图;
图17为本发明实施例提供的另一种基站设备的组成示意图;
图18为本发明实施例提供的一种终端设备的组成示意图;
图19为本发明实施例提供的另一种终端设备的组成示意图;
图20为本发明实施例提供的另一种基站设备的组成示意图;
图21为本发明实施例提供的另一种终端设备的组成示意图。
具体实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
本文中术语“和/或”,仅仅是一种描述关联对象的关联关系,表示可以存在三种关系,例如,A和/或B,可以表示:单独存在A,同时存在A和B,单独存在B这三种情况。另外,本文中字符“/”,一般表示前后关联对象是一种“或”的关系。
为了降低MTC中基站的资源耗损,减轻网络负担,需要在MTC中引入一种SC-PTM技术,SC-PTM技术是一种利用共享资源信息 同时向多个MTC终端传输相同数据的技术,在该技术下,接收同一多播业务数据的一组MTC终端与基站之间建立有一条共享的通信链路,即共享一条下行传输信道,具体如图1所示,SC-PTM技术中有一个控制信道,即单小区多播控制信道(Single Cell Multi-cast Control Channel,SC-MCCH),一个数据信道,即单小区多播业务信道(Single Cell Multi-cast Traffic Channel,SC-MTCH),这两个信道均映射到下行共享信道(Downlink Shared Channel,DL-SCH)上,这样,当基站有多播业务数据需要下发时,可以先通过SC-MCCH向群组内的所有MTC终端发送控制信息(该控制信息中可以包括多播业务数据的标识和接收多播业务数据发送的时间),然后通过SC-MTCH向群组内的所有MTC终端发送多播业务数据,从而降低基站的资源耗损,减轻网络负担。但目前的问题是,即使引入SC-PTM技术,能够降低基站的资源耗损,减轻网络的负担,但是其目前并不支持覆盖增加技术,因此在直接引入SC-PTM技术到MTC中时,MTC终端接收数据的成功率仍然较低,为了提高MTC终端接收数据的成功率,本发明实施例提供了一种数据传输方法,其基本原理是:基站设备向终端设备发送用于控制多播业务数据的重复传输的第一控制信息,并根据第一控制信息向终端设备发送多播业务数据,使得终端设备可以根据接收到的第一控制信息接收基站设备重复发送的多播业务数据,以提高终端设备接收多播业务数据的成功率。这样,在引入SC-PTM技术的MTC中,MTC终端便可以通过根据接收到的第一控制信息接收基站重复发送的多播业务数据,从而提高了MTC终端接收数据的成功率。
需要说明的是,本发明实施例中所述的重复传输指的是将信息重复发送。
下面将结合附图对本发明的实施方式进行详细描述。
如图2所示,图2示出的是可以应用本发明的系统架构的简化示意图。该系统架构可以包括基站设备11和终端设备12。
其中,基站设备11可以是无线通信的基站(Base Station,BS) 或基站控制器等,所述的基站设备11是一种部署在无线接入网中用以为终端设备提供无线通信功能的装置,其主要功能有:进行无线资源的管理、互联网协议(Internet Protocol,IP)头的压缩及用户数据流的加密、用户设备附着时进行移动管理实体(Mobile Management Entity,MME)的选择、路由用户面数据至服务网关(Service Gateway,SGW)、寻呼消息的组织和发送、广播消息的组织和发送、以移动性或调度为目的的测量及测量报告的配置等等。所述的基站可以包括各种形式的宏基站、微基站、中继站、接入点等等。在采用不同的无线接入技术的系统中,具备基站功能的设备的名称可能会有所不同,例如,在长期演进(Long Term Evolution,LTE)系统中,称为演进的节点B(evolved NodeB,eNB或eNodeB),在第3代移动通信技术(The 3rd Generation Telecommunication,3G)系统中,称为节点B(Node B)等等。随着通信技术的演进,“基站”这一名称可能会变化。此外,在其它可能的情况下,基站设备11也可以是接入点(Access Point,AP),或者是其它为终端设备提供无线通信功能的装置。为方便描述,本发明实施例中,上述为终端设备提供无线通信功能的装置统称为基站设备11。在具体实现中,作为一种实施例,如图2所示,基站设备11为基站。
终端设备12可以为MTC终端,具体的可以包括各种具有无线通信功能的手持设备(如手机、智能终端、多媒体设备或流媒体设备等)、车载设备、可穿戴设备、计算设备或连接到无线调制解调器的其他处理设备,以及各种形式的用户设备(User Equipment,UE),移动台(Mobile Station,MS),终端设备(terminal device)、智能电表、智能手表、智能水表、智能路灯、智能家电等等。为方便描述,上面提到的设备统称为终端设备12。在具体的实现中,作为一种实施例,如图2所示,终端设备12为用户设备。
图3为本发明实施例提供的一种数据传输方法的流程图,如图3所示,该方法可以包括:
201、基站设备向终端设备发送第一控制信息。
其中,第一控制信息用于控制多播业务数据的重复传输。
202、基站设备根据第一控制信息向终端设备发送多播业务数据。
具体的,为了提高引入SC-PTM技术的MTC中终端设备接收多播业务数据的成功率,基站设备可以先通过SC-MCCH向终端设备发送用于控制多播业务数据的重复传输的第一控制信息,并在基站设备向终端设备发送第一控制信息之后,根据第一控制信息通过SC-MTCH向终端设备重复发送多播业务数据,这样,终端设备便可以根据接收到的第一控制信息接收基站设备重复发送的多播业务数据,从而提高多播业务数据接收的成功率。
本发明提供的数据传输方法,基站设备通过向终端设备发送用于控制多播业务数据的重复传输的第一控制信息,并通过根据第一控制信息向终端设备重复发送多播业务数据,使得终端设备可以根据接收到的第一控制信息接收基站设备重复发送的多播业务数据,以提高终端设备接收多播业务数据的成功率。这样,在引入SC-PTM技术的MTC中,MTC终端便可以通过根据接收到的第一控制信息接收基站重复发送的多播业务数据,从而提高了MTC终端接收数据的成功率。
在本发明实施例中,进一步的,为了进一步的提高终端设备接收多播业务数据的成功率,可以将用于控制多播业务数据的重复传输的第一控制信息也进行重复传输,在第一种可能的实现方式中,具体的,在执行步骤201之前,基站设备还可以向终端设备发送用于控制第一控制信息的重复传输的系统消息,同时步骤201具体的可以为基站设备根据系统消息向终端设备发送第一控制信息。在第二种可能的实现方式中,具体的,在执行步骤201之前,基站设备还可以向终端设备发送用于控制第一控制信息的重复传输的第二控制信息,同时步骤201具体的可以为基站设备根据第二控制信息向终端设备发送第一控制信息。其中,基站设备可以通过第一物理下行控制信道(Physical Downlink Control Channel,PDCCH)(该第一 PDCCH是与SC-MCCH对应的PDCCH)向终端设备发送第二控制信息。第二控制信息也可以承载在第一机器类型通信的物理下行控制信道(MTC-PDCCH,MPDCCH)上。
在本发明实施例中,进一步的,在将第一控制信息进行重复传输的第二种可能的实现方式的基础上,可以通过对第二控制信息的重复传输,来进一步的提高终端设备接收多播业务数据的成功率,具体的,在基站设备向终端设备发送第二控制信息之前,基站设备还可以向终端设备发送用于控制第二控制信息的重复传输的系统消息,同时基站设备向终端设备发送第二控制信息具体的可以为基站设备根据系统消息向终端设备发送第二控制信息。并且,在一种可能的实现方式中,该系统消息中还可以包括部分用于控制第一控制信息的重复传输的参数,即该系统消息还可以用于控制第一控制信息的重复传输。
在本发明实施例中,进一步的,可以将部分用于控制多播业务数据进行重复传输的参数包含在多播业务数据的调度信息,即第三控制信息中,具体的,在执行步骤202之前,基站设备还可以向终端设备发送用于控制多播业务数据的重复传输的第三控制信息,同时步骤202具体的可以为基站设备根据第一控制信息和第三控制信息向终端设备发送多播业务数据。其中,基站设备可以通过第二PDCCH(该第二PDCCH是与SC-MTCH对应的PDCCH)向终端设备发送第三控制信息。第三控制信息也可以承载在第二MPDCCH上。
在本发明实施例中,进一步的,可以通过对第三控制信息的重复传输,进一步的提高终端设备接收多播业务数据的成功率,在第一种可能的实现方式中,具体的,步骤201中基站设备向终端设备发送的第一控制信息还用于控制第三控制信息的重复传输,同时基站设备向终端设备发送第三控制信息具体的可以为基站设备根据第一控制信息向终端设备发送第三控制信息。在第二种可能的实现方式中,具体的,可以将用于控制多播业务数据进行重复传输的参数 包含在第三控制信息中,且步骤201中基站设备向终端设备发送的第一控制信息具体用于控制第三控制信息的重复传输,同时基站设备向终端设备发送第三控制信息具体的可以为基站设备根据第一控制信息向终端设备发送第三控制信息,且步骤202具体的可以为根据第三控制信息向终端设备发送多播业务数据。
在本发明实施例中,进一步的,当第一控制信息发生变化时,为了通知终端设备重新接收第一控制信息,在执行步骤201之前,基站设备还可以向终端设备发送用于通知第一控制信息发生改变的、携带有第一RNTI的修改通知。其中,基站设备可以通过第三PDCCH向终端设备发送修改通知。修改通知也可以通过第三MPDCCH发送。
在本发明实施例中,进一步的,可以通过将修改通知进行重复传输,进一步的提高终端设备接收多播业务数据的成功率,具体的,在基站设备向终端设备发送修改通知之前,基站设备还可以向终端设备发送用于控制修改通知的重复传输的系统消息,同时基站设备向终端设备发送修改通知,具体的可以为基站设备根据系统消息向终端设备发送修改通知。
图4为本发明实施例提供的另一种数据传输方法的流程图,如图4所示,该方法可以包括:
301、终端设备接收基站设备发送的第一控制信息。
其中,第一控制信息用于控制多播业务数据的重复传输。
302、终端设备根据第一控制信息接收基站设备发送的多播业务数据。
具体的,为了提高引入SC-PTM技术的MTC中终端设备接收多播业务数据的成功率,基站设备向终端设备发送用于控制多播业务数据的重复传输的第一控制信息,并根据第一控制信息向终端设备重复发送多播业务数据,这样,终端设备可以通过SC-MCCH接收基站设备发送的第一控制信息,继而根据接收到的第一控制信息通过SC-MTCH接收基站设备重复发送的多播业务数据,从而提高多 播业务数据接收的成功率。
本发明提供的数据传输方法,终端设备通过接收基站设备发送用于控制多播业务数据的重复传输的第一控制信息,以便可以根据第一控制信息接收基站设备重复发送多播业务数据,从而提高终端设备接收多播业务数据的成功率。这样,在引入SC-PTM技术的MTC中,MTC终端便可以通过根据接收到的第一控制信息接收基站重复发送的多播业务数据,从而提高了MTC终端接收数据的成功率。
在本发明实施例中,进一步的,为了进一步的提高终端设备接收多播业务数据的成功率,基站设备将用于控制多播业务数据的重复传输的第一控制信息也进行了重复传输,在第一种可能的实现方式中,基站设备采用系统消息控制第一控制信息的重复传输,此时相应的,在执行步骤301之前,终端设备接收基站设备发送的用于控制第一控制信息的重复传输的系统消息,同时步骤301具体的可以为终端设备根据系统消息接收基站设备发送的第一控制信息。在第二种可能的实现方式中,基站设备采用第二控制信息控制第一控制信息的重复传输,此时相应的,在执行步骤301之前,终端设备接收基站设备发送的用于控制第一控制信息的重复传输的第二控制信息,同时步骤301具体的可以为终端设备根据第二控制信息接收基站设备发送的第一控制信息。其中,终端设备可以通过第一PDCCH或第一MPDCCH接收基站设备发送第二控制信息。
在本发明实施例中,进一步的,在基站设备将第一控制信息进行重复传输的第二种可能的实现方式的基础上,基站设备将第二控制信息也进行了的重复传输,来进一步的提高终端设备接收多播业务数据的成功率,此时相应的,在终端设备接收基站设备发送的第二控制信息之前,终端设备还可以接收基站设备发送的用于控制第二控制信息的重复传输的系统消息,同时终端设备接收基站设备发送的第二控制信息,具体的可以为终端设备根据系统消息接收基站设备发送的第二控制信息。并且,在一种可能的实现方式中,该系统消息中还可以包括部分用于控制第一控制信息的重复传输的参 数,即该系统消息还可以用于控制第一控制信息的重复传输。
在本发明实施例中,进一步的,基站设备在将部分用于控制多播业务数据进行重复传输的参数包含在多播业务数据的调度信息,即第三控制信息中时,此时相应的,在执行步骤302之前,终端设备还可以接收基站设备发送的用于控制多播业务数据的重复传输的第三控制信息,同时步骤302具体的可以为终端设备根据第一控制信息和第三控制信息接收终端设备发送的多播业务数据。其中,终端设备可以通过第二PDCCH或第二MPDCCH接收基站设备发送第三控制信息。
在本发明实施例中,进一步的,为了进一步的提高终端设备接收多播业务数据的成功率,基站设备将第三控制信息也进行了重复传输,在第一种可能的实现方式中,基站设备采用第一控制信息控制第三控制信息的重复传输,此时相应的,终端设备接收基站设备发送的第三控制信息具体的可以为终端设备根据第一控制信息接收终端设备发送的第三控制信息。在第二种可能的实现方式中,基站设备采用第三控制信息控制多播业务数据进行重复传输,且采用第一控制信息控制第三控制信息的重复传输,此时相应的,终端设备接收基站设备发送的第三控制信息具体的可以为终端设备根据第一控制信息接收基站设备发送的第三控制信息,且步骤302具体的可以为终端设备根据第三控制信息接收基站设备发送的多播业务数据。
在本发明实施例中,进一步的,当第一控制信息发生变化时,基站设备需通知终端设备重新接收第一控制信息,此时相应的,在执行步骤301之前,终端设备还可以接收基站设备发送的用于通知第一控制信息发生改变的、携带有第一RNTI的修改通知。其中,终端设备可以通过第三PDCCH或第三MPDCCH接收基站设备发送修改通知。
在本发明实施例中,进一步的,当基站设备通过将修改通知进行重复传输,来进一步的提高终端设备接收多播业务数据的成功率 时,相应的,在终端设备接收基站设备发送的修改通知之前,终端设备还可以接收基站设备发送的用于控制修改通知的重复传输的系统消息,同时终端设备接收基站设备发送修改通知具体的可以为终端设备根据系统消息接收基站设备发送修改通知。
图5为本发明实施例提供的另一种数据传输方法的流程图,如图5所示,该方法可以包括:
为了提高引入SC-PTM技术的MTC中终端设备接收数据的成功率,本发明实施例提出了一种数据传输方法,为了便于本领域技术人员的理解,下面将对终端设备接收多播业务数据的一般过程进行具体描述:
401、基站设备向终端设备发送系统消息。
其中,该系统消息中可以包括用于终端设备完成多播业务数据接收所需的配置信息。
402、终端设备接收基站设备发送的系统消息。
403、基站设备向终端设备发送修改通知。
其中,该修改通知用于通知第一控制信息发生改变,修改通知中携带有第一RNTI。所述携带实质是发送修改通知的第三PDCCH或第三MPDCCH使用第一RNTI进行加扰。当用于控制多播业务数据的重复传输的信息,即第一控制信息发生改变时,基站设备可以向终端设备发送修改通知以便通知终端设备重新获取第一控制信息,进而重新获取多播业务数据。这里需要说明的是,一种情况,并不是第一控制信息中的任何信息发生改变就发送修改通知,可以是第一控制信息中的部分信息发生改变时才发送修改通知。例如,当第一控制信息中携带的多播业务数据的类型信息发生改变时,发送修改通知,其他信息发生改变时,不发送修改通知。或者,例如,只是第一控制信息中增加了新的多播业务类型时,才发送修改通知,其他情况不发送修改通知,等等。当然,若用于控制多播业务数据的重复传输的信息,即第一控制信息未发生改变,则无需执行步骤403,但终端设备依然需要盲检发送修改通知的第三PDCCH或第三 MPDCCH,以确认是否有修改通知。
进一步的,为了能够提高终端设备接收多播业务数据的成功率,基站设备可以向终端设备重复发送修改通知,可以用系统消息控制修改通知的重复传输。具体的,当系统消息用于控制修改通知的重复传输时,基站设备可以根据系统消息向终端设备重复发送修改通知。其中,系统消息中可以包括第二配置参数,以用来控制修改通知的重复传输,该第二配置参数可以包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二终止时刻、第二重复次数、第二重复模式、第二频率信息。
其中,在上述第二配置参数包括的参数中:
1、第二调度周期,当第二调度周期用系统帧号表示时,可以确定发送该修改通知的系统帧号,该系统帧号是一个调度周期内发送该修改通知的起始系统帧。例如,如图6A所示,第二调度周期为16(单位:帧),根据公式SFN mod第二调度周期=0(SFN为系统帧号,mod表示取余运算),便可以确定出发送修改通知的系统帧号为0、16、32、48、64、80、96等等。也就是说,当基站设备需要发送修改通知时,可以根据第二调度周期确定当前的系统帧是否需要发送修改通知,如,当前的系统帧号为16,那么根据公式SFN mod第二调度周期=0便可以确定当前的系统帧16需发送修改通知。
或者,当第二调度周期使用子帧号来表示时,可以确定发送该修改通知的系统帧号和起始子帧号。例如,如图6B所示,第二调度周期为25(单位:子帧),根据公式(SFN*10+子帧号)mod第二调度周期=0,便可以确定出发送修改通知的系统帧号为0、2等等,且系统帧0对应的起始子帧号为0,系统帧2对应的起始子帧号为5。也就是说,当基站设备需要发送修改通知时,可以根据第二调度周期确定当前的系统帧是否需要发送修改通知,且确定出在当前系统帧的哪个子帧上开始发送,即确定出起始子帧号,如,当前的系统帧号为2,那么根据公式(SFN*10+子帧号)mod第二调度周期=0便可以确定当前的系统帧2需发送修改通知,且起始子帧号为5。
2、第二偏移量,当第二偏移量用系统帧号表示时,可以与第二调度周期一起来确定发送该修改通知的系统帧号。例如,如图6C所示,第二调度周期为16(单位:帧)第二偏移量为1(单位:帧),根据公式SFN mod第二调度周期=第二偏移量(SFN为系统帧号,mod表示取余运算),便可以确定出发送修改通知的系统帧号为1、17、33、49、65、81、97等等。也就是说,当基站设备需要发送修改通知时,可以根据第二调度周期和第二偏移量确定当前的系统帧是否需要发送修改通知,如,当前的系统帧号为33,那么根据公式SFN mod第二调度周期=第二偏移量便可以确定当前的系统帧33需发送修改通知。
或者,当第二调度周期和第二偏移量都使用子帧号来表示时,可以一起来确定发送该修改通知的系统帧号和起始子帧号。例如,如图6D所示,第二调度周期为25(单位:子帧)、第二偏移量为5(单位:子帧),根据公式(SFN*10+子帧号)mod第二调度周期=第二偏移量,便可以确定出发送修改通知的系统帧号为0、3、5等等,且系统帧0对应的起始子帧号为5,系统帧3对应的起始子帧号为0,系统帧5对应的起始子帧号为5。也就是说,当基站设备需要发送修改通知时,可以根据第二调度周期确定当前的系统帧是否需要发送修改通知,且确定出在当前系统帧的哪个子帧上开始发送,即确定出起始子帧号,如,当前的系统帧号为3,那么根据公式(SFN*10+子帧号)mod第二调度周期=第二偏移量便可以确定当前的系统帧3需发送修改通知,且起始子帧号为0。
3、第二起始时刻,当只确定了发送修改通知的系统帧号时,可以使用第二起始时刻来确认起始子帧号,这时第二起始时刻用于确定传输修改通知的起始子帧号。此外,第二起始时刻还可以用于确定传输修改通知的起始符号,即在每次重复发送该修改通知的子帧里,具体从哪个符号开始发送该修改通知。第二终止时刻,指重复发送修改通知的最后一个帧位置和/或最后一个子帧位置和/或一个子帧中最后一个符号位置。
以上确定了发送该修改通知的系统帧号,和这个系统帧号里的起始子帧号,和重复发送该修改通知的子帧里,具体的起始符号。
4、第二重复次数,表示在一个调度周期里,重复发送该修改通知的次数。如1次,2次,…,N次,N为大于或等于1的整数,示例性的,如图6所示,表示第二重复次数为1次、2次、3次。
5、第二重复模式指的是重复传输修改通知(即该第三PDCCH或第三MPDCCH)的模式,例如,第二重复模式为每1个子帧传输一次修改通知,每2个子帧传输一次修改通知,…,每M个子帧传输一次修改通知,M为大于或等于1的整数,示例性的,如图7所示,表示第二重复模式为每1个子帧传输一次修改通知,每2个子帧传输一次修改通知,每3个子帧传输一次修改通知,根据上述确定的系统帧号和起始子帧号和第二重复次数和第二重复模式,便可以确定出在当前的系统帧上或当前的调度周期中的哪些子帧需要进行修改通知的传输。示例性的,如图8所示,假设当前的系统帧的系统帧号为5,起始子帧号为3,第二重复次数为2,第二重复模式为每3个子帧传输一次修改通知,那么根据第二重复次数和第二重复模式确定出在系统帧号为5的系统帧上的3号子帧和6号子帧上需进行修改通知的传输。其中,这里不限制重复传输该修改通知(即第三PDCCH或第三MPDCCH)的子帧一定位于一个系统帧内,即重复传输子帧可以扩展到后面的系统帧,这样就是确定在当前的调度周期中的哪些子帧重复发送修改通知。
6、第二频率信息,表示发送该修改通知(即第三PDCCH或第三MPDCCH)的频率信息,即在哪些频带上发送该修改通知,在MTC中,系统带宽被分成多个窄带,如6个物理资源块(Physical Resource Block,PRB),对应6×180kHz,则第二频率信息表示该修改通知具体在哪个6PRB上发送,该频率信息可以是具体的频率,即以Hz为单位,或是系统带宽分成多个窄带后的窄带的索引值(Narrow Band Index)。例如,如图8A所示,每种系统带宽都被分成若干个6PRBs,当终端设备接收某个基站设备的服务时,终端设 备通过系统消息即可获取到系统带宽,如10MHz(对应50PRB),此时系统带宽被分成8个窄带,第一个窄带为第2PRB到第7PRB,第二个窄带为第8PRB到第13PRB,依此类推。另外,不同系统带宽下,划分窄带的方法可能有所不同,但都可以对划分的窄带依次进行索引,如上述例子窄带索引依次为1、2、…、8,这样当基站设备配置在哪个窄带上发送修改通知时,可以直接通知终端设备窄带的索引值,即第二频率信息为索引值,如索引值为3,表示3对应的窄带,即是该系统带宽下,10MHz(对应50PRB),第14PRB到第19PRB的窄带。这样当终端设备收到此第二频率信息后,就可以在该指定的窄带上去接收修改通知。
需要说明的是,第二配置参数中具体包括的内容可以根据实际应用场景的需求进行选择,本发明实施例在此并不做具体限定。且,若用来控制修改通知的重复传输所需的参数不包括在第二配置参数中时,可以将用来控制修改通知的重复传输所需的参数预先配置在基站设备和终端设备中,也可以根据实际应用场景的需求采用其他的方式通知终端设备,本发明实施例在此并不做具体限制。
另外,针对第二配置参数中包括的第二重复次数和第二重复模式也可以用类似的参数替代,以确定在当前的系统帧上的哪些子帧需要进行修改通知的传输。例如,可以用重复间隔或重复周期代替第二重复模式,重复间隔指的是发送修改通知的两个子帧的间隔,如重复间隔为0个子帧,1个子帧,…,X个子帧,X为大于或等于0的整数,重复周期指的是在一个调度周期内重复发送修改通知的周期,如重复周期为1个子帧,2个子帧,…,Y个子帧,Y为大于或等于0的整数。示例性的,如图9所示,表示重复间隔为0个子帧(相应的重复周期为1个子帧)、1个子帧(相应的重复周期为2个子帧)、2个子帧(相应的重复周期为3个子帧)。再例如,还可以用重复时间代替重复第二重复次数,重复时间指的是从发送第一个修改通知到最后一个修改通知持续的时间,如,重复时间为1个子帧、2个子帧,3个子帧,…,Z个子帧,Z为大于或等于1的整 数。示例性的,如图10所示,表示重复时间为2个子帧、3个子帧、4个子帧,根据重复间隔、重复周期和第二重复模式中的一个,以及重复时间也可以确定出在当前的系统帧上的哪些子帧需要进行修改通知的传输。
示例性的,假设第二配置参数包括第二偏移量、第二调度周期(且第二调度周期和第二偏移量都使用子帧号来表示)、第二起始时刻、第二重复次数(Repetition Number)、第二重复模式(Repetition Pattern)和第二频率信息,此时基站设备根据系统消息向终端设备发送修改通知具体的可以为:基站设备可以先根据第二偏移量和第二调度周期,确定当前的系统帧是否为需发送修改通知的系统帧,若确定出当前的系统帧不是需发送修改通知的系统帧,则判断当前的系统帧的下一个系统帧是否为需发送修改通知的系统帧,若确定出当前的系统帧是需发送修改通知的系统帧,则基站设备根据第二偏移量、第二调度周期、第二起始时刻、第二重复次数和第二重复模式确定出需要在当前的系统帧或当前的调度周期内的哪些子帧和/或符号上发送修改通知,然后根据确定出的所有子帧号和/或符号,以及第二频率信息向终端设备发送携带有第一RNTI的修改通知,以便实现修改通知的重复发送。例如,第二偏移量为5(单位:子帧)、第二调度周期为25(单位:子帧)、第二重复次数为3次、第二重复模式为每2个子帧发送一次,且,当前的系统帧为7,此时基站设备根据系统消息向终端设备发送修改通知具体的可以为:基站设备可以先根据第二偏移量5和第二调度周期25,确定当前的系统帧7为需发送修改通知的系统帧,则基站设备根据第二偏移量5、第二调度周期25、第二重复次数3和第二重复模式每2个子帧发送一次确定出需要在当前的系统帧7的子帧0、子帧2、子帧4上发送修改通知(如图10A所示),然后根据第二频率信息,在系统帧号为7的子帧0、2、4上向终端设备发送携带有第一RNTI的修改通知,以便实现修改通知的重复发送。
其中,第一RNTI具体的可以为单小区修改通知无线网络临时 标识(Single Cell Notification Radio Network Temporary Identity,SC-N-RNTI),也就是说可以采用SC-N-RNTI对第三PDCCH或第三MPDCCH进行加扰,实现向终端设备通知第一控制信息发生改变的目的。
此步骤为可选步骤。
404、终端设备接收基站设备发送的修改通知。
其中,在终端设备对多播业务数据感兴趣时,终端设备直接接收第一控制信息(该第一控制信息可以携带在SC-MCCH中),不需要盲检携带修改通知的第三PDCCH或第三MPDCCH,当接收到的第一控制信息中不包含终端设备感兴趣的业务时,终端设备需要一直盲检发送修改通知的第三PDCCH或第三MPDCCH,因为当终端设备感兴趣的业务出现时,一定会引起第一控制信息的改变,这样基站设备一定会发修改通知,所以为了节约终端设备的功耗,此时,终端设备只需要盲检测携带修改通知的第三PDCCH或第三MPDCCH。若终端设备检测到修改通知,则读取携带在SC-MCCH中的第一控制信息。若还不包含感兴趣的业务,继续盲检测第三PDCCH或第三MPDCCH,若已经包含,则根据携带在SC-MCCH中的第一控制信息接收携带在SC-MTCH中的多播业务数据,接收多播业务数据时,终端设备会一直接收携带在SC-MCCH中的第一控制信息,这时不需要检测携带修改通知的第三PDCCH或第三MPDCCH。
进一步的,当基站设备根据系统消息向终端设备重复发送修改通知时,终端设备可以根据系统消息接收基站设备重复发送的修改通知,具体的,终端设备可以根据系统消息中包括的第二配置参数接收基站设备重复发送的修改通知。其中,对于第二配置参数的具体描述与步骤403中对第二配置参数的具体描述类似,本发明实施例在此不再详细赘述。
示例性的,按照步骤403中的例子,终端设备根据系统消息接收基站设备发送的修改通知具体的可以为:终端设备可以先根据第 二偏移量和第二调度周期,或只根据第二调度周期,确定当前的系统帧是否为需接收修改通知的系统帧,若确定出当前的系统帧不是需接收修改通知的系统帧,则判断当前的系统帧的下一个系统帧是否为需接收修改通知的系统帧,若确定出当前的系统帧是需接收修改通知的系统帧,则终端设备根据第二偏移量、第二调度周期、第二起始时刻、第二重复次数和第二重复模式确定出需要在当前的系统帧或当前的调度周期内的哪些子帧和/或符号上接收修改通知,然后根据确定出的所有子帧号和/或符号,以及第二频率信息接收基站设备发送携带有第一RNTI的修改通知,由于可以在多个子帧号和/或符号上重复接收修改通知,因此提高了终端设备接收修改通知的成功率。其中,当第一RNTI为SC-N-RNTI时,终端设备可以采用SC-N-RNTI对第三PDCCH或第三MPDCCH进行解扰,若解扰成功,则可以确定第一控制信息发生改变。
此步骤为可选步骤。
405、基站设备向终端设备发送第二控制信息。
其中,基站设备在向终端设备发送第一控制信息之前,可以先向终端设备发送第一控制信息的调度信息,即第二控制信息。
进一步的,为了能够提高终端设备接收多播业务数据的成功率,基站设备可以向终端设备重复发送第二控制信息,在一种可能的实现方式中,可以用系统消息控制第二控制信息的重复传输,具体的,当系统消息用于控制第二控制信息的重复传输时,基站设备可以根据系统消息向终端设备发送第二控制信息。其中,系统消息中可以包括第三配置参数,以用来控制第二控制信息的重复传输,该第三配置参数可以包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三终止时刻、第三重复次数、第三重复模式、第三频率信息。
另外,第三终止时刻,指的是重复发送第二控制信息的最后一个帧位置和/或最后一个子帧位置和/或一个子帧中最后一个符号位置第三偏移量还可以指示修改通知消息发送的最后一个子帧到发送 第二控制信息的起始子帧的偏移。
需要说明的是,本发明实施例中对于第三配置参数的具体描述与步骤403对第二配置参数的描述类似,本发明实施例在此不再详细赘述。另外,第三配置参数中具体包括的内容可以根据实际应用场景的需求进行选择,本发明实施例在此并不做具体限定。且,若用来控制第二控制信息的重复传输所需的参数不包括在第三配置参数中时,可以将用来控制第二控制信息的重复传输所需的参数预先配置在基站设备和终端设备中,也可以根据实际应用场景的需求采用其他的方式通知终端设备,本发明实施例在此并不做具体限制。
示例性的,假设第三配置参数包括第三偏移量、第三调度周期(且第三调度周期和第三偏移量都使用子帧号来表示)、第三起始时刻、第三重复次数、第三重复模式和第三频率信息。此时基站设备根据系统消息向终端设备发送第二控制信息具体的可以为:基站设备可以先根据第三偏移量和第三调度周期确定当前的系统帧是否为需发送第二控制信息的系统帧,若确定出当前的系统帧不是需发送第二控制信息的系统帧,则判断当前的系统帧的下一个系统帧是否为需发送第二控制信息的系统帧,若确定出当前的系统帧是需发送第二控制信息的系统帧,则基站设备根据第三偏移量、第三调度周期,第三起始时刻、第三重复次数和第三重复模式确定出需要在当前的系统帧或当前的调度周期的哪些子帧和/或符号上发送第二控制信息,然后根据确定出的所有子帧号和/或符号,以及第三频率信息通过第一PDCCH或第一MPDCCH向终端设备发送第二控制信息,以便实现第二控制信息的重复发送。
另外,在另一种可能的实现方式中,基站设备也可以直接根据重复传输修改通知的子帧和/或符号来进行第二控制信息的重复传输,也就是说,基站设备在向终端设备发送了修改通知之后,可以直接根据确定出的需要发送修改通知的子帧和/或符号上发送第二控制信息。在又一种可能的实现方式中,系统消息中可以包括一修正偏移量(这个修改偏移量可以包含在第三偏移量中)(该修正偏移 量指的是发送第二控制信息的起始子帧相对于发送修改通知的起始子帧的偏移量,该修正偏移量的单位可以是帧,也可以是子帧),当修正偏移量的单位是子帧时,基站设备向终端设备发送第二控制信息具体的可以是:基站设备根据该修正偏移量和确定出的需要发送修改通知的子帧和/或符号,确定出发送第二控制信息的子帧和/或符号,然后根据确定出的发送第二控制信息的子帧和/或符号发送第二控制信息。当修正偏移量的单位是帧时,基站设备向终端设备发送第二控制信息具体的可以是:基站设备根据该修正偏移量、起始子帧号和确定出的需要发送修改通知的子帧和/或符号,确定出发送第二控制信息的子帧和/或符号,然后根据确定出的发送第二控制信息的子帧和/或符号发送第二控制信息。
此步骤为可选步骤。
406、终端设备接收基站设备发送的第二控制信息。
其中,在基站设备向终端设备发送了第二控制信息之后,终端设备便可以接收基站设备发送的第二控制信息。
进一步的,在一种可能的实现方式中,当基站设备根据系统消息向终端设备重复发送第二控制信息时,终端设备可以根据系统消息接收基站设备重复发送的第二控制信息,具体的,终端设备可以根据系统消息中包括的第三配置参数接收基站设备重复发送的第二控制信息。其中,对于第三配置参数的具体描述与步骤405中对第三配置参数的具体描述类似,本发明实施例在此不再详细赘述。
示例性的,按照步骤405中的例子,终端设备根据系统消息接收基站设备发送的第二控制信息具体的可以为:终端设备可以先根据第三偏移量和第三调度周期,确定当前的系统帧是否为需接收第二控制信息的系统帧,若确定出当前的系统帧不是需接收第二控制信息的系统帧,则判断当前的系统帧的下一个系统帧是否为需接收第二控制信息的系统帧,若确定出当前的系统帧是需接收第二控制信息的系统帧,则终端设备根据第三偏移量、第三调度周期、第三起始时刻、第三重复次数和第三重复模式确定出需要在当前的系统 帧或当前的调度周期的哪些子帧和/或符号上接收第二控制信息,然后根据确定出的所有子帧号和/或符号,以及第三频率信息通过第一PDCCH或第一MPDCCH接收基站设备发送第二控制信息,由于可以在多个子帧号和/或符号上重复接收第二控制信息,因此提高了终端设备接收第二控制信息的成功率。
另外,在另一种可能的实现方式中,当基站设备直接根据重复传输修改通知的子帧和/或符号来进行第二控制信息的重复传输时,终端设备可以根据确定出的接收修改通知的子帧和/或符号,接收第二控制信息。在又一种可能的实现方式中,当基站设备根据修正偏移量(该修正偏移量可以包括在系统消息中,具体的,该修正偏移量可以包含在第三偏移量中)向终端设备重复发送第二控制信息时,基站设备可以根据该修正偏移量和确定出的需要接收修改通知的子帧和/或符号(或者,根据修正偏移量、起始子帧号和确定出的需要接收修改通知的子帧和/或符号),确定出接收第二控制信息的子帧和/或符号,然后根据确定出的接收第二控制信息的子帧和/或符号接收第二控制信息。
在本发明实施例中,优选的,为了减少终端设备获取到多播业务数据的时延,当第一控制信息发生改变时,无需执行步骤403和步骤404,而是通过采用第一RNTI对发送第二控制信息进行加扰,该第一RNTI用于对第二控制信息进行加扰,且用于指示第一控制信息发生改变,例如,该第一RNTI可以为SC-N-RNTI,具体的,基站设备可以采用第一RNTI,如SC-N-RNTI对第一PDCCH(或第一MPDCCH)进行加扰,然后通过采用第一RNTI加扰后的第一PDCCH(或第一MPDCCH)发送第一控制信息,当第一控制信息未发生改变时,步骤403和步骤404也是无需执行的,此时基站设备可以采用第二RNTI,如SC-RNTI对第一PDCCH(或第一MPDCCH)进行加扰,然后通过采用第二RNTI加扰后的第一PDCCH(或第一MPDCCH)发送第一控制信息。对于终端设备来说,其可以采用第一RNTI和第二RNTI分别对第一PDCCH(或第一MPDCCH)进行 解扰,若采用第一RNTI对第一PDCCH(或第一MPDCCH)解扰成功,则表明第一控制信息发生改变,此时需重新获取第一控制信息,以便重新获取多播业务数据,若采用第二RNTI对第一PDCCH(或第一MPDCCH)解扰成功,则表明第一控制信息未发生改变。或者,当第一控制信息发生改变时,无需执行步骤403和步骤404,而是在第二控制信息中增加一指示信息,该指示信息用于指示第一控制信息发生改变,这样当第一控制信息发生改变时,无需执行步骤403和步骤404,可以直接通过第二控制信息向终端设备通知第一控制信息发生改变,减少了终端设备获取到多播业务数据的时延。
此步骤为可选步骤。
407、基站设备向终端设备发送第一控制信息。
其中,在基站设备向终端设备发送了第二控制信息之后,基站设备可以向终端设备发送第一控制信息,第一控制信息指的是多播业务数据的控制信息。
进一步的,为了能够提高终端设备接收多播业务数据的成功率,基站设备可以向终端设备重复发送第一控制信息,在一种可能的实现方式中,用于控制第一控制信息的重复传输的参数全部包含在第二控制信息中,即采用第二控制信息来控制第一控制信息的重复传输,此时,具体的,基站设备可以根据第二控制信息向终端设备发送第一控制信息。其中,第二控制信息中可以包括第四配置参数,以用来控制第一控制信息的重复传输,并且,考虑到系统带宽的限制,第一控制信息可能需进行分段传输,因此,当第一控制信息不需进行分段传输时,该第四配置参数可以包括:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,当第一控制信息需进行分段传输时,第四配置参数还可以包括:分段数、重复方式。
其中,第四终止时刻,指重复发送第一控制信息的最后一个帧位置和/或最后一个子帧位置和/或一个子帧中最后一个符号位置。此外,本文中,MCS包含调制方式和编码速率,一般MCS使用索引 值,索引不同的调制方式和编码速率。TBS,传输块大小,可以以比特为单位,或是索引一些比特为单位的值。
分段数指的是对第一控制信息需要进行分段的段数,如2段,…,A段,A为大于或等于2的整数,重复方式为依次间隔传输不同分段信息或将当前分段信息重复传输完成之后,再重复传输下一个分段信息。示例性的,如图11所示为分段数为2段,重复方式为依次间隔传输不同分段信息,第四重复次数为4次、第四重复模式为每2个子帧传输一次分段信息的示意图。如图12所示为分段数为2段,重复方式为将当前分段信息重复传输完成之后,再重复传输下一个分段信息,第四重复次数为4次、第四重复模式为每2个子帧传输一次分段信息的示意图。
另外,进一步的,第四配置参数中还可以包括分段间隔,该分段间隔指的是发送不同分段信息时间之间的间隔,如1个子帧,2个子帧,…,B个子帧,B为大于或等于1的整数,示例性的,如图13所示,指的是分段数为2段,第四重复次数为4次、第四重复模式为每2个子帧传输一次分段信息、重复方式为将当前分段信息重复传输完成之后,再重复传输下一个分段信息、分段间隔为3个子帧的示意图。或者,也可以为不同的分段信息配置不同的重复次数,当然,当采用重复时间替代重复次数时,也可以为不同的分段信息配置不同的重复时间。
当重复方式为依次间隔传输不同分段信息时,进一步的可以用不同分段信息的传输间隔代替第四重复模式这个参数,示例性的,如图14所示,表示分段数为2段,不同分段信息的传输间隔为1个子帧。或者,进一步的可以用不同分段信息的第一传输间隔和不同分段信息的第二传输间隔代替第四重复模式这个参数,示例性的,如图15所示,表示分段数为2段,不同分段信息的第一传输间隔为1个子帧,不同分段信息的第二传输间隔为4个子帧。
需要说明的是,本发明实施例中对于第四配置参数的具体描述与步骤403对第二配置参数的描述类似,本发明实施例在此不再详 细赘述。另外,第四配置参数中具体包括的内容可以根据实际应用场景的需求进行选择,本发明实施例在此并不做具体限定。且,若用来控制第一控制信息的重复传输所需的参数不包括在第四配置参数中时,可以将用来控制第一控制信息的重复传输所需的参数预先配置在基站设备和终端设备中,也可以根据实际应用场景的需求采用其他的方式通知终端设备,本发明实施例在此并不做具体限制。
示例性的,假设第一控制信息无需进行分段,第四配置参数包括第四偏移量、第四调度周期(且第四调度周期和第四偏移量都使用子帧号来表示)、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS和第四频率信息。此时基站设备根据第二控制信息向终端设备发送第一控制信息具体的可以为:基站设备可以先根据第四偏移量和第四调度周期确定当前的系统帧是否为需发送第一控制信息的系统帧,若确定出当前的系统帧不是需发送第一控制信息的系统帧,则判断当前的系统帧的下一个系统帧是否为需发送第一控制信息的系统帧,若确定出当前的系统帧是需发送第一控制信息的系统帧,则基站设备根据第四偏移量、第四调度周期、第四起始时刻、第四重复次数和第四重复模式确定出需要在当前的系统帧或当前的调度周期的哪些子帧和/或符号上发送第一控制信息,然后根据确定出的所有子帧号和/或符号,以及MCS、TBS和第四频率信息通过SC-MCCH向终端设备发送第一控制信息,以便实现第一控制信息的重复发送。
假设第一控制信息需进行分段,第四配置参数包括第四偏移量、第四调度周期(且第四调度周期和第四偏移量都使用子帧号来表示)、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息、分段数和重复方式。此时基站设备根据第二控制信息向终端设备发送第一控制信息具体的可以为:基站设备可以先根据第四偏移量和第四调度周期确定当前的系统帧是否为需发送第一控制信息的分段信息的系统帧,若确定出当前的系统帧不是需发送第一控制信息的分段信息的系统帧,则判断当前的系统帧的下一个 系统帧是否为需发送第一控制信息的分段信息的系统帧,若确定出当前的系统帧是需发送第一控制信息的分段信息的系统帧,则基站设备根据第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、分段数和重复方式确定出需要在当前的系统帧或当前的调度周期的哪些子帧和/或符号上发送第一控制信息的分段信息,然后根据确定出的所有子帧号和/或符号,以及MCS、TBS和第四频率信息通过SC-MCCH向终端设备发送第一控制信息的分段信息,以便实现第一控制信息的重复发送。另外,当第四配置参数中不包括分段数时,基站设备可以在发送前一个分段信息的无线链路控制(Radio Link Control,RLC)协议数据单元(Protocol Data Unit,PDU)头中携带用于指示后面是否还存在分段信息的指示。
在另一种可能的实现方式中,为了减少终端设备获取到多播业务数据的时延,基站设备可以将用于控制第一控制信息的重复传输的参数全部包含在系统消息中,采用系统消息来控制第一控制信息的重复传输,也就是说,步骤405和步骤406此时可以不用执行,此时,具体的,基站设备可以根据系统消息向终端设备发送第一控制信息。其中,系统消息中可以包括第四配置参数,以用来控制第一控制信息的重复传输,且该第四配置参数与本步骤中第一种可能实现方式中的第四配置参数的具体描述类似,本发明实施例在此不再详细赘述,并且,基站设备根据系统消息向终端设备发送第一控制信息的具体过程也与基站设备根据第二控制信息向终端设备发送第一控制信息的过程类似,本发明实施例在此也不再详细赘述。在该实现方式中,当包含在系统消息中的用于控制第一控制信息的重复传输的参数发生改变时,基站设备可以向终端设备发送寻呼消息,以便通知终端设备用于控制第一控制信息的重复传输的参数发生改变。
在又一种可能的实现方式中,可以将部分用于控制第一控制信息的重复传输的参数包含在系统消息中,并且剩余部分用于控制第一控制信息的重复传输的参数包含在第二控制信息中,即采用系统 消息和第二控制信息共同来控制第一控制信息的重复传输,此时,具体的,基站设备可以根据系统消息和第二控制信息向终端设备发送第一控制信息。其中,对于这种可能实现方式中,用于控制第一控制信息的重复传输的参数中哪些参数包含在系统消息中,哪些参数包含在第二控制信息中,可以根据实际应用场景的需求进行设置,本发明实施例在此不做限定。另外,系统消息和第二控制信息中包括的用来控制第一控制信息的重复传输的参数,与本步骤中第一种可能实现方式中的第四配置参数的具体描述类似,本发明实施例在此不再详细赘述,且,基站设备根据系统消息和第二控制信息向终端设备发送第一控制信息的具体过程也与基站设备根据第二控制信息向终端设备发送第一控制信息的过程类似,本发明实施例在此也不再详细赘述。
408、终端设备接收基站设备发送的第一控制信息。
其中,在基站设备向终端设备发送了第一控制信息之后,终端设备便可以接收基站设备发送的第一控制信息。
进一步的,在一种可能的实现方式中,当基站设备根据第二控制信息向终端设备重复发送第一控制信息时,终端设备可以根据第二控制信息接收基站设备重复发送的第一控制信息,具体的,终端设备可以根据第二控制信息中包括的第四配置参数接收基站设备重复发送的第一控制信息。其中,对于第四配置参数的具体描述与步骤407中对第四配置参数的具体描述类似,本发明实施例在此不再详细赘述。
示例性的,按照步骤407中的例子,假设第一控制信息无需进行分段,终端设备根据第二控制信息接收基站设备发送的第一控制信息具体的可以为:终端设备可以先根据第四偏移量和第四调度周期确定当前的系统帧是否为需接收第一控制信息的系统帧,若确定出当前的系统帧不是需接收第一控制信息的系统帧,则判断当前的系统帧的下一个系统帧是否为需接收第一控制信息的系统帧,若确定出当前的系统帧是需接收第一控制信息的系统帧,则终端设备根 据第四偏移量、第四调度周期、第四起始时刻、第四重复次数和第四重复模式确定出需要在当前的系统帧或当前的调度周期的哪些子帧和/或符号上接收第一控制信息,然后根据确定出的所有子帧号和/或符号,以及MCS、TBS和第四频率信息通过SC-MCCH接收基站设备发送第一控制信息,由于可以在多个子帧号和/或符号上重复接收第一控制信息,因此提高了终端设备接收第一控制信息的成功率。假设第一控制信息需进行分段,终端设备根据第二控制信息接收基站设备发送的第一控制信息具体的可以为:终端设备可以先根据第四偏移量和第四调度周期确定当前的系统帧是否为需接收第一控制信息的分段信息的系统帧,若确定出当前的系统帧不是需接收第一控制信息的分段信息的系统帧,则判断当前的系统帧的下一个系统帧是否为需接收第一控制信息的分段信息的系统帧,若确定出当前的系统帧是需接收第一控制信息的分段信息的系统帧,则终端设备根据第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、分段数和重复方式确定出需要在当前的系统帧或当前的调度周期的哪些子帧和/或符号上接收第一控制信息的分段信息,然后根据确定出的所有子帧号和/或符号,以及MCS、TBS和第四频率信息通过SC-MCCH接收基站设备发送第一控制信息的分段信息,由于可以在多个子帧号和/或符号上重复接收第一控制信息,因此提高了终端设备接收第一控制信息的成功率。
在另一种可能的实现方式中,当基站设备根据系统消息向终端设备发送第一控制信息时,终端设备可以根据系统消息接收第一控制信息,具体的,终端设备可以根据系统消息中包括的第四配置参数接收基站设备重复发送的第一控制信息。其中,对于第四配置参数的具体描述与步骤407中对第四配置参数的具体描述类似,本发明实施例在此不再详细赘述,并且,基站设备根据系统消息接收基站设备发送第一控制信息的具体过程也与基站设备根据第二控制信息接收基站设备发送第一控制信息的过程类似,本发明实施例在此也不再详细赘述。在这种实现方式中,若终端设备接收到了基站设 备发送的寻呼消息,那么此时,终端设备可以确定出第一控制信息发生改变,此时终端设备需重新获取系统消息,进而重新获取第一控制信息以及多播业务数据。
在又一种可能的实现方式中,当基站设备根据系统消息和第二控制信息向终端设备重复发送第一控制信息时,基站设备可以根据系统消息和第二控制信息接收第一控制信息,具体的,终端设备可以根据系统消息和第二控制信息中包括的第四配置参数接收基站设备重复发送的第一控制信息。其中,对于第四配置参数的具体描述与步骤407中对第四配置参数的具体描述类似,本发明实施例在此不再详细赘述,并且,基站设备根据系统消息和第二控制信息接收基站设备发送第一控制信息的具体过程也与基站设备根据第二控制信息接收基站设备发送第一控制信息的过程类似,本发明实施例在此也不再详细赘述。
409、基站设备向终端设备发送第三控制信息。
其中,基站设备在向终端设备发送多播业务数据之前,可以先向终端设备发送多播业务数据的调度信息,即第三控制信息。
进一步的,为了能够提高终端设备接收多播业务数据的成功率,基站设备可以向终端设备重复发送第三控制信息,可以用第一控制信息来控制第三控制信息的重复传输,具体的,当第一控制信息用于控制第三控制信息的重复传输时,基站设备可以根据第一控制信息向终端设备发送第三控制信息。其中,第一控制信息中可以包括第五配置参数,以用来控制第三控制信息的重复传输,该第五配置参数可以包括以下至少一项:第五偏移量、第五调度周期、第五起始时刻、第五终止时刻、第五重复次数、第五重复模式、第五频率信息。
其中,第五终止时刻,指重复发送第三控制信息的最后一个帧位置和/或最后一个子帧位置和/或一个子帧中最后一个符号位置。另外,第五偏移量还可以用于指示第三控制信息的起始时刻滞后于第一控制信息起始时刻或终止时刻的偏移量。
需要说明的是,本发明实施例中对于第五配置参数的具体描述与步骤403对第二配置参数的描述类似,本发明实施例在此不再详细赘述。另外,第五配置参数中具体包括的内容可以根据实际应用场景的需求进行选择,本发明实施例在此并不做具体限定。且,若用来控制第三控制信息的重复传输所需的参数不包括在第五配置参数中时,可以将用来控制第三控制信息的重复传输所需的参数包括在系统消息中,并通过向终端设备发送系统消息通知终端设备,也可以根据实际应用场景的需求采用其他的方式通知终端设备,本发明实施例在此并不做具体限制。
示例性的,假设第五配置参数包括第五偏移量、第五调度周期(且第五调度周期和第五偏移量都使用子帧号来表示)、第五起始时刻、第五重复次数、第五重复模式和第五频率信息。此时基站设备根据第一控制信息向终端设备发送第三控制信息具体的可以为:基站设备可以先根据第五偏移量和第五调度周期确定当前的系统帧是否为需发送第三控制信息的系统帧,若确定出当前的系统帧不是需发送第三控制信息的系统帧,则判断当前的系统帧的下一个系统帧是否为需发送第三控制信息的系统帧,若确定出当前的系统帧是需发送第三控制信息的系统帧,则基站设备根据第五偏移量、第五调度周期、第五起始时刻、第五重复次数和第五重复模式确定出需要在当前的系统帧或当前的调度周期的哪些子帧和/或符号上发送第三控制信息,然后根据确定出的所有子帧号和/或符号,以及第五频率信息通过第二PDCCH或第二MPDCCH向终端设备发送第三控制信息,以便实现第三控制信息的重复发送。
410、终端设备接收基站设备发送的第三控制信息。
其中,在基站设备向终端设备发送了第三控制信息之后,终端设备便可以接收基站设备发送的第三控制信息。
进一步的,当基站设备根据第一控制信息向终端设备重复发送第三控制信息时,终端设备可以根据第一控制信息接收基站设备重复发送的第三控制信息,具体的,终端设备可以根第一控制信息中 包括的第五配置参数接收基站设备重复发送的第三控制信息。其中,对于第五配置参数的具体描述与步骤409中对第五配置参数的具体描述类似,本发明实施例在此不再详细赘述。
示例性的,按照步骤409中的例子,终端设备根据第一控制信息接收基站设备发送的第三控制信息具体的可以为:终端设备可以先根据第五偏移量和第五调度周期确定当前的系统帧是否为需接收第三控制信息的系统帧,若确定出当前的系统帧不是需接收第三控制信息的系统帧,则判断当前的系统帧的下一个系统帧是否为需接收第三控制信息的系统帧,若确定出当前的系统帧是需接收第三控制信息的系统帧,则终端设备根据第五偏移量、第五调度周期、第五起始时刻、第五重复次数和第五重复模式确定出需要在当前的系统帧或当前的调度周期的哪些子帧和/或符号上接收第三控制信息,然后根据确定出的所有子帧号和/或符号,以及第五频率信息通过第二PDCCH或第二MPDCCH接收基站设备发送第三控制信息,由于可以在多个子帧号和/或符号上重复接收第三控制信息,因此提高了终端设备接收第三控制信息的成功率。
此步骤为可选步骤。
411、基站设备向终端设备发送多播业务数据。
其中,在基站设备向终端设备发送了第三控制信息之后,可以向终端设备发送多播业务数据。
进一步的,为了能够提高终端设备接收多播业务数据的成功率,基站设备可以向终端设备重复发送多播业务数据,在一种可能的实现方式中,用于控制多播业务数据的重复传输的参数全部包含在第三控制信息中,即采用第三控制信息来控制多播业务数据的重复传输,此时,具体的,基站设备可以根据第三控制信息向终端设备发送多播业务数据。其中,第三控制信息中可以包括第一配置参数,以用来控制多播业务数据的重复传输,该第一配置参数可以包括以下至少一项:第一偏移量、第一重复次数、第一重复模式、MCS、TBS、第一频率信息。其中,第一偏移量用于指示多播业务数据的 起始时刻滞后于第三控制信息起始时刻或终止时刻的偏移量,起始时刻指的是起始子帧号或起始系统帧号,终止时刻指的是终止子帧号或终止系统帧号。
另外,需要说明的是,本发明实施例中对于第一配置参数中其他参数的具体描述与步骤403对第二配置参数的描述类似,本发明实施例在此不再详细赘述。另外,第一配置参数中具体包括的内容可以根据实际应用场景的需求进行选择,本发明实施例在此并不做具体限定。且,若用来控制多播业务数据的重复传输所需的参数不包括在第一配置参数中时,可以将用来控制多播业务数据的重复传输所需的参数预先配置在基站设备和终端设备中,也可以根据实际应用场景的需求采用其他的方式通知终端设备,本发明实施例在此并不做具体限制。
示例性的,第一配置参数包括第一偏移量、第一重复次数、第一重复模式、MCS、TBS和第一频率信息。此时基站设备根据第三控制信息向终端设备发送多播业务数据具体的可以为:基站设备可以先根据第一偏移量确定当前的系统帧是否为需发送多播业务数据的系统帧,若确定出当前的系统帧被是需发送多播业务数据的系统帧,则判断当前的系统帧的下一个系统帧是否为需发送多播业务数据的系统帧,若确定出当前的系统帧是需发送多播业务数据的系统帧,则基站设备根据第三控制信息起始时刻或终止时刻、第一偏移量、第一重复次数和第一重复模式确定出需要在当前的系统帧或当前的调度周期的哪些子帧和/或符号上发送多播业务数据,然后根据确定出的所有子帧号和/或符号,以及MCS、TBS、和第一频率信息通过SC-MTCH向终端设备发送多播业务数据,以便实现多播业务数据的重复发送。
在另一种可能的实现方式中,为了减少终端设备获取到多播业务数据的时延,基站设备可以将用于控制多播业务数据的重复传输的参数全部包含在第一控制信息中,采用第一控制信息来控制多播业务数据的重复传输,也就是说,步骤409和步骤410此时可以不 用执行,此时,具体的,基站设备可以根据第一控制信息向终端设备发送多播业务数据。其中,第一控制信息中可以包括第一配置参数,以用来控制多播业务数据的重复传输,且该第一配置参数可以包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一终止时刻、第一重复次数、第一重复模式、MCS、TBS、session ID、TMGI、第一频率信息,第一终止时刻,指重复发送多播业务数据的最后一个帧位置和/或最后一个子帧位置和/或一个子帧中的最后一个符号位置,且第一配置参数与步骤403中第二配置参数的具体描述类似,本发明实施例在此不再详细赘述,并且,基站设备根据第一控制信息向终端设备发送多播业务数据的具体过程也与基站设备根据第三控制信息向终端设备发送多播业务数据的过程类似,本发明实施例在此也不再详细赘述。
在又一种可能的实现方式中,可以将部分用于控制多播业务数据的重复传输的参数包含在第一控制信息中,并且剩余部分用于控制多播业务数据的重复传输的参数包含在第三控制信息中,即采用第一控制信息和第三控制信息共同来控制多播业务数据的重复传输,此时,具体的,基站设备可以根据第一控制信息和第三控制信息向终端设备发送多播业务数据。其中,对于这种可能实现方式中,用于控制多播业务数据的重复传输的参数中哪些参数包含在第一控制信息中,哪些参数包含在第三控制信息中,可以根据实际应用场景的需求进行设置,本发明实施例在此不做限定。另外,第一控制信息和第三控制信息中包括的用来控制多播业务数据的重复传输的参数,与本步骤中第二种可能实现方式中的第一配置参数的具体描述类似,本发明实施例在此不再详细赘述,且,基站设备根据第一控制信息和第三控制信息向终端设备发送多播业务数据的具体过程也与基站设备根据第三控制信息向终端设备发送多播业务数据的过程类似,本发明实施例在此也不再详细赘述。
412、终端设备接收基站设备发送的多播业务数据。
其中,在基站设备向终端设备发送了多播业务数据之后,终端 设备便可以接收基站设备发送的多播业务数据。
进一步的,在一种可能的实现方式中,当基站设备根据第三控制信息向终端设备重复发送多播业务数据时,终端设备可以根据第三控制信息接收基站设备重复发送的多播业务数据,具体的,终端设备可以根据第三控制信息中包括的第一配置参数接收基站设备重复发送的多播业务数据。其中,对于第一配置参数的具体描述与步骤411中对第一配置参数的具体描述类似,本发明实施例在此不再详细赘述。
示例性的,按照步骤411中的例子,终端设备根据第三控制信息接收基站设备发送的多播业务数据具体的可以为:终端设备可以先根据第一偏移量确定当前的系统帧是否为需接收多播业务数据的系统帧,若确定出当前的系统帧不是需接收多播业务数据的系统帧,则判断当前的系统帧的下一个系统帧是否为需接收多播业务数据的系统帧,若确定出当前的系统帧是需接收多播业务数据的系统帧,则终端设备根据第三控制信息起始时刻或终止时刻、第一偏移量、第一重复次数和第一重复模式确定出需要在当前的系统帧或当前的调度周期的哪些子帧和/或符号上接收多播业务数据,然后根据确定出的所有子帧号和/或符号,以及MCS、TBS、第一频率信息通过SC-MTCH接收基站设备发送多播业务数据,由于可以在多个子帧号和/或符号上重复接收多播业务数据,因此提高了终端设备接收多播业务数据的成功率。
在另一种可能的实现方式中,当基站设备根据第一控制信息向终端设备发送多播业务数据时,终端设备可以根据第一控制信息接收多播业务数据,具体的,终端设备可以根据第一控制信息中包括的第一配置参数接收基站设备重复发送的多播业务数据。其中,对于第一配置参数的具体描述与步骤411中对第一配置参数的具体描述类似,本发明实施例在此不再详细赘述,并且,基站设备根据第一控制信息接收基站设备发送多播业务数据的具体过程也与基站设备根据第三控制信息接收基站设备发送多播业务数据的过程类似, 本发明实施例在此也不再详细赘述。
在又一种可能的实现方式中,当基站设备根据第一控制信息和第三控制信息向终端设备重复发送多播业务数据时,基站设备可以根据第一控制信息和第三控制信息接收多播业务数据,具体的,终端设备可以根据第一控制信息和第三控制信息中包括的第一配置参数接收基站设备重复发送的多播业务数据。其中,对于第一配置参数的具体描述与步骤411中对第一配置参数的具体描述类似,本发明实施例在此不再详细赘述,并且,基站设备根据第一控制信息和第三控制信息接收基站设备发送多播业务数据的具体过程也与基站设备根据第三控制信息接收基站设备发送多播业务数据的过程类似,本发明实施例在此也不再详细赘述。
本发明提供的数据传输方法,基站设备通过向终端设备发送用于控制多播业务数据的重复传输的第一控制信息,并通过根据第一控制信息向终端设备重复发送多播业务数据,使得终端设备可以根据接收到的第一控制信息接收基站设备重复发送的多播业务数据,以提高终端设备接收多播业务数据的成功率。这样,在引入SC-PTM技术的MTC中,MTC终端便可以通过根据接收到的第一控制信息接收基站重复发送的多播业务数据,从而提高了MTC终端接收数据的成功率。
并且,通过对第一控制信息、第二控制信息、第三控制信息、修改通知的重复传输,进一步的提高了MTC终端接收多播业务数据的成功率。且,通过将用于控制第一控制信息的重复传输的参数携带在系统消息中传输和/或将用于控制多播业务数据的重复传输的参数携带在第一控制信息中,减小了终端设备获取到多播业务数据的时延。另外,当第一控制信息发生改变时,通过在第二控制信息中携带用于指示第一控制信息发生改变的第一RNTI或者用第二控制信息指示所述第一控制信息发生改变,而非通过向终端设备发送修改通知,减小了终端设备获取到多播业务数据的时延。
上述主要从各个网元之间交互的角度对本发明实施例提供的方 案进行了介绍。可以理解的是,各个网元,例如基站设备、终端设备为了实现上述功能,其包含了执行各个功能相应的硬件结构和/或软件模块。本领域技术人员应该很容易意识到,结合本文中所公开的实施例描述的各示例的算法步骤,本发明能够以硬件或硬件和计算机软件的结合形式来实现。某个功能究竟以硬件还是计算机软件驱动硬件的方式来执行,取决于技术方案的特定应用和设计约束条件。专业技术人员可以对每个特定的应用来使用不同方法来实现所描述的功能,但是这种实现不应认为超出本发明的范围。
本发明实施例可以根据上述方法示例对基站设备、终端设备进行功能模块的划分,例如,可以对应各个功能划分各个功能模块,也可以将两个或两个以上的功能集成在一个处理模块中。上述集成的模块既可以采用硬件的形式实现,也可以采用软件功能模块的形式实现。需要说明的是,本发明实施例中对模块的划分是示意性的,仅仅为一种逻辑功能划分,实际实现时可以有另外的划分方式。
在采用对应各个功能划分各个功能模块的情况下,图16示出了上述和实施例中涉及的基站设备的一种可能的组成示意图,如图16所示,该基站设备可以包括:处理单元50和发送单元51。
处理单元50,用于确定用于控制多播业务数据的重复传输的第一控制信息。
发送单元51,用于支持基站设备执行图3所示的数据传输方法中的步骤201、步骤202,图5所示的数据传输方法中的步骤401、步骤403、步骤405、步骤407中、步骤409、步骤411。
需要说明的是,上述方法实施例涉及的各步骤的所有相关内容均可以援引到对应功能模块的功能描述,在此不再赘述。
本发明实施例提供的基站设备,用于执行上述数据传输方法,因此可以达到与上述数据传输方法相同的效果。
在采用集成的单元的情况下,图17示出了上述实施例中所涉及的基站设备的另一种可能的组成示意图。如图17所示,该基站设备包括:处理模块61和通信模块62。
处理模块61用于对基站设备的动作进行控制管理,和/或用于本文所描述的技术的其它过程。通信模块62用于支持基站设备与其他网络实体的通信,例如与图2、图18或图19中示出的功能模块或网络实体之间的通信,具体的如,通信模块62用于执行图3所示的数据传输方法中的步骤201、步骤202,图5所示的数据传输方法中的步骤401、步骤403、步骤405、步骤407中、步骤409、步骤411。基站设备还可以包括存储模块63,用于存储基站设备的程序代码和数据。
其中,处理模块61可以是处理器或控制器。其可以实现或执行结合本发明公开内容所描述的各种示例性的逻辑方框,模块和电路。所述处理器也可以是实现计算功能的组合,例如包含一个或多个微处理器组合,DSP和微处理器的组合等等。通信模块62可以是收发器、收发电路或通信接口等。存储模块63可以是存储器。
当处理模块61为处理器,通信模块62为收发器,存储模块63为存储器时,本发明实施例所涉及的基站设备可以为图20所示的基站设备。
在采用对应各个功能划分各个功能模块的情况下,图18示出了上述和实施例中涉及的终端设备的一种可能的组成示意图,如图18所示,该终端设备可以包括:接收单元71和处理单元72。
所述接收单元71,用于支持终端设备执行图4所示的数据传输方法中的步骤301、步骤302,图5所示的数据传输方法中的步骤402、步骤404、步骤406、步骤408、步骤410、步骤412。
处理单元72,用于根据接收单元71接收到的所述第一控制信息确定多播业务数据的重复传输参数,以便接收单元71可以根据确定出的多播业务数据的重复传输参数接收多播业务数据。
需要说明的是,上述方法实施例涉及的各步骤的所有相关内容均可以援引到对应功能模块的功能描述,在此不再赘述。
本发明实施例提供的终端设备,用于执行上述数据传输方法,因此可以达到与上述数据传输方法相同的效果。
在采用集成的单元的情况下,图19示出了上述实施例中所涉及的终端设备的另一种可能的组成示意图。如图19所示,该终端设备包括:处理模块81和通信模块82。
处理模块81用于对终端设备的动作进行控制管理,和/或用于本文所描述的技术的其它过程。通信模块82用于支持终端设备与其他网络实体的通信,例如与图2、图16或图17中示出的功能模块或网络实体之间的通信、具体的如,通信模块82用于执行图4所示的数据传输方法中的步骤301、步骤302,图5所示的数据传输方法中的步骤402、步骤404、步骤406、步骤408、步骤410、步骤412。终端设备还可以包括存储模块83,用于存储终端设备的程序代码和数据。
其中,处理模块81可以是处理器或控制器。其可以实现或执行结合本发明公开内容所描述的各种示例性的逻辑方框,模块和电路。所述处理器也可以是实现计算功能的组合,例如包含一个或多个微处理器组合,DSP和微处理器的组合等等。通信模块82可以是收发器、收发电路或通信接口等。存储模块83可以是存储器。
当处理模块81为处理器,通信模块82为收发器,存储模块83为存储器时,本发明实施例所涉及的终端设备可以为图21所示的终端设备。
图20为本发明实施例提供另一种基站设备的组成示意图,如图20所示,所述基站设备可以包括:处理器91、存储器92和收发器93。
所述存储器92用于存储计算机执行指令,当所述基站设备运行时,所述处理器91执行所述存储器92存储的所述计算机执行指令,以使所述基站设备执行如图3或图5所述的数据传输方法。并且,当基站设备运行时,所述收发器93用于执行如图3或图5所述的数据传输方法,以相应的实现图16所示的基站设备包括的发送单元51的功能。
例如,所述收发器93执行如图3所述的数据传输方法中的步骤 201,以实现图16所示的基站设备包括的发送单元51的功能。再例如,所述收发器93执行如图5所述的数据传输方法中步骤409,以实现图16所示的基站设备包括的发送单元51的功能。在本发明实施例中,收发器93可以包括基带处理器的全部或部分,以及还可选择性地包括RF处理器。RF处理器用于收发RF信号,基带处理器则用于实现由RF信号转换的基带信号或即将转换为RF信号的基带信号的处理。
本实施例还提供一种存储介质,该存储介质可以包括所述存储器92。
所述处理器91可以为中央处理器(central processing unit,CPU)。所述处理器91还可以为其他通用处理器、数字信号处理器(digital signal processing,DSP)、专用集成电路(application specific integrated circuit,ASIC)、现场可编程门阵列(field-programmable gate array,FPGA)或者其他可编程逻辑器件、分立门或者晶体管逻辑器件、分立硬件组件等。通用处理器可以是微处理器或者该处理器也可以是任何常规的处理器等。在本发明实施例中,所述处理器91可以检测到该处理器91所运行的上层软件,如应用软件需要发起数据通信业务,并触发本实施例之前提到的方法。
所述存储器92可以包括易失性存储器(volatile memory),例如随机存取存储器(random-access memory,RAM);所述存储器92也可以包括非易失性存储器(non-volatile memory),例如只读存储器(read-only memory,ROM),快闪存储器(flash memory),硬盘(hard disk drive,HDD)或固态硬盘(solid-state drive,SSD);所述存储器92还可以包括上述种类的存储器的组合。
所述收发器93具体可以为无线收发信机。例如,无线收发信机除了包括RF助力器和基带处理器外,还可以包括射频前端器件或天线等。所述处理器91通过所述收发器93与其他设备,例如其他终端设备进行数据的收发。
需要说明的是,本发明实施例提供的基站设备中各功能模块的 具体工作过程可以参考方法实施例中对应过程的具体描述,本发明实施例在此不再详细赘述。
本发明实施例提供的基站设备,用于执行上述数据传输方法,因此可以达到与上述数据传输方法相同的效果。
图21为本发明实施例提供另一种终端设备的组成示意图,如图21所示,所述终端设备可以包括:处理器1001、存储器1002和收发器1003。
所述存储器1002用于存储计算机执行指令,当所述终端设备运行时,所述处理器1001执行所述存储器1002存储的所述计算机执行指令,以使所述终端设备执行如图4或图5所述的数据传输方法。并且,当终端设备运行时,所述收发器1003用于执行如图4或图5所述的数据传输方法,以相应的实现图18所示的终端设备包括的接收单元71的功能。
例如,所述收发器1003执行如图4所述的数据传输方法中的步骤301,以实现图18所示的基站设备包括的接收单元71的功能。再例如,所述收发器1003执行如图5所述的数据传输方法中的步骤406,以实现图18所示的终端设备包括的接收单元71的功能。在本发明实施例中,收发器1003可以包括基带处理器的全部或部分,以及还可选择性地包括RF处理器。RF处理器用于收发RF信号,基带处理器则用于实现由RF信号转换的基带信号或即将转换为RF信号的基带信号的处理。
本实施例还提供一种存储介质,该存储介质可以包括所述存储器1002。
所述处理器1001可以为CPU。所述处理器91还可以为其他通用处理器、DSP、ASIC、FPGA或者其他可编程逻辑器件、分立门或者晶体管逻辑器件、分立硬件组件等。通用处理器可以是微处理器或者该处理器也可以是任何常规的处理器等。在本发明实施例中,所述处理器1001可以检测到该处理器1001所运行的上层软件,如应用软件需要发起数据通信业务,并触发本实施例之前提到的方法。
所述存储器1002可以volatile memory,例如RAM;所述存储器1002也可以包括non-volatile memory,例如ROM,flash memory,HDD或SSD;所述存储器1002还可以包括上述种类的存储器的组合。
所述收发器1003具体可以为无线收发信机。例如,无线收发信机除了包括RF助力器和基带处理器外,还可以包括射频前端器件或天线等。所述处理器1001通过所述收发器1003与其他设备,例如其他基站设备进行数据的收发。
需要说明的是,本发明实施例提供的终端设备中各功能模块的具体工作过程可以参考方法实施例中对应过程的具体描述,本发明实施例在此不再详细赘述。
本发明实施例提供的终端设备,用于执行上述数据传输方法,因此可以达到与上述数据传输方法相同的效果。
通过以上的实施方式的描述,所属领域的技术人员可以清楚地了解到,为描述的方便和简洁,仅以上述各功能模块的划分进行举例说明,实际应用中,可以根据需要而将上述功能分配由不同的功能模块完成,即将装置的内部结构划分成不同的功能模块,以完成以上描述的全部或者部分功能。
本实施例提供的方法如果以软件功能单元的形式实现并作为独立的产品销售或使用时,可以存储在一个可读取存储介质中。基于这样的理解,本发明的技术方案本质上或者说对现有技术做出贡献的部分或者该技术方案的全部或部分可以以软件产品的形式体现出来,该软件产品存储在一个存储介质中,包括若干指令用以使得一个设备(可以是单片机,芯片等)或处理器(processor)执行本发明各个实施例所述方法的全部或部分步骤。而前述的存储介质包括:U盘、移动硬盘、ROM、RAM、磁碟或者光盘等各种可以存储程序代码的介质。
以上所述,仅为本发明的具体实施方式,但本发明的保护范围并不局限于此,任何熟悉本技术领域的技术人员在本发明揭露的技 术范围内,可轻易想到变化或替换,都应涵盖在本发明的保护范围之内。因此,本发明的保护范围应以所述权利要求的保护范围为准。

Claims (66)

  1. 一种数据传输方法,其特征在于,包括:
    基站设备向终端设备发送第一控制信息,所述第一控制信息用于控制多播业务数据的重复传输;
    所述基站设备根据所述第一控制信息向所述终端设备发送所述多播业务数据。
  2. 根据权利要求1所述的方法,其特征在于,所述方法还包括:
    所述基站设备向所述终端设备发送系统消息,所述系统消息用于控制所述第一控制信息的重复传输。
  3. 根据权利要求1所述的方法,其特征在于,所述方法还包括:
    所述基站设备向所述终端设备发送第二控制信息,所述第二控制信息用于控制所述第一控制信息的重复传输。
  4. 根据权利要求3所述的方法,其特征在于,所述方法还包括:
    所述基站设备向所述终端设备发送系统消息;
    其中,所述系统消息用于控制所述第二控制信息的重复传输,和/或,所述系统消息用于控制所述第一控制信息的重复传输。
  5. 根据权利要求1-4中任一项所述的方法,其特征在于,所述方法还包括:
    所述基站设备向所述终端设备发送第三控制信息,所述第三控制信息用于控制所述多播业务数据的重复传输。
  6. 根据权利要求5所述的方法,其特征在于,
    所述第一控制信息具体用于控制所述第三控制信息的重复传输;或者,
    所述第一控制信息还用于控制所述第三控制信息的重复传输。
  7. 根据权利要求1-6中任一项所述的方法,其特征在于,所述方法还包括:
    所述基站设备向所述终端设备发送修改通知,所述修改通知用于通知所述第一控制信息发生改变,所述修改通知中携带有第一无线网络临时标识RNTI。
  8. 根据权利要求7所述的方法,其特征在于,所述方法还包括:
    所述基站设备向所述终端设备发送系统消息,所述系统消息用于控制所述修改通知的重复传输。
  9. 根据权利要求1-8中任一项所述的方法,其特征在于,所述第一控制信息包括第一配置参数,
    所述第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一重复次数、第一重复模式、调制编码策略MCS、传输块大小TBS、会话标识session ID、临时移动组标识TMGI、第一频率信息;所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号和起始子帧号,或者,所述第一偏移量和所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号和起始子帧号,所述第一起始时刻用于确定传输所述多播业务数据或发送所述第三控制信息的第一起始符号;
    或者,所述第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一终止时刻、第一重复次数、第一重复模式、MCS、TBS、session ID、TMGI、第一频率信息;所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号,或者,所述第一偏移量和所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号,所述第一起始时刻用于确定传输所述多播业务数据或发送所述第三控制信息的第一起始子帧号和/或第一起始符号;
    所述第一终止时刻包括第一终止子帧号和/或第一终止符号,所述第一频率信息用于指示发送所述多播业务数据或发送所述第三控制信息的频率,所述第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  10. 根据权利要求5或6所述的方法,其特征在于,所述第三控制信息包括第一配置参数,所述第一配置参数包括以下至少一项:
    第一偏移量、第一重复次数、第一重复模式、MCS、TBS、第一频率信息;
    所述第一偏移量用于指示所述多播业务数据的起始时刻滞后于所述第三控制信息起始时刻或终止时刻的偏移量,所述起始时刻指的是起始子帧号或起始系统帧号,所述终止时刻指的是终止子帧号或终止系统帧号;所述第一频率信息用于指示发送所述多播业务数据的频率,所述第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  11. 根据权利要求8所述的方法,其特征在于,所述系统消息包括:第二配置参数,
    所述第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二重复次数、第二重复模式、第二频率信息;所述第二调度周期用于确定传输所述修改通知的系统帧号和起始子帧号,或者,所述第二偏移量和所述第二调度周期用于确定传输所述修改通知的系统帧号和起始子帧号,所述第二起始时刻用于确定传输所述修改通知的第二起始符号;
    或者,所述第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二终止时刻、第二重复次数、第二重复模式、第二频率信息;所述第二调度周期用于确定传输所述修改通知的系统帧号,或者,所述第二偏移量和所述第二调度周期用于确定传输所述修改通知的系统帧号,所述第二起始时刻用于确定传输所述修改通知的第二起始子帧号和/或第二起始符号;
    所述第二终止时刻包括第二终止子帧号和/或第二终止符号,所述第二频率信息用于指示发送所述修改通知的频率,所述第二频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  12. 根据权利要求3或4所述的方法,其特征在于,所述第二控制信息用第一RNTI或第二RNTI进行加扰;所述第一RNTI用于当所述第一控制信息发生改变时对所述第二控制信息进行加扰,所述第一RNTI还用于指示所述第一控制信息发生改变;所述第二RNTI用于当所述第一控制信息未发生改变时对所述第二控制信息进行加扰;
    或者,所述第二控制信息还用于通知所述第一控制信息发生改 变。
  13. 根据权利要求4所述的方法,其特征在于,所述系统消息包括:第三配置参数,
    所述第三配置参数包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三重复次数、第三重复模式、第三频率信息;所述第三调度周期用于确定传输所述第二控制信息的系统帧号和起始子帧号,或者,所述第三偏移量和所述第三调度周期用于确定传输所述第二控制信息的系统帧号和起始子帧号,所述第三起始时刻用于确定传输所述第二控制信息的第三起始符号;
    或者,所述第三配置参数包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三终止时刻、第三重复次数、第三重复模式、第三频率信息;所述第三调度周期用于确定传输所述第二控制信息的系统帧号,或者,所述第三偏移量和所述第三调度周期用于确定传输所述第二控制信息的系统帧号,所述第三起始时刻用于确定传输所述第二控制信息的第三起始子帧号和/或第三起始符号;
    所述第三终止时刻包括第三终止子帧号和/或第三终止符号,所述第三频率信息用于指示发送所述第二控制信息的频率,所述第三频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  14. 根据权利要求2所述的方法,其特征在于,所述系统消息包括:第四配置参数,
    当所述第一控制信息不需进行分段传输时,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,所述第四调度周期用于确定传输所述第一控制信息的系统帧号和起始子帧号,或者,所述第四偏移量和所述第四调度周期用于确定传输所述第一控制信息的系统帧号和起始子帧号,所述第四起始时刻用于确定传输所述第一控制信息的第四起始符号;或者,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,所述第 四调度周期用于确定传输所述第一控制信息的系统帧号,或者,所述第四偏移量和所述第四调度周期用于确定传输所述第一控制信息的系统帧号,所述第四起始时刻用于确定传输所述第一控制信息的第四起始子帧号和/或第四起始符号;所述第四终止时刻包括第四终止子帧号和/或第四终止符号,所述第四频率信息用于指示发送所述第一控制信息的频率,所述第四频率信息包括以下至少一项:窄带中心频率、窄带索引值;
    当所述第一控制信息需进行分段传输时,所述第四配置参数还包括以下至少一种:分段数、重复方式,所述重复方式为:依次间隔传输不同分段信息,或,将当前分段信息重复传输完成之后,再重复传输下一个分段信息。
  15. 根据权利要求3或4所述的方法,其特征在于,所述第二控制信息包括:第四配置参数;
    当所述第一控制信息不需进行分段传输时,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;或者,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;
    当所述第一控制信息需进行分段传输时,所述第四配置参数还包括以下至少一种:分段数、重复方式。
  16. 根据权利要求6所述的方法,其特征在于,所述第一控制信息包括第五配置参数,
    所述第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五重复次数、第五重复模式、第五频率信息;所述第五偏移量用于指示所述第三控制信息的起始时刻滞后于所述第一控制信息起始时刻或终止时刻的偏移量,或者,所述第五调度周期用于确定传输所述第三控制信息的系统帧号和起始子帧号,或者,所述第五偏移量和所述第五调度周期用于确定传输所述第三控制信 息的系统帧号和起始子帧号,所述第五起始时刻用于确定传输所述第三控制信息的第五起始符号;
    或者,所述第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五终止时刻、第五重复次数、第五重复模式、第五频率信息;所述第五偏移量用于指示所述第三控制信息的起始时刻滞后于所述第一控制信息起始时刻或终止时刻的偏移量,或者,所述第五调度周期用于确定传输所述第三控制信息的系统帧号,或者,所述第五偏移量和所述第五调度周期用于确定传输所述第三控制信息的系统帧号,所述第五起始时刻用于确定传输所述第三控制信息的第五起始子帧号和/或第五起始符号;
    所述第五终止时刻包括第五终止子帧号和/或第五终止符号,所述第五频率信息用于指示发送所述第三控制信息的频率,所述第五频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  17. 一种数据传输方法,其特征在于,包括:
    终端设备接收基站设备发送的第一控制信息,所述第一控制信息用于控制多播业务数据的重复传输;
    所述终端设备根据所述第一控制信息接收所述基站设备发送的所述多播业务数据。
  18. 根据权利要求17所述的方法,其特征在于,还包括:
    所述终端设备接收所述基站设备发送的系统消息,所述系统消息用于控制所述第一控制信息的重复传输。
  19. 根据权利要求17所述的方法,其特征在于,还包括:
    所述终端设备接收所述基站设备发送的第二控制信息,所述第二控制信息用于控制所述第一控制信息的重复传输。
  20. 根据权利要求19所述的方法,其特征在于,还包括:
    所述终端设备接收所述基站设备发送的系统消息;
    其中,所述系统消息用于控制所述第二控制信息的重复传输,和/或,所述系统消息用于控制所述第一控制信息的重复传输。
  21. 根据权利要求17-20中任一项所述的方法,其特征在于,还 包括:
    所述终端设备接收所述基站设备发送的第三控制信息,所述第三控制信息用于控制所述多播业务数据的重复传输。
  22. 根据权利要求21所述的方法,其特征在于,
    所述第一控制信息具体用于控制所述第三控制信息的重复传输;或者,
    所述第一控制信息还用于控制所述第三控制信息的重复传输。
  23. 根据权利要求17-22中任一项所述的方法,其特征在于,还包括:
    所述终端设备接收所述基站设备发送的修改通知,所述修改通知用于通知所述第一控制信息发生改变,所述修改通知中携带有第一无线网络临时标识RNTI。
  24. 根据权利要求23所述的方法,其特征在于,还包括:
    所述终端设备接收所述基站设备发送的系统消息,所述系统消息用于控制所述修改通知的重复传输。
  25. 根据权利要求17-20中任一项所述的方法,其特征在于,所述第一控制信息包括第一配置参数,
    所述第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一重复次数、第一重复模式、调制编码策略MCS、传输块大小TBS、会话标识session ID、临时移动组标识TMGI、第一频率信息;所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号和起始子帧号,或者,所述第一偏移量和所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号和起始子帧号,所述第一起始时刻用于确定传输所述多播业务数据或发送所述第三控制信息的第一起始符号;
    或者,所述第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一终止时刻、第一重复次数、第一重复模式、MCS、TBS、session ID、TMGI、第一频率信息;所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的 系统帧号,或者,所述第一偏移量和所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号,所述第一起始时刻用于确定传输所述多播业务数据或发送所述第三控制信息的第一起始子帧号和/或第一起始符号;
    所述第一终止时刻包括第一终止子帧号和/或第一终止符号,所述第一频率信息用于指示发送所述多播业务数据或发送所述第三控制信息的频率,所述第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  26. 根据权利要求21或22所述的方法,其特征在于,所述第三控制信息包括第一配置参数,所述第一配置参数包括以下至少一项:
    第一偏移量、第一重复次数、第一重复模式、MCS、TBS、第一频率信息;
    所述第一偏移量用于指示所述多播业务数据的起始时刻滞后于所述第三控制信息起始时刻或终止时刻的偏移量,所述起始时刻指的是起始子帧号或起始系统帧号,所述终止时刻指的是终止子帧号或终止系统帧号;所述第一频率信息用于指示发送所述多播业务数据的频率,所述第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  27. 根据权利要求24所述的方法,其特征在于,所述系统消息包括:第二配置参数,
    所述第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二重复次数、第二重复模式、第二频率信息,所述第二调度周期用于确定传输所述修改通知的系统帧号和起始子帧号,或者,所述第二偏移量和所述第二调度周期用于确定传输所述修改通知的系统帧号和起始子帧号,所述第二起始时刻用于确定传输所述修改通知的第二起始符号;
    或者,所述第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二终止时刻、第二重复次数、第二重复模式、第二频率信息;所述第二调度周期用于确定传输所述修改通知 的系统帧号,或者,所述第二偏移量和所述第二调度周期用于确定传输所述修改通知的系统帧号,所述第二起始时刻用于确定传输所述修改通知的第二起始子帧号和/或第二起始符号;
    所述第二终止时刻包括第二终止子帧号和/或第二终止符号,所述第二频率信息用于指示发送所述修改通知的频率,所述第二频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  28. 根据权利要求19或20所述的方法,其特征在于,所述第二控制信息用第一RNTI或第二RNTI进行加扰;所述第一RNTI用于当所述第一控制信息发生改变时对所述第二控制信息进行加扰,所述第一RNTI还用于指示所述第一控制信息发生改变;所述第二RNTI用于当所述第一控制信息未发生改变时对所述第二控制信息进行加扰;
    或者,所述第二控制信息还用于通知所述第一控制信息发生改变。
  29. 根据权利要求20所述的方法,其特征在于,所述系统消息包括:第三配置参数,
    所述第三配置参数包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三重复次数、第三重复模式、第三频率信息;所述第三调度周期用于确定传输所述第二控制信息的系统帧号和起始子帧号,或者,所述第三偏移量和所述第三调度周期用于确定传输所述第二控制信息的系统帧号和起始子帧号,所述第三起始时刻用于确定传输所述第二控制信息的第三起始符号;
    或者,所述第三配置参数包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三终止时刻、第三重复次数、第三重复模式、第三频率信息;所述第三调度周期用于确定传输所述第二控制信息的系统帧号,或者,所述第三偏移量和所述第三调度周期用于确定传输所述第二控制信息的系统帧号,所述第三起始时刻用于确定传输所述第二控制信息的第三起始子帧号和/或第三起始符号;
    所述第三终止时刻包括第三终止子帧号和/或第三终止符号,所 述第三频率信息用于指示发送所述第二控制信息的频率,所述第三频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  30. 根据权利要求18所述的方法,其特征在于,所述系统消息包括:第四配置参数,
    当所述第一控制信息不需进行分段传输时,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,所述第四调度周期用于确定传输所述第一控制信息的系统帧号和起始子帧号,或者,所述第四偏移量和所述第四调度周期用于确定传输所述第一控制信息的系统帧号和起始子帧号,所述第四起始时刻用于确定传输所述第一控制信息的第四起始符号;或者,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,所述第四调度周期用于确定传输所述第一控制信息的系统帧号,或者,所述第四偏移量和所述第四调度周期用于确定传输所述第一控制信息的系统帧号,所述第四起始时刻用于确定传输所述第一控制信息的第四起始子帧号和/或第四起始符号;所述第四终止时刻包括第四终止子帧号和/或第四终止符号,所述第四频率信息用于指示发送所述第一控制信息的频率,所述第四频率信息包括以下至少一项:窄带中心频率、窄带索引值;
    当所述第一控制信息需进行分段传输时,所述第四配置参数还包括以下至少一种:分段数、重复方式,所述重复方式为:依次间隔传输不同分段信息,或,将当前分段信息重复传输完成之后,再重复传输下一个分段信息。
  31. 根据权利要求19或20所述的方法,其特征在于,所述第二控制信息包括:第四配置参数;
    当所述第一控制信息不需进行分段传输时,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;或者,所述 第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;
    当所述第一控制信息需进行分段传输时,所述第四配置参数还包括以下至少一种:分段数、重复方式。
  32. 根据权利要求22所述的方法,其特征在于,所述第一控制信息包括第五配置参数,
    所述第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五重复次数、第五重复模式、第五频率信息;所述第五偏移量用于指示所述第三控制信息的起始时刻滞后于所述第一控制信息起始时刻或终止时刻的偏移量,或者,所述第五调度周期用于确定传输所述第三控制信息的系统帧号和起始子帧号,或者,所述第五偏移量和所述第五调度周期用于确定传输所述第三控制信息的系统帧号和起始子帧号,所述第五起始时刻用于确定传输所述第三控制信息的第五起始符号;
    或者,所述第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五终止时刻、第五重复次数、第五重复模式、第五频率信息;所述第五偏移量用于指示所述第三控制信息的起始时刻滞后于所述第一控制信息起始时刻或终止时刻的偏移量,或者,所述第五调度周期用于确定传输所述第三控制信息的系统帧号,或者,所述第五偏移量和所述第五调度周期用于确定传输所述第三控制信息的系统帧号,所述第五起始时刻用于确定传输所述第三控制信息的第五起始子帧号和/或第五起始符号;
    所述第五终止时刻包括第五终止子帧号和/或第五终止符号,所述第五频率信息用于指示发送所述第三控制信息的频率,所述第五频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  33. 一种基站设备,其特征在于,包括:
    处理单元,用于确定第一控制信息,所述第一控制信息用于控制多播业务数据的重复传输;
    发送单元,用于向终端设备发送所述处理单元确定出的所述第一控制信息,并根据所述第一控制信息向所述终端设备发送所述多播业务数据。
  34. 根据权利要求33所述的基站设备,其特征在于,
    所述发送单元,还用于向所述终端设备发送系统消息,所述系统消息用于控制所述第一控制信息的重复传输。
  35. 根据权利要求33所述的基站设备,其特征在于,
    所述发送单元,还用于向所述终端设备发送第二控制信息,所述第二控制信息用于控制所述第一控制信息的重复传输。
  36. 根据权利要求35所述的基站设备,其特征在于,
    所述发送单元,还用于向所述终端设备发送系统消息;
    其中,所述系统消息用于控制所述第二控制信息的重复传输,和/或,所述系统消息用于控制所述第一控制信息的重复传输。
  37. 根据权利要求33-36中任一项所述的基站设备,其特征在于,
    所述发送单元,还用于向所述终端设备发送第三控制信息,所述第三控制信息用于控制所述多播业务数据的重复传输。
  38. 根据权利要求37所述的基站设备,其特征在于,
    所述发送单元发送的所述第一控制信息具体用于控制所述第三控制信息的重复传输;或者,
    所述发送单元发送的所述第一控制信息还用于控制所述第三控制信息的重复传输。
  39. 根据权利要求33-38中任一项所述的基站设备,其特征在于,
    所述发送单元,还用于向所述终端设备发送修改通知,所述修改通知用于通知所述第一控制信息发生改变,所述修改通知中携带有第一无线网络临时标识RNTI。
  40. 根据权利要求39所述的基站设备,其特征在于,
    所述发送单元,还用于向所述终端设备发送系统消息,所述系统消息用于控制所述修改通知的重复传输。
  41. 根据权利要求33-40中任一项所述的基站设备,其特征在于, 所述发送单元发送的所述第一控制信息包括第一配置参数,
    所述第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一重复次数、第一重复模式、调制编码策略MCS、传输块大小TBS、会话标识session ID、临时移动组标识TMGI、第一频率信息;所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号和起始子帧号,或者,所述第一偏移量和所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号和起始子帧号,所述第一起始时刻用于确定传输所述多播业务数据或发送所述第三控制信息的第一起始符号;
    或者,所述第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一终止时刻、第一重复次数、第一重复模式、MCS、TBS、session ID、TMGI、第一频率信息;所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号,或者,所述第一偏移量和所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号,所述第一起始时刻用于确定传输所述多播业务数据或发送所述第三控制信息的第一起始子帧号和/或第一起始符号;
    所述第一终止时刻包括第一终止子帧号和/或第一终止符号,所述第一频率信息用于指示发送所述多播业务数据或发送所述第三控制信息的频率,所述第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  42. 根据权利要求37或38所述的基站设备,其特征在于,所述发送单元发送的所述第三控制信息包括第一配置参数,所述第一配置参数包括以下至少一项:
    第一偏移量、第一重复次数、第一重复模式、MCS、TBS、第一频率信息;
    所述第一偏移量用于指示所述多播业务数据的起始时刻滞后于所述第三控制信息起始时刻或终止时刻的偏移量,所述起始时刻指的是起始子帧号或起始系统帧号,所述终止时刻指的是终止子帧号或终 止系统帧号;所述第一频率信息用于指示发送所述多播业务数据的频率,所述第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  43. 根据权利要求40所述的基站设备,其特征在于,所述发送单元发送的所述系统消息包括:第二配置参数,
    所述第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二重复次数、第二重复模式、第二频率信息;所述第二调度周期用于确定传输所述修改通知的系统帧号和起始子帧号,或者,所述第二偏移量和所述第二调度周期用于确定传输所述修改通知的系统帧号和起始子帧号,所述第二起始时刻用于确定传输所述修改通知的第二起始符号;
    或者,所述第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二终止时刻、第二重复次数、第二重复模式、第二频率信息;所述第二调度周期用于确定传输所述修改通知的系统帧号,或者,所述第二偏移量和所述第二调度周期用于确定传输所述修改通知的系统帧号,所述第二起始时刻用于确定传输所述修改通知的第二起始子帧号和/或第二起始符号;
    所述第二终止时刻包括第二终止子帧号和/或第二终止符号,所述第二频率信息用于指示发送所述修改通知的频率,所述第二频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  44. 根据权利要求35或36所述的基站设备,其特征在于,所述发送单元发送的所述第二控制信息用第一RNTI或第二RNTI进行加扰;所述第一RNTI用于当所述第一控制信息发生改变时对所述第二控制信息进行加扰,所述第一RNTI还用于指示所述第一控制信息发生改变;所述第二RNTI用于当所述第一控制信息未发生改变时对所述第二控制信息进行加扰;
    或者,所述第二控制信息还用于通知所述第一控制信息发生改变。
  45. 根据权利要求36所述的基站设备,其特征在于,所述发送 单元发送的所述系统消息包括:第三配置参数,
    所述第三配置参数包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三重复次数、第三重复模式、第三频率信息;所述第三调度周期用于确定传输所述第二控制信息的系统帧号和起始子帧号,或者,所述第三偏移量和所述第三调度周期用于确定传输所述第二控制信息的系统帧号和起始子帧号,所述第三起始时刻用于确定传输所述第二控制信息的第三起始符号;
    或者,所述第三配置参数包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三终止时刻、第三重复次数、第三重复模式、第三频率信息;所述第三调度周期用于确定传输所述第二控制信息的系统帧号,或者,所述第三偏移量和所述第三调度周期用于确定传输所述第二控制信息的系统帧号,所述第三起始时刻用于确定传输所述第二控制信息的第三起始子帧号和/或第三起始符号;
    所述第三终止时刻包括第三终止子帧号和/或第三终止符号,所述第三频率信息用于指示发送所述第二控制信息的频率,所述第三频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  46. 根据权利要求34所述的基站设备,其特征在于,所述发送单元发送的所述系统消息包括:第四配置参数,
    当所述第一控制信息不需进行分段传输时,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,所述第四调度周期用于确定传输所述第一控制信息的系统帧号和起始子帧号,或者,所述第四偏移量和所述第四调度周期用于确定传输所述第一控制信息的系统帧号和起始子帧号,所述第四起始时刻用于确定传输所述第一控制信息的第四起始符号;或者,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,所述第四调度周期用于确定传输所述第一控制信息的系统帧号,或者,所述第四偏移量和所述第四调度周期用于确定传输所述第一控制信息的 系统帧号,所述第四起始时刻用于确定传输所述第一控制信息的第四起始子帧号和/或第四起始符号;所述第四终止时刻包括第四终止子帧号和/或第四终止符号,所述第四频率信息用于指示发送所述第一控制信息的频率,所述第四频率信息包括以下至少一项:窄带中心频率、窄带索引值;
    当所述第一控制信息需进行分段传输时,所述第四配置参数还包括以下至少一种:分段数、重复方式,所述重复方式为:依次间隔传输不同分段信息,或,将当前分段信息重复传输完成之后,再重复传输下一个分段信息。
  47. 根据权利要求35或36所述的基站设备,其特征在于,所述发送单元发送的所述第二控制信息包括:第四配置参数;
    当所述第一控制信息不需进行分段传输时,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;或者,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;
    当所述第一控制信息需进行分段传输时,所述第四配置参数还包括以下至少一种:分段数、重复方式。
  48. 根据权利要求38所述的基站设备,其特征在于,所述发送单元发送的所述第一控制信息包括第五配置参数,
    所述第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五重复次数、第五重复模式、第五频率信息;所述第五偏移量用于指示所述第三控制信息的起始时刻滞后于所述第一控制信息起始时刻或终止时刻的偏移量,或者,所述第五调度周期用于确定传输所述第三控制信息的系统帧号和起始子帧号,或者,所述第五偏移量和所述第五调度周期用于确定传输所述第三控制信息的系统帧号和起始子帧号,所述第五起始时刻用于确定传输所述第三控制信息的第五起始符号;
    或者,所述第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五终止时刻、第五重复次数、第五重复模式、第五频率信息;所述第五偏移量用于指示所述第三控制信息的起始时刻滞后于所述第一控制信息起始时刻或终止时刻的偏移量,或者,所述第五调度周期用于确定传输所述第三控制信息的系统帧号,或者,所述第五偏移量和所述第五调度周期用于确定传输所述第三控制信息的系统帧号,所述第五起始时刻用于确定传输所述第三控制信息的第五起始子帧号和/或第五起始符号;
    所述第五终止时刻包括第五终止子帧号和/或第五终止符号,所述第五频率信息用于指示发送所述第三控制信息的频率,所述第五频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  49. 一种终端设备,其特征在于,包括:
    接收单元,用于接收基站设备发送的第一控制信息,所述第一控制信息用于控制多播业务数据的重复传输;
    处理单元,用于根据所述接收单元接收到的所述第一控制信息确定所述多播业务数据的重复传输参数;
    所述接收单元,还用于根据所述确定单元确定出的所述多播业务数据的重复传输参数接收所述基站设备发送的所述多播业务数据。
  50. 根据权利要求49所述的终端设备,其特征在于,
    所述接收单元,还用于接收所述基站设备发送的系统消息,所述系统消息用于控制所述第一控制信息的重复传输。
  51. 根据权利要求49所述的终端设备,其特征在于,
    所述接收单元,还用于接收所述基站设备发送的第二控制信息,所述第二控制信息用于控制所述第一控制信息的重复传输。
  52. 根据权利要求51所述的终端设备,其特征在于,
    所述接收单元,还用于接收所述基站设备发送的系统消息;
    其中,所述系统消息用于控制所述第二控制信息的重复传输,和/或,所述系统消息用于控制所述第一控制信息的重复传输。
  53. 根据权利要求49-52中任一项所述的终端设备,其特征在于,
    所述接收单元,还用于接收所述基站设备发送的第三控制信息,所述第三控制信息用于控制所述多播业务数据的重复传输。
  54. 根据权利要求53所述的终端设备,其特征在于,
    所述接收单元接收的所述第一控制信息具体用于控制所述第三控制信息的重复传输;或者,
    所述接收单元接收的所述第一控制信息还用于控制所述第三控制信息的重复传输。
  55. 根据权利要求49-54中任一项所述的终端设备,其特征在于,
    所述接收单元,还用于接收所述基站设备发送的修改通知,所述修改通知用于通知所述第一控制信息发生改变,所述修改通知中携带有第一无线网络临时标识RNTI。
  56. 根据权利要求55所述的终端设备,其特征在于,
    所述接收单元,还用于接收所述基站设备发送的系统消息,所述系统消息用于控制所述修改通知的重复传输。
  57. 根据权利要求49-52中任一项所述的终端设备,其特征在于,所述接收单元接收的所述第一控制信息包括第一配置参数,
    所述第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一重复次数、第一重复模式、调制编码策略MCS、传输块大小TBS、会话标识session ID、临时移动组标识TMGI、第一频率信息;所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号和起始子帧号,或者,所述第一偏移量和所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号和起始子帧号,所述第一起始时刻用于确定传输所述多播业务数据或发送所述第三控制信息的第一起始符号;
    或者,所述第一配置参数包括以下至少一项:第一偏移量、第一调度周期、第一起始时刻、第一终止时刻、第一重复次数、第一重复模式、MCS、TBS、session ID、TMGI、第一频率信息;所述第一调度周期用于确定传输所述多播业务数据或发送所述第三控制信息的系统帧号,或者,所述第一偏移量和所述第一调度周期用于确定传输 所述多播业务数据或发送所述第三控制信息的系统帧号,所述第一起始时刻用于确定传输所述多播业务数据或发送所述第三控制信息的第一起始子帧号和/或第一起始符号;
    所述第一终止时刻包括第一终止子帧号和/或第一终止符号,所述第一频率信息用于指示发送所述多播业务数据或发送所述第三控制信息的频率,所述第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  58. 根据权利要求53或54所述的终端设备,其特征在于,所述接收单元接收的所述第三控制信息包括第一配置参数,所述第一配置参数包括以下至少一项:
    第一偏移量、第一重复次数、第一重复模式、MCS、TBS、第一频率信息;
    所述第一偏移量用于指示所述多播业务数据的起始时刻滞后于所述第三控制信息起始时刻或终止时刻的偏移量,所述起始时刻指的是起始子帧号或起始系统帧号,所述终止时刻指的是终止子帧号或终止系统帧号;所述第一频率信息用于指示发送所述多播业务数据的频率,所述第一频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  59. 根据权利要求56所述的终端设备,其特征在于,所述接收单元接收的所述系统消息包括:第二配置参数,
    所述第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二重复次数、第二重复模式、第二频率信息,所述第二调度周期用于确定传输所述修改通知的系统帧号和起始子帧号,或者,所述第二偏移量和所述第二调度周期用于确定传输所述修改通知的系统帧号和起始子帧号,所述第二起始时刻用于确定传输所述修改通知的第二起始符号;
    或者,所述第二配置参数包括以下至少一项:第二偏移量、第二调度周期、第二起始时刻、第二终止时刻、第二重复次数、第二重复模式、第二频率信息;所述第二调度周期用于确定传输所述修改通知 的系统帧号,或者,所述第二偏移量和所述第二调度周期用于确定传输所述修改通知的系统帧号,所述第二起始时刻用于确定传输所述修改通知的第二起始子帧号和/或第二起始符号;
    所述第二终止时刻包括第二终止子帧号和/或第二终止符号,所述第二频率信息用于指示发送所述修改通知的频率,所述第二频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  60. 根据权利要求51或52所述的终端设备,其特征在于,所述接收单元接收的所述第二控制信息用第一RNTI或第二RNTI进行加扰;所述第一RNTI用于当所述第一控制信息发生改变时对所述第二控制信息进行加扰,所述第一RNTI还用于指示所述第一控制信息发生改变;所述第二RNTI用于当所述第一控制信息未发生改变时对所述第二控制信息进行加扰;
    或者,所述第二控制信息还用于通知所述第一控制信息发生改变。
  61. 根据权利要求52所述的终端设备,其特征在于,所述接收单元接收的所述系统消息包括:第三配置参数,
    所述第三配置参数包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三重复次数、第三重复模式、第三频率信息;所述第三调度周期用于确定传输所述第二控制信息的系统帧号和起始子帧号,或者,所述第三偏移量和所述第三调度周期用于确定传输所述第二控制信息的系统帧号和起始子帧号,所述第三起始时刻用于确定传输所述第二控制信息的第三起始符号;
    或者,所述第三配置参数包括以下至少一项:第三偏移量、第三调度周期、第三起始时刻、第三终止时刻、第三重复次数、第三重复模式、第三频率信息;所述第三调度周期用于确定传输所述第二控制信息的系统帧号,或者,所述第三偏移量和所述第三调度周期用于确定传输所述第二控制信息的系统帧号,所述第三起始时刻用于确定传输所述第二控制信息的第三起始子帧号和/或第三起始符号;
    所述第三终止时刻包括第三终止子帧号和/或第三终止符号,所 述第三频率信息用于指示发送所述第二控制信息的频率,所述第三频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  62. 根据权利要求50所述的终端设备,其特征在于,所述接收单元接收的所述系统消息包括:第四配置参数,
    当所述第一控制信息不需进行分段传输时,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,所述第四调度周期用于确定传输所述第一控制信息的系统帧号和起始子帧号,或者,所述第四偏移量和所述第四调度周期用于确定传输所述第一控制信息的系统帧号和起始子帧号,所述第四起始时刻用于确定传输所述第一控制信息的第四起始符号;或者,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息,所述第四调度周期用于确定传输所述第一控制信息的系统帧号,或者,所述第四偏移量和所述第四调度周期用于确定传输所述第一控制信息的系统帧号,所述第四起始时刻用于确定传输所述第一控制信息的第四起始子帧号和/或第四起始符号;所述第四终止时刻包括第四终止子帧号和/或第四终止符号,所述第四频率信息用于指示发送所述第一控制信息的频率,所述第四频率信息包括以下至少一项:窄带中心频率、窄带索引值;
    当所述第一控制信息需进行分段传输时,所述第四配置参数还包括以下至少一种:分段数、重复方式,所述重复方式为:依次间隔传输不同分段信息,或,将当前分段信息重复传输完成之后,再重复传输下一个分段信息。
  63. 根据权利要求51或52所述的终端设备,其特征在于,所述接收单元接收的所述第二控制信息包括:第四配置参数;
    当所述第一控制信息不需进行分段传输时,所述第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;或者,所述 第四配置参数包括以下至少一种:第四偏移量、第四调度周期、第四起始时刻、第四终止时刻、第四重复次数、第四重复模式、MCS、TBS、第四频率信息;
    当所述第一控制信息需进行分段传输时,所述第四配置参数还包括以下至少一种:分段数、重复方式。
  64. 根据权利要求54所述的终端设备,其特征在于,所述接收单元接收的所述第一控制信息包括第五配置参数,
    所述第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五重复次数、第五重复模式、第五频率信息;所述第五偏移量用于指示所述第三控制信息的起始时刻滞后于所述第一控制信息起始时刻或终止时刻的偏移量,或者,所述第五调度周期用于确定传输所述第三控制信息的系统帧号和起始子帧号,或者,所述第五偏移量和所述第五调度周期用于确定传输所述第三控制信息的系统帧号和起始子帧号,所述第五起始时刻用于确定传输所述第三控制信息的第五起始符号;
    或者,所述第五配置参数包括以下至少一种:第五偏移量、第五调度周期、第五起始时刻、第五终止时刻、第五重复次数、第五重复模式、第五频率信息;所述第五偏移量用于指示所述第三控制信息的起始时刻滞后于所述第一控制信息起始时刻或终止时刻的偏移量,或者,所述第五调度周期用于确定传输所述第三控制信息的系统帧号,或者,所述第五偏移量和所述第五调度周期用于确定传输所述第三控制信息的系统帧号,所述第五起始时刻用于确定传输所述第三控制信息的第五起始子帧号和/或第五起始符号;
    所述第五终止时刻包括第五终止子帧号和/或第五终止符号,所述第五频率信息用于指示发送所述第三控制信息的频率,所述第五频率信息包括以下至少一项:窄带中心频率、窄带索引值。
  65. 一种基站设备,其特征在于,所述基站设备包括:处理器、存储器和收发器;
    所述存储器用于存储计算机执行指令,当所述基站设备运行时, 所述处理器执行所述存储器存储的所述计算机执行指令,以使所述基站设备执行如权利要求1-16任意一项所述的数据传输方法。
  66. 一种终端设备,其特征在于,所述终端设备包括:处理器、存储器和收发器;
    所述存储器用于存储计算机执行指令,当所述终端设备运行时,所述处理器执行所述存储器存储的所述计算机执行指令,以使所述终端设备执行如权利要求17-32任意一项所述的数据传输方法。
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