WO2015180045A1 - 一种数据传输方法、设备及系统 - Google Patents
一种数据传输方法、设备及系统 Download PDFInfo
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- WO2015180045A1 WO2015180045A1 PCT/CN2014/078579 CN2014078579W WO2015180045A1 WO 2015180045 A1 WO2015180045 A1 WO 2015180045A1 CN 2014078579 W CN2014078579 W CN 2014078579W WO 2015180045 A1 WO2015180045 A1 WO 2015180045A1
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- 230000005540 biological transmission Effects 0.000 title claims abstract description 256
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- 238000007781 pre-processing Methods 0.000 claims description 14
- 239000002699 waste material Substances 0.000 abstract description 3
- 238000012545 processing Methods 0.000 description 14
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- 238000012986 modification Methods 0.000 description 4
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- 238000012546 transfer Methods 0.000 description 2
- 101000741965 Homo sapiens Inactive tyrosine-protein kinase PRAG1 Proteins 0.000 description 1
- 102100038659 Inactive tyrosine-protein kinase PRAG1 Human genes 0.000 description 1
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/12—Wireless traffic scheduling
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/12—Wireless traffic scheduling
- H04W72/1263—Mapping of traffic onto schedule, e.g. scheduled allocation or multiplexing of flows
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/0446—Resources in time domain, e.g. slots or frames
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/0453—Resources in frequency domain, e.g. a carrier in FDMA
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/046—Wireless resource allocation based on the type of the allocated resource the resource being in the space domain, e.g. beams
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/0466—Wireless resource allocation based on the type of the allocated resource the resource being a scrambling code
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W74/00—Wireless channel access
- H04W74/08—Non-scheduled access, e.g. ALOHA
- H04W74/0808—Non-scheduled access, e.g. ALOHA using carrier sensing, e.g. carrier sense multiple access [CSMA]
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
Definitions
- the present invention relates to the field of communications technologies, and in particular, to a data transmission method, device, and system. Background technique
- Spectrum resources are the basis of wireless communications. Different communication systems or communication devices are assigned to use different spectrum resources, and different communication systems use their respective spectrum resources in accordance with their respective rules. In the prior art, there are also spectrum resources that can be used by different communication systems, for example: unlicensed spectrum resources.
- unlicensed spectrum resources are mainly used for WiFi (Wireless Fidelity).
- WiFi Wireless Fidelity
- QoS quality of service
- Unlicensed spectrum resources can also provide more efficient wireless access to meet the growing demand for mobile broadband services. Since there is no constraint on the use of wireless communication systems and operators on the unlicensed spectrum, then multiple operators with multiple communication systems on the unlicensed spectrum want to occupy the same spectrum resources.
- ETSI EN 301 893 issued by the European Telecommunications Standards Institute, ET SI (EN Telecommunications Standards Institute), for unlicensed spectrum
- ET SI EN Telecommunications Standards Institute
- the wireless communication system needs to follow the LBT rule when communicating with the unlicensed spectrum, that is, the node first listens to whether the channel is idle before using the channel on the unlicensed spectrum, and if the channel is idle, The channel on the unlicensed spectrum is used, but the time taken to occupy the channel is limited.
- the channel After the time to occupy the channel reaches the maximum limit, the channel must be released for a period of time.
- ETSI ETSI
- EN 301 893 the maximum time that a wireless communication system occupies an unlicensed spectrum channel at a time is 13 ms. Before the next time the channel is to be occupied, it must be monitored again whether the channel is free.
- LTE Long Term Evolution
- the user equipment (UE, User Equipment) of the LTE system needs to monitor whether the channel is idle before using the channel on the unlicensed spectrum. If the channel is idle, the channel is used to transmit uplink data.
- the system resources are allocated by using the dynamic shared resource scheduling mode.
- the occupied wireless communication resources and the data transmission coding mode are controlled by the eNodeB (Evolved NodeB). Signaling to indicate.
- the relationship between the uplink data transmission and the corresponding uplink data scheduling is predefined.
- the UE detects the PDCCH/EPDCCH transmitted by the eNodeB for scheduling the UE to transmit uplink data in the subframe #n, the UE is in the subframe #n +4 is performed according to the indications of the Physical Downlink Control Channel (PDCCH), the Enhanced Physical Downlink Control Channel (EPDCCH), and the Physical Hybrid ARQ Indicator Channel (PHICH).
- PDCH Physical Downlink Control Channel
- EPDCCH Enhanced Physical Downlink Control Channel
- PHICH Physical Hybrid ARQ Indicator Channel
- the UE when the UE detects the PDCCH/EPDCCH transmitted by the eNodeB for scheduling the UE to transmit uplink data in the subframe #n, the UE follows the indications of the PDCCH/EPDCCH and the PHICH in the subframe #n+k. Perform uplink data transmission, where the value of k is related to the uplink and downlink ratio configuration of TDD and n, as shown in Table 1:
- the FDD system when the unlicensed spectrum is used as the operating spectrum of the LTE system, the FDD system is used as an example.
- the FDD system assumes that the UE receives the uplink data scheduling information sent by the eNodeB through the PDCCH in the subframe #n-4, and needs to be in the subframe #n direction.
- the eNodeB sends the PUSCH, and on the eNodeB side, whether the UE can obtain the uplink data in the subframe #n by listening to the channel of the unlicensed spectrum, the eNodeB cannot be "not known" in the Subframe #n-4.
- the eNodeB performs uplink data scheduling on the unlicensed spectrum channel for the UE (for example, in the FDD system in Subframe #n-4), and the UE is in accordance with the existing uplink data scheduling and transmission timing relationship of the LTE system, prepare for the subframe # When the uplink data is sent, it is detected that the unlicensed spectrum channel resource is occupied, and the uplink data cannot be sent on the channel according to the indication of the eNodeB, and the eNodeB is not aware of whether the unlicensed spectrum channel detected by the UE side is occupied, eNodeB It is mistaken that the UE has transmitted uplink data according to the scheduling indication, and receives demodulated uplink data in subframe #n.
- the eNodeB Since the UE fails to obtain the opportunity to send uplink data on subframe #n, the eNodeB determines that the data transmission fails, and mistakenly believes that the data transmission failure caused by the poor channel quality, the eNodeB will store or merge the reception demodulation result into the soft storage. In the area, the wrong data transmission result is obtained, which reduces the transmission efficiency of the wireless communication system.
- the eNodeB when the UE detects that the channel of the unlicensed spectrum is idle, the channel resource is pre-occupied, and the information about the available spectrum channel is notified to the eNodeB. After receiving the notification that the unlicensed frequency channel is available, the eNodeB performs scheduling of uplink data transmission to the UE. For example, if the UE confirms that the uplink data can be sent on the unlicensed channel, the UE sends the random data on the channel from the subframe #n to ensure that the UE is still in the subframe #n+x.
- the UE To use the channel, and the UE notifies the eNodeB of the message that the channel can occupy the channel, so that after receiving the notification from the UE, the eNodeB can schedule the UE to transmit the uplink data on the subframe #n+x of the channel of the unlicensed spectrum. .
- the embodiments of the present invention provide a data transmission method, device, and system, which are used to solve the problem of large power loss of a scheduled node and waste of wireless communication resources in the prior art.
- a data transmission method including:
- the preset spectrum resource has the following features: the preset needs to be intercepted before occupying the preset spectrum resource.
- the use of spectrum resources, and the occupation time of each of the preset spectrum resources is limited;
- the scheduled node can perform data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication, where the second TTI is used to send the scheduled node according to the scheduling Determining a TTI for performing data transmission, and the second TTI is a time sequence after the first TTI and having a preset timing relationship with the first TTI;
- the data transmitted on the second TTI is determined by the preset spectrum resource as data sent by the scheduled node.
- the second TTI and the first TTI have a preset fixed timing relationship; determining that the scheduled node is capable of performing the Presetting the spectrum resource, performing data transmission on the second TTI, specifically: determining, by using the specified spectrum resource, receiving a notification message sent by the scheduled node on the third TTI, where the notification message is used Instructing the scheduled node to occupy the preset spectrum resource in the second TTI, where the specified spectrum resource is allocated to the wireless communication system where the scheduled node is located
- the spectrum resource used by the system, the third TTI is a frame whose timing is not after the second TTI.
- the second ⁇ has a preset fixed timing relationship with the first ⁇ ; determining that the scheduled node can follow the scheduling indication, Before the data transmission is performed on the second port, the method further includes: receiving and pre-processing data transmitted on the second port by using the preset spectrum resource; determining the scheduled node And performing, according to the scheduling indication, performing data transmission on the second port by using the preset spectrum resource, specifically: determining, by using a specified spectrum resource, receiving a notification sent by the scheduled node on a third port a message, where the notification message is used to indicate that the scheduled node is capable of occupying the preset spectrum resource in the second port, where the specified spectrum resource is allocated to a wireless communication system where the scheduled node is located.
- the spectrum resource, the third ⁇ is the ⁇ after the second ⁇ .
- the second ⁇ has a preset fixed timing relationship with the first ⁇ ; determining that the scheduled node is capable of following the scheduling indication by using the Determining a spectrum resource, performing data transmission on the second port, specifically: determining, according to the detected information of the signal sent by the scheduled node on the second port by using the preset spectrum resource, The scheduled node can perform data transmission on the second port by using the preset spectrum resource according to the scheduling indication.
- the second ⁇ is any one of a plurality of ⁇ preset preset first scheduling windows; or the second ⁇ is indicated by the scheduling indication Determining, by the scheduled node, the data transmission on the second port by using the preset spectrum resource according to the scheduling indication, specifically: determining And receiving, by using the specified spectrum resource, a notification message sent by the scheduled node, where the notification message is used to indicate that the scheduled node is in the second And occupying the preset spectrum resource, where the specified spectrum resource is a spectrum resource allocated to the wireless communication system where the scheduled node is located, and each third ⁇ in the second scheduling window is in the first scheduling window.
- Each of the second ⁇ - corresponding, and the timing is not after the second ⁇ corresponding to the third ;; will pass the preset spectrum resource, in the
- the data transmitted on the two TTIs is determined to be the data sent by the scheduled node, and specifically includes: a second TTI corresponding to the third TTI that receives the notification message in each second TTI of the first scheduling window.
- data transmitted by the scheduled spectrum resource is used to determine data sent by the scheduled node.
- the second TTI is any one of a plurality of TTIs that preset a first scheduling window; or the second TTI is indicated by the scheduling indication Any TTI of the plurality of TTIs of the first scheduling window; before determining that the scheduled node can perform data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication, Receiving and pre-processing data transmitted on each second TTI of the first scheduling window by using the preset spectrum resource; determining that the scheduled node can pass the preset spectrum according to the scheduling indication And performing the data transmission on the second TTI, where the method includes: determining, by using the specified spectrum resource, the notification message sent by the scheduled node, where the third TTI is determined, where The notification message is used to indicate that the scheduled node can occupy the preset spectrum resource in the second TTI, and the specified spectrum resource is allocated to the scheduled node.
- each third TTI in the second scheduling window is corresponding to each second TTI in the first scheduling window, and the timing is in the second corresponding to the third TTI.
- the data transmitted on the second TTI by using the preset spectrum resource is determined to be the data sent by the scheduled node, and specifically includes: the receiving the data from the preset spectrum resource. Determining, in each second TTI of the first scheduling window, a second TTI corresponding to the third TTI that receives the notification message; and determining the data transmitted on the determined second TTI as the data sent by the scheduled node .
- the second TTI is any one of a plurality of TTIs of a preset first scheduling window; or the second TTI is indicated by the scheduling indication Any one of the plurality of TTIs of the first scheduling window; determining that the scheduled node is capable of performing data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication, specifically: Detecting any second of the scheduled nodes in the first scheduling window
- the scheduling indicates that data transmission is performed on the second TTI by using the preset spectrum resource.
- the scheduling indication according to the information about the signal sent by the preset spectrum resource, specifically including: Detecting, by the scheduled node, the energy of the data sent by the preset spectrum resource on the second TTI; determining that the scheduled node is in accordance with the detected threshold energy is greater than the first threshold And the scheduling indication, by using the preset spectrum resource, performing data transmission on the second TTI; or detecting, by sequence correlation, the scheduled node on the second TTI, by using the preset spectrum resource And a preset reference sequence that is sent; when it is detected that the received preset reference sequence has a magnitude greater than a second threshold, determining that
- the timings are the same.
- resource allocation is performed for a first scheduling window having a second TTI of the same timing using different preset spectrum resources; and resources are allocated for a second scheduling window having the same timing third TTI by using different specified spectrum resources.
- the first TTIs for transmitting different scheduling indications for the same scheduled node are used, in the first scheduling window corresponding to the timings, respectively, when the second TTIs having the same timing are used, different preset spectrum resources are used.
- resource allocation for the first scheduling window with the same timing second TTI; and using different specified spectrum The resource is allocated for the second scheduling window of the third TTI in the same time sequence, where the preset spectrum resource or the specified spectrum resource includes a frequency domain resource, an air domain resource, and a code domain resource.
- a data transmission method including:
- the scheduling node And receiving, by the scheduling node, a scheduling indication that uses the preset spectrum resource transmission data, where the preset spectrum resource has the following characteristics: occupying the preset spectrum Before the resource is used, the usage of the preset spectrum resource needs to be monitored, and the occupation time of the preset spectrum resource is limited.
- the second TTI is used to send data transmitted for the scheduling indication, and the second TTI is periodically after the first TTI and has a preset with the first TTI.
- the timing of the relationship is used to send data transmitted for the scheduling indication, and the second TTI is periodically after the first TTI and has a preset with the first TTI. The timing of the relationship.
- the second ⁇ and the first ⁇ have a preset fixed timing relationship; when it is determined that the scheduling indicator can be used, the preset spectrum resource is adopted And performing data transmission in the second ⁇ by using the preset spectrum resource when performing data transmission on the second ,, specifically: when determining that the preset spectrum resource is available on the second ⁇ And transmitting a notification message on the third port by using the specified spectrum resource; and performing data transmission on the second port by using the preset spectrum resource; wherein the notification message is used to indicate the scheduled node And locating the preset spectrum resource in the second , where the specified spectrum resource is a spectrum resource allocated to a wireless communication system where the scheduling node is located, where the third ⁇ has a pre-determination with the second ⁇ Set the relationship of the timing relationship.
- the second UI is any one of a plurality of presets of the preset first scheduling window; or the second UI is indicated by the scheduling indication Any one of the plurality of frames of the first scheduling window; when it is determined that the data transmission may be performed on the second frame by using the preset spectrum resource according to the scheduling indication, by using the preset spectrum resource
- the method specifically includes: when determining that the second ⁇ of the first scheduling window, any second ⁇ exists, and the preset spectrum resource is on the any second ⁇ When available, data transmission is performed on the second frame of the available preset spectrum resources by using the preset spectrum resource.
- the method further includes: sending, by using the specified spectrum resource, a notification message, in a third TTI corresponding to the second TTI of the available preset spectrum resource, in each third ⁇ of the second scheduling window, where The notification message is used to indicate that the scheduled node can occupy the preset spectrum resource in the second TTI, where the specified spectrum resource is a spectrum resource allocated to a wireless communication system where the scheduling node is located,
- Each third TTI in the second scheduling window corresponds to each second TTI in the first scheduling window and has a preset fixed timing relationship.
- a data transmission device including:
- a sending module configured to send, to the scheduled node, a scheduling indication that uses the preset spectrum resource to transmit data, where the preset spectrum resource has the following features: Before the preset spectrum resource is occupied, the sending module needs to detect Listening to the usage of the preset spectrum resource, and occupying a limited time for each of the preset spectrum resources;
- a first determining module configured to determine that the scheduled node is capable of performing data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication sent by the sending module, where the second TTI is And a TTI for transmitting, by the scheduled node, data transmission according to the scheduling indication, and the second TTI is periodically after the first TTI, and has a preset timing relationship with the first TTI.
- a second determining module configured to: after the first determining module determines that the scheduled node is capable of performing data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication sent by the sending module And the data transmitted on the second TTI is determined by the preset spectrum resource to be the data sent by the scheduled node.
- the first determining module is configured to determine, by using a specified spectrum resource, a notification message that is sent by the scheduled node on a third TTI, where The notification message is used to indicate that the scheduled node can occupy the preset spectrum resource in the second port, and the specified spectrum resource is a spectrum resource allocated to a wireless communication system where the scheduled node is located.
- the third TTI is a TTI whose timing is not after the second TTI, and the second TTI has a preset fixed timing relationship with the first TTI.
- the first determining module is further used And determining, by the scheduled node, that the scheduled spectrum resource is received and preprocessed by using the preset spectrum resource, by using the preset spectrum resource, before the data transmission is performed on the second TTI.
- Data transmitted on the second TTI; the first determining module is configured to: determine, by using the specified spectrum resource, the notification message sent by the scheduled node on the third TTI, where the notification message is used to indicate
- the scheduled node can occupy the preset spectrum resource in the second TTI, where the specified spectrum resource is a spectrum resource allocated to the wireless communication system where the scheduled node is located, and the third TTI is in time series.
- the TTI after the second TTI, the second ⁇ and the first TTI have a preset fixed timing relationship. And receiving, by using the specified spectrum resource, the notification message sent by the scheduled node on the third TTI;
- the first determining module is configured to send, by using the preset spectrum resource, the second scheduled TTI, according to the detected The information of the signal, determining that the scheduled node is capable of performing data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication, where the second TTI and the first TTI Has a preset fixed timing relationship.
- the first determining module is specifically configured to determine, by using a specified spectrum resource, the scheduled node, on any third TTI in the second scheduling window. a notification message, where the notification message is used to indicate that the scheduled node can occupy the preset spectrum resource in the second TTI, where the specified spectrum resource is a wireless communication allocated to the scheduled node.
- each third TTI in the second scheduling window is corresponding to each second TTI in the first scheduling window, and the timing is not after the second TTI corresponding to the third TTI;
- the second TTI is any TTI of the multiple TTIs of the preset first scheduling window, or the second TTI is any TTI of the multiple TTIs of the first scheduling window indicated by the scheduling indication;
- the second determining module is configured to: in each second TTI of the first scheduling window, on the second TTI corresponding to the third TTI that receives the notification message, pass the preset frequency
- the spectral resource, the transmitted data determines the data sent for the scheduled node.
- the first determining module is further configured to: after determining that the scheduled node is capable of using the preset spectrum resource according to the scheduling indication, Receiving and pre-processing data transmitted on each second TTI of the first scheduling window by using the preset spectrum resource before the data transmission on the second TTI; the first determining module, specifically And determining, by using the specified spectrum resource, the notification message sent by the scheduled node, where the notification message is used to indicate that the scheduled node is capable of being used in the second TTI.
- the second TTI occupies the preset spectrum resource, where the specified spectrum resource is a spectrum resource allocated to the wireless communication system where the scheduled node is located, and each third TTI and the first in the second scheduling window Each of the plurality of TTIs in the scheduling window is corresponding to, and the timing is after the second TTI corresponding to the third TTI; the second TTI is any TTI of the plurality of TTIs of the preset first scheduling window, or The second TTI is any TTI of the multiple TTIs of the first scheduling window indicated by the scheduling indication; the second determining module is specifically configured to receive the data from the preset spectrum resource. First Each of the second TTI scheduling window, determining a second TTI third TTI corresponding to the received notification message; a second data transmission on the determined TTI determines the data to be transmitted to the scheduling node.
- the first determining module is specifically configured to: pass, according to the detected, the scheduled node, any second TTI in the first scheduling window, And the information about the signal sent by the preset spectrum resource, determining that the scheduled node performs data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication, where the second TTI Presetting any TTI of the plurality of TTIs of the first scheduling window, or the second TTI is any one of the plurality of TTIs of the first scheduling window indicated by the scheduling indication.
- the first determining module is specifically configured to detect the The energy of the data sent by the scheduled node on the second node by the preset spectrum resource; when the detected energy is greater than the first threshold, determining that the scheduled node follows the scheduling indication And performing data transmission on the second port by using the preset spectrum resource; or detecting, by sequence correlation, a preset that is sent by the scheduled node on the second port by using the preset spectrum resource a reference sequence; when it is detected that the received preset reference sequence has a magnitude greater than a second threshold, determining that the scheduled node passes the preset according to the scheduling indication Spectrum resources, performing data transmission on the second TTI.
- the method further includes: an allocating module, where the sending module is configured to send, by the sending module, each first TTI that is used to send scheduling indications for different scheduled nodes, In the first scheduling window corresponding to the timings, when there are second TTIs with the same timing, different preset spectrum resources are used, resource allocation is performed for the first scheduling window with the same timing second TTI; and different designations are used.
- a spectrum resource performing resource allocation for a second scheduling window having the same timing third TTI; or when the sending module is configured to send each first TTI for different scheduling indications of the same scheduled node, respectively corresponding to the timing
- a scheduling window when there is a second TTI with the same timing, different preset spectrum resources are used, so that the same The first scheduling window of the second TTI is used for resource allocation; and the resource allocation is performed for the second scheduling window that has the same timing and the third TTI by using different specified spectrum resources, where the preset spectrum resource or the specified spectrum resource includes Frequency domain resources, airspace resources, code domain resources.
- a data transmission device including:
- a receiving module configured to receive, by using a scheduling parameter, a scheduling indication that uses a preset spectrum resource to be transmitted by the scheduling node, where the preset spectrum resource has the following features: Before the preset spectrum resource is occupied, the receiving indicator needs to detect Listening to the usage of the preset spectrum resource, and occupying a limited time for each of the preset spectrum resources;
- a sending module configured to: when determining, according to the scheduling indication received by the receiving module, by using the preset spectrum resource, when performing data transmission on the second TTI, by using the preset spectrum resource, in the Performing data transmission on the second TTI, where the second TTI is a TTI for transmitting data transmitted for the scheduling indication, and the second TTI is in time series after the first ⁇ , and The first TTI has a preset timing relationship.
- the sending module is specifically configured to: when determining that the preset spectrum resource is available on the second UI, by specifying a spectrum resource, in a third Sending a notification message; and using the preset spectrum resource to advance on the second Row data transmission; wherein the notification message is used to indicate that the scheduled node is capable of being in the second
- the TTI occupies the preset spectrum resource, where the specified spectrum resource is a spectrum resource allocated to the wireless communication system where the scheduling node is located, and the third TTI is a TTI having a preset timing relationship with the second TTI.
- the second TTI and the first TTI have a preset fixed timing relationship.
- the sending module is specifically configured to: when determining a second TTI in the multiple second TTIs of the first scheduling window, When the preset spectrum resource is available on the second TTI, the data transmission is performed on the second TTI of the available preset spectrum resource by using the preset spectrum resource, where the second TTI is preset by the first scheduling window. Any one of a plurality of TTIs; or the second TTI is any one of a plurality of TTIs of the first scheduling window indicated by the scheduling indication.
- the sending module is further configured to: when determining, according to the scheduling indication, pass the preset spectrum resource, Sending a notification message on the third node corresponding to the second ⁇ of the available preset spectrum resource in each third ⁇ of the second scheduling window by specifying the spectrum resource when performing data transmission on the second ⁇
- the notification message is used to indicate that the scheduled node can occupy the preset spectrum resource in the second port, and the specified spectrum resource is a spectrum resource allocated to a wireless communication system where the scheduling node is located.
- Each third ⁇ in the second scheduling window corresponds to each second ⁇ in the first scheduling window and has a preset fixed timing relationship.
- the fifth aspect provides a data transmission system, including: the data transmission device provided by the third aspect or any possible implementation manner of the third aspect, and the fourth aspect or any possible implementation manner of the fourth aspect Data transmission equipment provided.
- a data transmission device including:
- a transmitter configured to send, to the scheduled node, a scheduling indication that uses a preset spectrum resource to transmit data, where the preset spectrum resource has the following features: Before the preset spectrum resource is occupied, the transmitter needs to detect Listening to the usage of the preset spectrum resource, and occupying a limited time for each of the preset spectrum resources;
- a processor configured to determine, by the scheduled node, the scheduling that is sent by the sender Instructing, by using the preset spectrum resource, data transmission on the second TTI; and determining, by using the preset spectrum resource, data transmitted on the second TTI as data sent by the scheduled node,
- the second TTI is used to send a TTI for the scheduled node to perform data transmission according to the scheduling indication, and the second TTI is temporally after the first TTI, and the first TTI TTI has a preset timing relationship.
- the device further includes: a receiver, configured to receive, by using a specified spectrum resource, a third node to receive the sent by the scheduled node. a notification message, where the processor is configured to determine that the receiver receives the notification message sent by the scheduled node by using the specified spectrum resource, where the notification message is used to indicate the
- the scheduling node can occupy the preset spectrum resource in the second frame, where the specified spectrum resource is a spectrum resource allocated to the wireless communication system where the scheduled node is located, and the third frame is not in the sequence.
- the second ⁇ has a predetermined fixed timing relationship with the first ⁇ .
- the device further includes: a receiver, where the receiver is configured to determine, by the processor, that the scheduled node is capable of following the scheduling indication, Receiving and pre-processing data transmitted on the second port through the preset spectrum resource by using the preset spectrum resource before performing data transmission on the second port; and by specifying a spectrum resource, Receiving, by the third node, the notification message sent by the scheduled node, where the processor is configured to determine that the receiver receives the notification message sent by the scheduled node by using the specified spectrum resource, The notification message is used to indicate that the scheduled node can occupy the preset spectrum resource in the second port, where the specified spectrum resource is a spectrum resource allocated to a wireless communication system where the scheduled node is located.
- the third ⁇ is a ⁇ after the second ⁇ , the second ⁇ and the first ⁇ There are preset fixed timing relationship. And receiving, by using the specified spectrum resource, the notification message sent by the scheduled node on the third node;
- the processor is configured to send, by using the preset spectrum resource, the second scheduled node according to the detected scheduled node.
- the information of the signal determining that the scheduled node is capable of performing data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication, where the second TTI and the first TTI Has a preset fixed timing relationship.
- the device further includes: a receiver, configured to receive by using a specified spectrum resource on any third TTI in the second scheduling window The notification message sent by the scheduled node; the processor is specifically configured to determine that the receiver receives the notification sent by the scheduled node by using a specified spectrum resource on any third TTI in the second scheduling window. a message, where the notification message is used to indicate that the scheduled node is capable of occupying the preset spectrum resource in the second TTI, where the specified spectrum resource is allocated to a wireless communication system where the scheduled node is located.
- the third TTI in the second scheduling window corresponds to each second TTI in the first scheduling window, and the timing is not after the second TTI corresponding to the third TTI;
- the second TTI is any TTI of the plurality of frames of the preset first scheduling window, or the second TTI is a plurality of TTs of the first scheduling window indicated by the scheduling indication.
- Any TTI in the first TTI; the processor is configured to: in each second TTI of the first scheduling window, on the second TTI corresponding to the third TTI that receives the notification message, by using the Presetting the spectrum resource, the transmitted data, and determining the data sent by the scheduled node.
- the device further includes: a receiver, where the receiver is configured to determine, by the processor, that the scheduled node is capable of following the scheduling indication, Receiving, by using the preset spectrum resource, data transmitted on each second TTI of the first scheduling window by using the preset spectrum resource before performing data transmission on the second TTI;
- the processor is specifically configured to determine that the receiver receives the notification message sent by the scheduled node by using a specified spectrum resource on any third TTI in the second scheduling window, where the notification message is used. Instructing the scheduled node to occupy the preset spectrum resource in the second TTI, where the specified spectrum resource is a spectrum resource allocated to a wireless communication system where the scheduled node is located, in the second scheduling window.
- Each of the third TTIs corresponds to each of the second TTIs in the first scheduling window, and the timing is after the second TTI corresponding to the third TTI;
- the second TTI is a preset A plurality of TTI any TTI of the scheduling window, or the second ⁇ Any one of a plurality of TTIs of the first scheduling window indicated by the scheduling indication;
- the processor specifically for each of the first scheduling windows that receive data from the preset spectrum resource In the second TTI, the second TTI corresponding to the third TTI that receives the notification message is determined; and in combination with the sixth aspect, in a sixth possible implementation, the processor is specifically configured to detect Obtaining, by the scheduled node, the information of the signal sent by the preset spectrum resource on the second TTI in the first scheduling window, determining, by the scheduled node, according to the scheduling indication, by using the Presetting the spectrum resource, performing data transmission on the second TTI, where the second TTI is any TTI of the multiple TTIs preset by the first scheduling window, or the second
- the processor is specifically configured to detect the scheduled And determining, by the node, the energy of the data that is sent by the preset spectrum resource on the second node; determining that the scheduled node passes the scheduling indication according to the scheduling indication.
- the preset spectrum resource is used for data transmission on the second port; or the sequence reference is used to detect a preset reference sequence that is sent by the scheduled node on the second port by using the preset spectrum resource. When it is detected that the received preset reference sequence has a larger amplitude than the second threshold, determining that the scheduled node passes the preset spectrum resource according to the scheduling indication, on the second Data transfer.
- the processor is further configured to: when the transmitter is configured to send the first ⁇ of the scheduling indications for different scheduled nodes, respectively corresponding to the timing In the first scheduling window, when there is a second frame with the same timing, different preset spectrum resources are used, resource allocation is performed for the first scheduling window having the second sequence of the same sequence; and different designated spectrum resources are used, The second scheduling window of the third sequence performs resource allocation; or when the transmitter is configured to send different scheduling fingers for the same scheduled node
- Each of the first TTIs shown in the first scheduling window corresponding to the timings has a second time sequence with the same timing, and uses different preset spectrum resources to perform resources for the first scheduling window with the same timing second TTI. Allocating; and using different specified spectrum resources, performing resource allocation for a second scheduling window having the same timing
- a data transmission device including:
- a receiver configured to receive, by using a scheduling parameter, a scheduling indication that uses a preset spectrum resource to be transmitted by the scheduling node, where the preset spectrum resource has the following features: Before the preset spectrum resource is occupied, the receiver needs to detect Listening to the usage of the preset spectrum resource, and occupying a limited time for each of the preset spectrum resources;
- a transmitter configured to: when determining, according to the scheduling indication received by the receiver, by using the preset spectrum resource, when performing data transmission on the second TTI, by using the preset spectrum resource, in the Performing data transmission on the second TTI, where the second TTI is a TTI for transmitting data transmitted for the scheduling indication, and the second TTI is temporally after the first TTI, and The first TTI has a preset timing relationship.
- the transmitter is specifically configured to: when determining that the preset spectrum resource is available on the second UI, by specifying a spectrum resource, in a third Transmitting a notification message; and performing data transmission on the second port by using the preset spectrum resource; wherein the notification message is used to indicate that the scheduled node is capable of occupying the pre- a spectrum resource, where the specified spectrum resource is a spectrum resource allocated to the wireless communication system where the scheduling node is located, and the third node is a preset timing relationship with the second node, the second There is a preset fixed timing relationship with the first port.
- the transmitter is specifically configured to: when determining the second ⁇ of the first scheduling window, any second ⁇ , and in the arbitrarily When the preset spectrum resource is available, the data transmission is performed on the second frame of the available preset spectrum resource by using the preset spectrum resource, where the second frame is a preset first scheduling window. Any one of a plurality of ⁇ ; or the second ⁇ is indicated by the scheduling indication Any of a plurality of TTIs of the first scheduling window.
- the transmitter is further configured to: when determining, according to the scheduling indication, pass the preset spectrum resource, Sending a notification message on the third node corresponding to the second ⁇ of the available preset spectrum resource in each third ⁇ of the second scheduling window by specifying the spectrum resource when the data transmission is performed on the second ⁇ The notification message is used to indicate that the scheduled node can be in the second
- the specified spectrum resource is a spectrum resource allocated to the wireless communication system where the scheduling node is located, and each third ⁇ in the second scheduling window is in the first scheduling window.
- the eighth aspect provides a data transmission system, including: the data transmission device provided by any one of the sixth aspect or the sixth aspect, and the data transmission provided by any one of the seventh aspect or the seventh aspect device.
- data transmission is performed on the second frame by presetting the spectrum resource; when the scheduling node determines that the scheduled node can perform data transmission on the second network by using the preset spectrum resource according to the scheduling indication, The data transmitted on the second frame is determined by the preset spectrum resource as the data sent by the scheduled node.
- the data transmission method provided by the embodiment of the present invention after receiving the scheduling indication, is required to determine whether the second transmission of the preset spectrum resource channel can be used according to the scheduling indication, and when the determination result is yes, The data transmission is performed on the second channel through the preset spectrum resource channel according to the scheduling indication, instead of transmitting the preset spectrum resource channel to the scheduling node when determining that the preset spectrum resource channel is idle in the prior art.
- After sending a scheduling indication to the scheduled node Before determining that the data transmitted on the second TTI by the preset spectrum resource channel is the data transmitted by the scheduled node, it is determined that the scheduled node can occupy the preset spectrum resource channel according to the scheduling indication, and the prior art, regardless of being scheduled Whether the node successfully occupies the channel and performs data reception can prevent the scheduling node from erroneously receiving or demodulating from the preset spectrum resource channel without being scheduled when the scheduled node does not send data according to the scheduling indication.
- the data sent by the node is stored or merged into the soft storage area, which improves the transmission efficiency of the wireless communication system.
- FIG. 1 is a flowchart of a data transmission method according to an embodiment of the present invention
- FIG. 2 is a flowchart of a data transmission method according to an embodiment of the present invention.
- FIG. 3 is a flowchart of a data transmission method according to Embodiment 1 of the present invention.
- FIG. 5 is a schematic diagram of resource occupation of a data transmission method according to Embodiment 1 of the present invention
- FIG. 6 is a flowchart of a data transmission method according to Embodiment 3 of the present invention.
- FIG. 7 is a flowchart of a data transmission method according to Embodiment 4 of the present invention.
- FIG. 10 is a flowchart of a data transmission method according to Embodiment 7 of the present invention.
- FIG. 11 is a schematic diagram of resource occupation of a data transmission method according to a second embodiment of the present invention
- FIG. 12 is a schematic structural diagram of a data transmission device according to an embodiment of the present invention
- FIG. 14 is a schematic structural diagram of a third data transmission device according to an embodiment of the present invention
- FIG. 15 is a schematic structural diagram of a fourth data transmission device according to an embodiment of the present invention.
- the embodiment of the invention provides a data transmission method, which is applied to a scheduling node, as shown in FIG. 1 , and includes:
- a scheduling indication that uses a preset spectrum resource to transmit data to the scheduled node, where the preset spectrum resource has the following features: Before the preset spectrum resource is occupied, the PDCCH needs to be detected. The usage of the preset spectrum resource is listened to, and the occupation time of the preset spectrum resource is limited.
- TTI Transmission Time Interval
- the second TTI is a TTI for transmitting a data transmission by the scheduled node according to the scheduling indication, and the second TTI is a TTI that is temporally after the first TTI and has a preset timing relationship with the first TTI.
- the data transmitted on the second TTI by using the preset spectrum resource is determined to be the data sent by the scheduled node.
- the embodiment of the present invention further provides a data transmission method, which is applied to a scheduled node, as shown in FIG. 2, and includes:
- the scheduling instruction of the preset spectrum resource transmission data sent by the scheduling node is received by the first TTI, where the preset spectrum resource has the following features: Before using the preset spectrum resource, the usage of the preset spectrum resource needs to be monitored. And the occupation time of the preset spectrum resource is limited every time.
- the data transmission is performed on the second TTI by using the preset spectrum resource according to the scheduling indication.
- the second TTI is a TTI for transmitting data that is transmitted for the scheduling indication, and the second TTI is ⁇ that is in time series after the first TTI and has a preset timing relationship with the first TTI.
- the scheduling node is configured to send a scheduling indication to the scheduled node, and the scheduled node performs data transmission with the scheduling node according to the scheduling indication
- scheduling The node may be an eNodeB
- the scheduled node may be a UE.
- the UE sends uplink data to the eNodeB according to the scheduling indication. description.
- a data transmission method is provided.
- the second ⁇ and the first TTI have a preset fixed timing relationship, and the first implementation manner is provided for the foregoing step S102, and is applied to
- the scheduling node as shown in FIG. 3, specifically includes the following steps:
- the preset spectrum resource has the following features: Before the preset spectrum resource is occupied, the usage of the preset spectrum resource needs to be monitored, and the occupation time of the preset spectrum resource is limited.
- the preset spectrum resource may be multiple wireless communication systems (for example: LTE system, Time Division-Code Division Multiple Access (TD-SCDMA) system, Broadband Multiple-Code Access (WCDMA) , Wideband Code Division Multiple Access), or other spectrum resources that can be used by different types of devices.
- the wireless communication device needs to listen to the usage of the channel to be occupied before occupying the channel of the preset spectrum resource, and the occupation time is limited each time the preset spectrum resource is occupied. For example: Unlicensed spectrum resources.
- the usage of the preset spectrum resource may include whether the channel is idle, when a system needs to occupy the channel, if the channel is not idle, whether the priority of the system currently occupying the channel is higher than the system, etc. Characteristics of usage.
- the scheduling node may send a scheduling indication to the scheduled node by using a channel that presets the spectrum resource, or may send a scheduling indication to the scheduled node by using a channel allocated to the system where the scheduling node is located.
- the eNodeB which is the scheduling node, may send a scheduling indication to the UE that is the scheduled node by using the PDCCH or the EPDCCH, and instruct the UE to transmit the uplink data on the preset channel.
- the spectrum resource receives the notification message sent by the scheduled node.
- the notification message is used to indicate that the scheduled node can occupy the preset spectrum resource in the second TTI, and the specified spectrum resource is the spectrum resource allocated to the wireless communication system where the scheduled node is located.
- the third TTI is a TTI having a preset timing relationship with the second TTI:
- step S302. Determine whether the timing of the third TTI is after the second TTI. If yes, go to step S303; if no, go to step S306.
- the first TTI is a TTI for transmitting a scheduling indication
- the second TTI is a TTI for the scheduled node to transmit data to the scheduling node according to the scheduling indication.
- the first ⁇ and the second ⁇ may have a corresponding relationship in time series
- the second ⁇ is a preset ⁇ after the first ⁇ in time series.
- the corresponding relationship is known to both the scheduled node and the scheduling node.
- the scheduled node first determines the second ⁇ of the data transmission according to the first ⁇ , and the corresponding relationship between the first ⁇ and the second ⁇ , and determines whether the preset spectrum resource channel can be used according to the scheduling indication.
- the second transmission is performed on the data.
- the first time the correspondence between the second and the second time is well-known between the scheduling node and the scheduled node, and the scheduling node may determine that the scheduled node may send the first time according to the timing of the first transmission of the scheduling indication.
- the second parameter of the data and before receiving the data, first determines whether the scheduled node completes the data transmission on the second frame through the preset spectrum resource channel.
- the scheduling node can prevent the scheduling node from storing or merging the result of the receiving demodulation if the scheduled node does not send data according to the scheduling indication, compared to receiving the data directly in the second frame without making a judgment. Increased data transfer efficiency into soft storage areas.
- the UE as the scheduled node detects the PDCCH/EPDCCH transmitted by the eNodeB, which is the scheduling node, for scheduling the UE to transmit the uplink data
- the UE is in the subframe #
- the n+4 performs uplink data transmission according to the indications of the PDCCH/EPDCCH and the PHICH.
- the UE detects the PDCCH/EPDCCH transmitted by the eNodeB for scheduling the UE to transmit uplink data in the subframe #n, the UE is in the subframe.
- #n+k performs uplink data transmission according to the indications of PDCCH/EPDCCH and PHICH, where the value of k is related to the uplink-downlink ratio configuration of TDD and n, such as background technology.
- Intraoperative Table 1 shows. That is, for the FDD system of LTE, when the first TTI is subframe #n, the second TTI may be subframe # ⁇ +4, that is, the fourth ⁇ after the second ⁇ in the sequence is the first ⁇ ; In the TDD system of LTE, when the first frame is subframe #n, the second frame may be subframe #n+k, that is, the second TTI in time series is the kth frame after the first TTI.
- ⁇ is the length of an independent decoded transmission in the wireless link, the size of which is determined by the size of the ⁇ defined in the communication system implementing the method.
- one frame is a subframe.
- the second TTI and the third TTI also have a preset correspondence, that is, the third TTI is a TTI having a preset timing relationship with the second TTI. That is to say, the timing of the third ⁇ can be before the second ,, after the second ,, or the same as the second ⁇ .
- the specified frequency resource is allocated to the scheduled node that implements the embodiment of the present invention and the spectrum resource of the system where the scheduling node is located, and the designated spectrum resource may also be a non-pre-predetermined except for the preset spectrum resource that is scheduled by the scheduling node and the scheduled node.
- Set frequency resources Taking LTE as an example, PDCCH, EPDCCH, etc. are channels allocated for use by the LTE system.
- the scheduling node may receive the notification message sent by the scheduled node in the third TTI by using the specified spectrum resource, and the scheduling node passes the notification message. Or determining whether the scheduled node successfully occupies the preset spectrum resource channel in the second TTI by receiving the notification message.
- the timing of the third TTI is after the second TTI, if the scheduled node can occupy the preset spectrum resource channel in the second TTI, because the second TTI arrives earlier than the third TTI, if the third TTI arrives, and Determining, by the designated spectrum resource channel, a notification message (characterizing whether the scheduled node occupies the preset spectrum resource in the second TTI) is sent in the third TTI, determining that the scheduled node is sent in the second TTI through the preset spectrum resource channel.
- the scheduling node needs to be in the second When the TTI arrives, receiving data transmitted on the second TTI through the preset spectrum resource, and may first receive the received data. Pretreatment is performed.
- the scheduling node may store and demodulate the received data, and store the data in a soft storage area or with soft storage according to the correctness of the demodulation.
- the data is merged, that is, if the received data is new data, the data can be demodulated and the data in the current soft storage area can be replaced with the new data, if the received data is retransmitted Data, the retransmitted data can be merged with the data in the current soft storage area, and an attempt is made to decode the combined data.
- the HARQ process receives one or two TBs from the HARQ entity. And the corresponding HARQ information. For the received TB, first determine whether the received uplink data is new uplink data or retransmitted uplink data, and if it is new uplink data, replace the data in the current soft storage area with the new uplink data; Transmitting the uplink data, combining the uplink data with the data in the soft storage area, and then attempting to decode the data in the current soft storage area;
- HARQ Hybrid Automatic Repeat Request
- the pre-processing may include storing, that is, first storing data received on the second TTI by using the preset spectrum resource, and when the third TTI arrives, transmitting on the third TTI according to the specified spectrum resource.
- the notification message is: when it is determined that the scheduled node successfully occupies the preset spectrum resource in the second TTI, demodulating the saved data, and determining that the scheduled node does not successfully occupy the preset spectrum resource in the second TTI, determining that the saved data is not
- the data sent by the scheduling node may not demodulate the data; the pre-processing may also include storing and demodulating, that is, storing the data received by the preset spectrum resource on the second TTI, and demodulating the data.
- the demodulated data is stored according to the actual situation.
- the data may not be stored into the storage area soft, soft or not combined with the data storage area.
- step S304 Determine whether the notification message is received by the specified spectrum resource on the third TTI. If yes, go to step S305; if no, go to step S308. Further, since the bandwidth resource of the designated spectrum resource channel is limited, the notification information with a small load of the specified spectrum resource channel may be used, and the second channel of the preset spectrum resource channel may be used.
- TTI sends data with a large load.
- the data that is received by the preset spectrum resource and transmitted on the second TTI is determined as the data sent by the scheduled node and the data is received. Further processing. This process ends.
- preprocessing is a storage operation
- further processing in this step may be demodulation and subsequent operations.
- further processing in this step may be stored in a soft storage area or in a soft storage area. The data is merged.
- the acknowledgement message may also be sent to the scheduled node.
- a HARQ ACK or NACK message may be sent to the scheduled node.
- step S307 After the timing of the third TTI is not after the second TTI, determine whether the notification message is received on the third TTI by using the specified spectrum resource, and if yes, go to step S307; if no, go to step S308.
- the timing of the third TTI is not after the second TTI, that is, the timing of the third ⁇ is before the second TTI or the same as the second TTI timing. If the third TTI arrives before the second MIMO, or arrives at the same time as the second TTI, it may first determine whether the notification message is received by using the specified spectrum resource on the third TTI, and then determining whether the scheduled node successfully occupies the second TTI. Set spectrum resources.
- the timing of the third TTI is not after the second TTI, and when the notification message is received by using the specified spectrum resource on the third TTI, the data transmitted on the second TTI is determined to be scheduled by using the preset spectrum resource.
- the data sent by the node and processes the data transmitted by the scheduled node in the second TTI through the preset spectrum resource. This process ends.
- the processing operations may be operations such as storing, demodulating, storing in soft memory or merging with data in the soft storage area.
- the scheduling node determines whether the scheduled node is in the presence or absence of receiving the notification message.
- the second TTI successfully occupies the preset spectrum resource. That is, when the scheduling node receives the notification message sent by the scheduled node to indicate that the scheduled node can occupy the preset spectrum resource in the second TTI by using the specified spectrum resource, determining that the second TTI passes the preset spectrum in the second TTI.
- the data transmitted by the resource is sent by the scheduled node.
- the scheduling node receives the notification message sent by the scheduled node in the third TTI, the data that is transmitted by using the preset spectrum resource on the second TTI is not determined. The data sent by the scheduled node.
- the scheduling node may be configured to determine whether the scheduled node successfully occupies the preset spectrum resource in the second TTI by using the specific content of the notification message. Specifically, it may be implemented to send a notification message to the scheduling node, that is, when the scheduled node receives the preset spectrum resource in the second TTI, that is, when the scheduling node receives the scheduled node in the third TTI through the designated spectrum resource channel, And determining, by the scheduled node, that the data transmitted by using the preset spectrum resource in the second TTI is the data sent by the scheduled node, when the scheduling node is in the third TTI.
- the data sent by the node may also be implemented to send a notification message to the scheduling node when the scheduled node successfully occupies the preset spectrum resource channel in the second TTI.
- the third TTI receives the notification message that the scheduled node can occupy the preset spectrum resource in the second TTI by using the specified spectrum resource, determining that the data transmitted by using the preset spectrum resource on the second TTI is not The data sent by the scheduling node.
- Embodiment 2 of the present invention a data transmission method is provided, which is applied to a scheduled node, as shown in FIG. 4, and specifically includes the following steps:
- the preset spectrum resource has the following features: Before the preset spectrum resource is occupied, the usage of the preset spectrum resource needs to be monitored, and the occupation time of the preset spectrum resource is limited. 5402. Determine whether the preset spectrum resource is available on the second TTI. If yes, go to step S403; if no, go to step S405.
- the specified spectrum resource is a spectrum resource allocated to the wireless communication system where the scheduling node is located, and the third TTI is a preset timing relationship with the second TTI.
- the scheduling node may pre-arrange the notification manner of whether the second spectrum is successfully occupied by the preset spectrum resource.
- the third channel may be in the third layer. Sending a notification message indicating that the scheduled node can occupy the preset spectrum resource in the second frame by using the specified spectrum resource, and when determining that the preset spectrum resource is not idle on the second frame, the specified spectrum can be adopted on the third port.
- the resource sending is used to indicate that the scheduled node cannot occupy the preset spectrum resource notification message in the second frame; or, when it is determined that the preset spectrum resource is idle on the second port, the characterized resource may be sent by using the specified spectrum resource on the third port.
- the scheduling node can occupy the notification message of the preset spectrum resource in the second frame. When it is determined that the preset spectrum resource is not idle on the second port, the notification message may not be sent by using the specified spectrum resource letter on the third port.
- the notification message is used to indicate that the scheduled node can occupy the preset frequency resource channel in the second TTI.
- sending, by using the specified spectrum resource, a notification message indicating that the scheduled node can occupy the preset spectrum resource in the second TTI may be sent by using a preset channel of the specified spectrum resource.
- the preset scheduling node can occupy the channel of the preset spectrum resource.
- the preset channel can be a periodic channel.
- step S403 and step S404 is not strictly sequential.
- the notification message is not sent by using the specified spectrum resource on the third TTI, and the number of the preset spectrum resources is not sent on the second TTI. According to.
- Example 1 Assume in the FDD system of the LTE, the eNodeB is used as the scheduling node, and the UE is the scheduled node. As shown in FIG. 5, the eNodeB sends an uplink scheduling indication (UL grant-1) to the UE through the PDCCH in the 0th TTI and the 1st TTI, respectively. UL grant-2, instructing the UE to send uplink data through an unlicensed frequency channel (component carrier (CC) to unlicensed spectrum);
- CC component carrier
- the UE After receiving the UL grant-1 sent by the eNodeB in the 0th frame, the UE determines that the uplink data needs to be sent to the eNodeB in the fourth TTI according to the correspondence between the TTI that carries the UL grant-1 and the TTI that sends the uplink data.
- the UE determines that the unlicensed spectrum channel is idle at the 4th TTI, the UE transmits the unlicensed spectrum channel at the 4th TTI by using the CC on licensed spectrum used by the system. Notification message (for example: Valid transmission), and send the uplink data to the eNodeB through the unlicensed spectrum channel at the 4th;
- Notification message for example: Valid transmission
- the UE After receiving the UL grant-2 sent by the eNodeB in the first port, the UE determines that the uplink data needs to be sent to the eNodeB according to the correspondence between the TTI of the UL grant-2 and the TTI that sends the uplink data.
- the UE determines that the unlicensed frequency channel is not idle in the fifth TTI, and the CC on licensed spectrum used by the system cannot be used in the fifth TTI to be unauthorized in the fifth TTI.
- the notification message of the frequency channel (for example: Invalid transmission) does not send the uplink data to the eNodeB through the unlicensed spectrum channel at the 4th TTI;
- the eNodeB receives the Valid transmission notification message sent by the UE in the fourth port, determines that the UE sends the uplink data through the unlicensed spectrum channel on the fourth port, and receives the uplink data, and the eNodeB receives the UE in the fifth.
- the transmitted Invalid transmission notification message determines that the UE cannot occupy the unlicensed spectrum channel in the fifth ,, and does not receive or demodulate the data transmitted through the unlicensed spectrum channel in the fifth ;; Further, the eNodeB may further send, to the UE, a reply indicating whether the uplink data is received or received correctly according to the preset time interval, for example, replying to the UE in the 8th TTI to receive the uplink data (for example, in the 8th UE) ( For example, the Valid Physical Uplink Shared Channel (PUSCH) receives the uplink data (eg, Invalid PUSCH received) in the 5th TTI.
- PUSCH Physical Uplink Shared Channel
- a data transmission method is provided.
- the second ⁇ and the first TTI have a preset fixed timing relationship TTI, and the second implementation manner is provided for the foregoing step S102.
- Applicable to the scheduling node, as shown in Figure 6, specifically includes the following steps:
- the preset spectrum resource has the following features: Before the preset spectrum resource is occupied, the usage of the preset spectrum resource needs to be monitored, and the occupation time of each preset spectrum resource is limited.
- step S603 Determine, according to the detected information of the signal sent by the scheduled spectrum resource on the second TTI, whether the scheduled node can perform data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication. If yes, go to step S603; if no, go to step S604.
- the information of the signal sent by the scheduled node may be the energy of the signal for providing the preset spectrum resource transmission on the second TTI, or the reference sequence that is sent by the scheduling node and agreed in advance with the scheduling node. Therefore, the scheduling node may There are multiple ways to detect whether the scheduled node sends data through the preset spectrum resource in the second TTI. The following two detection methods are introduced:
- the first mode is: detecting the energy of the data sent by the scheduled node on the second TTI by using the preset spectrum resource; when the detected energy is greater than the first threshold, determining that the scheduled node follows the scheduling indication, by default Spectrum resources, data transmission on the second TTI.
- the scheduling node may detect the energy of the data sent by the scheduled node by using the radio resource scheduled for the scheduled node (for example, the second TTI), if the energy of the sent data is detected to exceed the first threshold.
- the value may be used to determine that the scheduled node performs data transmission according to the received scheduling indication. If it is detected that the energy of the transmitted data does not exceed the first threshold, it may be determined. The scheduled node does not perform data transmission according to the received scheduling indication.
- the second method is: detecting, by sequence correlation, a preset reference sequence that is sent by the scheduled node on the second TTI by using the preset spectrum resource; when detecting that the received preset reference sequence is greater than the second threshold , determining that the scheduled node follows the scheduling indication, by preset the spectrum resource, in the second
- the scheduling node may detect, by using the sequence correlation, a preset reference sequence that is sent by the scheduled node, where the preset reference sequence is a pre-agreed reference sequence between the scheduled node and the scheduling node, and may be an existing reference sequence.
- the sequence for example: the data demodulation reference signal, may also be a specially designed sequence pre-agreed between the scheduled node and the scheduling node, and the preset reference sequence may be sent through the resource for transmitting data after the data is transmitted.
- the amplitude of the data preset reference sequence sent by the scheduled node exceeds the second threshold by the sequence correlation detection, it is determined that the scheduled node performs data transmission according to the received scheduling indication, if the scheduled node is correspondingly sent by the sequence correlation detection. If the amplitude of the preset reference sequence does not exceed the second threshold, it may be determined that the scheduled node does not perform data transmission according to the received scheduling indication.
- the scheduled node When the scheduled node is in the second TTI, according to the information of the signal sent by the preset spectrum resource, it is determined that the scheduled node can perform data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication. And receiving or demodulating data sent by the preset spectrum resource on the second TTI. This process ends.
- the scheduled node When the scheduled node is in the second TTI, according to the information about the signal sent by the preset spectrum resource, determining that the scheduled node is unable to perform the data on the second TTI by using the preset spectrum resource according to the scheduling indication. During transmission, data transmitted by the preset spectrum resource on the second TTI is not received or demodulated. This process ends.
- Embodiment 4 of the present invention a data transmission method is provided.
- the second ⁇ is any TTI in a plurality of TTIs of a preset first scheduling window, or the second TTI is a scheduling finger. Any one of a plurality of TTIs of the indicated first scheduling window is shown.
- a third implementation manner is provided for the foregoing step S102, and is applied to the scheduling node. As shown in FIG. 7, the method includes the following steps:
- the preset spectrum resource has the following features: Before the preset spectrum resource is occupied, the usage of the preset spectrum resource needs to be monitored, and the occupation time of the preset spectrum resource is limited.
- the notification message is used to indicate that the scheduled node can occupy the preset spectrum resource in the second TTI, and the specified spectrum resource is the spectrum resource allocated to the wireless communication system where the scheduled node is located, and each third TTI in the second scheduling window is Each second TTI in the first scheduling window corresponds to and has a preset fixed timing relationship:
- step S703 Determine whether the timing of the third TTI is after the second TTI, and if yes, go to step S703; if no, go to step S706.
- the correspondence between the first TTI and the second TTI may be preset, and the second TTI is a plurality of TTIs after the first TTI in time series (preferably, may be multiple consecutive TTIs) Any of the TTIs, and the plurality of TTIs constitute a first scheduling window, that is, the starting TTI of the first scheduling window and the length of the first scheduling window may be preset, and LTE is taken as an example.
- the second TTI may be any one of subframe #n+4 to subframe #n+10, that is, subframe #n+4 to subframe #n+10 constitute a first scheduling window; first TTI
- the corresponding relationship between the timing and the second TTI may also be indicated by the scheduling indication.
- the starting TTI of the first scheduling window and the first scheduling window may be indicated in the scheduling indication sent by the scheduling node to the scheduled node. length.
- the second scheduling window is configured by multiple third TTIs, and each third TTI corresponds to each second TTI in the first scheduling window and has a preset fixed timing relationship, and the timing of the third TTI may be After the second TTI corresponding to the third TTI, the second TTI corresponding to the third TTI may be the same as the second TTI corresponding to the third TTI.
- Second TTI and third The fixed timing relationship may be that the scheduled node transmits the specified spectrum resource on the third TTI to indicate that the scheduled node can occupy the preset spectrum resource, and the scheduling node can learn that the currently characterized scheduled node can occupy the preset spectrum resource is an application. Which second TTI is used.
- subframe #n+4 to subframe #n+10 constitute a first scheduling window
- the second scheduling window may be composed of subframe #n+4 to subframe#n+10, or subframe #n+2 to subframe# n+8 is constructed, or subframe #n+7 to subframe #n+13 is constructed.
- the scheduled node may know the correspondence between the timing of knowing the first TTI and the timing of the plurality of second TTIs in the first scheduling window, or may also know the first TTI by using the received scheduling indication. Timing, a correspondence between the timings of the plurality of second TTIs in the first scheduling window, and after receiving the scheduling indication, determining a starting TTI of the first scheduling window and a length of the first scheduling window (ie, each And a second TTI that can be used to send data to the scheduling node when the preset spectrum resource is idle in the second TTI, and if the second TTI of the available preset spectrum resource is detected, the second TTI may be detected.
- a third TTI in the resource channel that is fixed in a second TTI timing relationship with the data in the preset spectrum resource channel, and sends a notification message to the scheduling node, if If the second TTI of the available preset spectrum resource is detected, the data is not sent to the scheduling node, and the notification message is not sent to the scheduling node, or the data is not sent to the scheduling node, and the specified spectrum resource is specified in the first scheduling window.
- the third TTI corresponding to the second TTI sends a notification message to the scheduling node that does not successfully occupy the preset channel.
- the timings of the third TTIs in the second scheduling window are all after the second TTI corresponding to the third TTI, and are received and preprocessed by using preset spectrum resources on each second TTI of the first scheduling window.
- S705 When receiving the notification message by using the specified spectrum resource on any third TTI in the second scheduling window, determining, receiving, and receiving from the second ⁇ of the first scheduling window that receives data through the preset spectrum resource And notifying the second TTI corresponding to the third TTI of the message, and determining the determined data transmitted on the second port as the data sent by the scheduled node and further processing the data. This process ends.
- subframe #n+4 to subframe#n+10 constitute a first scheduling window
- subframe #n+5 to subframe#n+ll constitute a second corresponding to subframe #n+4 to subframe#n+10
- the scheduling window receives the data on the subframe #n+4 to the subframe #n+10, and receives the message that the channel occupying the preset spectrum resource is successfully received on the subframe #n+6 of the specified spectrum resource, and determines the preset frequency resource.
- the data on the subframe #n+5 (the second TTI) corresponding to the subframe #n+6 (the third TTI) is the data sent by the scheduled node, and the data is further processed, and the other second TTI (preset The data received on the subframe #n+4, subframe #n+6-subframe #n+10 on the frequency resource channel can be discarded.
- step S707 determines whether the notification message is received on any third TTI by using the specified spectrum resource, and if yes, proceed to the step. S707; If no, the process proceeds to step S708.
- the scheduling node may detect whether the third TTI corresponding to each second TTI of the first scheduling window in the specified spectrum resource is successfully configured to represent that the scheduled node occupies the preset spectrum resource channel.
- the notification message is used to determine whether it is necessary to receive data sent by the scheduled node from the preset spectrum resource channel.
- the timing of each third TTI in the second scheduling window is not after the second TTI corresponding to the third TTI, and the specified spectrum resource is specified on any third TTI in the second scheduling window
- the data transmitted on the second TTI corresponding to the third TTI that receives the notification message is determined to be sent by the scheduled node in each second TTI of the first scheduling window by using the preset spectrum resource. Data, and process the received data.
- the first corresponding to the third TTI in the first scheduling window of the preset spectrum resource is first determined.
- the second TTI receives data through the determined second TTI. Taking LTE as an example, assume that the first TTI is subframe #n, the second TTI is any TTI in subframe #n+4 to subframe#n+10, and the third TTI is subframe #n+6 to subframe#n+12.
- the eNodeB receives the notification message that the unscheduled spectrum resource is successfully sent by the scheduled node in the subframe #n+6 of the PUSCH, and then can receive the scheduled node by using the subframe #n+4 of the unlicensed spectrum resource. Give the data to the dispatch node.
- Embodiment 5 of the present invention a data transmission method is provided, which is applied to the side of the scheduled node, as shown in FIG. 8, specifically including the following steps:
- the preset spectrum resource has the following features: Before the preset spectrum resource is occupied, the usage of the preset spectrum resource needs to be monitored, and the occupation time of the preset spectrum resource is limited.
- step S803 Determine whether there is any second ⁇ in the plurality of second TTIs in the first scheduling window, and the preset spectrum resource is available on the any second TTI. If yes, go to step S803; if no, go to step S805.
- the first scheduling window may be used to limit the time range in which the scheduled node sends data to the scheduling node. In some cases, it is not guaranteed that any second TTI in the first scheduling window can be used to transmit data to the scheduling node.
- the first TTI is subframe #n, second.
- the TTI is any one of the subframe #n+4 to the subframe #n+10, and the UE needs to determine the second TTI in which the preset spectrum resource is idle from the first scheduling window, and can be used to transmit the second TTI of the uplink data.
- subframe #n+7 is idle, but subframe #n+7 is a downlink subframe, the UE cannot use it to transmit uplink data to the eNodeB.
- the second TTI When the second TTI is determined, the second TTI is determined, and when the preset spectrum resource is available on the second TTI, the second ⁇ of the available preset spectrum resource is used. data transmission.
- the notification message is sent on the third TTI corresponding to the second TTI of the available pre-set spectrum resource in each third TTI of the second scheduling window by using the specified spectrum resource.
- the notification message is used to indicate that the scheduled node can occupy the preset spectrum resource in the second TTI, and the specified spectrum resource is the spectrum resource allocated to the wireless communication system where the scheduling node is located, and each third TTI and the second scheduling window are used.
- step S804 may be performed, that is, in each third TTI of the second scheduling window, determining that the second TTI relationship with the available preset spectrum resource of the first window is fixed
- the third TTI transmits a notification message that the channel occupying the preset spectrum resource is successful in the third TTI by using the specified spectrum resource, and then performs data transmission on the second TTI of the available preset spectrum resource.
- the data may not be sent to the scheduling node, and the notification message is not sent to the scheduling node, or the data may not be sent to the scheduling node, and the spectrum resource is specified, in the first scheduling.
- the third TTI corresponding to the second TTI of the available preset spectrum resource in the window sends a notification message that the preset spectrum resource channel fails to the scheduling node.
- a data transmission method is provided.
- the second ⁇ is any TTI in the multiple TTIs of the preset first scheduling window, or the second TTI is determined by the scheduling indication. Any of a plurality of TTIs of the indicated first scheduling window.
- a fourth implementation manner is applied to the scheduling node side. As shown in FIG. 9, the method includes the following steps:
- S901 Send, at the first TTI, a scheduling indication that uses a preset spectrum resource to transmit data to the scheduled node,
- the preset spectrum resource has the following features: Before the preset spectrum resource is occupied, the usage of the preset spectrum resource needs to be monitored, and the occupation time of the preset spectrum resource is limited.
- S902 Determine, according to the information about the signal sent by the preset spectrum resource, on the second TTI in the first scheduling window, determine whether the scheduled node follows the scheduling indication, and preset the spectrum resource. Data transmission is performed on the two TTIs. If yes, go to step S903; if no, go to step S904.
- the detection method provided in Embodiment 3, or other detection methods in the prior art may be used to detect whether the service data is sent in any second TTI of the first scheduling window through the preset spectrum resource channel.
- the second TTIs when the first TTIs for transmitting scheduling indications for different scheduled nodes are respectively used in the first scheduling window corresponding to the timings, the second TTIs having the same timing, and when used for transmitting the same TTI
- a scheduling window performs resource allocation, where the preset frequency resource may include a frequency domain resource, an air domain resource, a code domain resource, and the like.
- each first TTI that sends a scheduling indication of a different scheduled node, or each first TTI that sends a different scheduling indication of the same scheduled node corresponds to multiple second TTIs, that is, the first scheduling window, if present
- the first scheduling window has an overlapping relationship, that is, the overlapping portion in the first scheduling window is substantially the same preset spectrum resource, and the plurality of scheduled nodes or the same scheduling node for the data of the multiple scheduling indications are detected.
- the scheduling node When the preset spectrum resource is available, preemption is required, and even if the scheduling node detects the data transmitted in the first scheduling window, it cannot identify which of the scheduled nodes is sent, or the scheduling node sends the scheduling indication, therefore, when When the first scheduling window overlaps, the scheduling node may avoid the preemption by allocating different preset spectrum resources for the overlapping first scheduling window.
- the first TTI is subframe #n
- the second TTI is subframe #n+4 to subframe #n+10
- the first TTI is subframe #n+l
- the second TTI is subframe #n+5 to subframe #n+l 1
- the first scheduling window of the first UE is subframe #n+4 to subframe#n+l 0
- the first scheduling window of the second UE is subframe #n+5 to subframe#n+l 1 .
- the subframe #n+5 to the subframe #n+10 in the first scheduling window of the first UE and the second UE are overlapped, and the first scheduling window overlap problem may be solved by using different preset spectrum resources, for example, So that the first scheduling windows of the two are respectively in different frequency domains, or that the first scheduling windows of the two are respectively in different airspaces, or that the first scheduling windows of the two are respectively in different code domains. .
- each of the second TTIs is in one-to-one correspondence with each of the third TTIs, when the plurality of first scheduling windows overlap, the second scheduling windows corresponding to the plurality of first scheduling windows respectively overlap, and then Resources may be allocated for overlapping second scheduling windows by different specified spectral resources.
- the scheduled node When the scheduled node is in any second TTI in the first scheduling window, according to the information of the signal sent by the preset spectrum resource, it is determined that the scheduled node does not follow the scheduling indication, and the preset spectrum resource is used.
- data transmission is performed on the second TTI, data transmitted on the second frame is not received or demodulated. This process ends.
- a data transmission method is provided, which is applied to the scheduled node. As shown in FIG. 10, the method includes the following steps:
- the preset spectrum resource has the following features: Before the preset spectrum resource is occupied, the usage of the preset spectrum resource needs to be monitored, and the occupation time of the preset spectrum resource is limited.
- step S1003 Determine whether there is any second ⁇ in the plurality of second TTIs in the first scheduling window. And on the any second TTI, the preset spectrum resource is available, and if yes, the process goes to step S1003; if no, the process goes to step S1004.
- the second TTI When the second TTI is determined, the second TTI is determined, and when the preset spectrum resource is available on the second TTI, the second spectrum of the preset spectrum resource is available. data transmission. This process ends.
- any second ⁇ is not present, and when the preset spectrum resource is available on the any second TTI, the data transmission is not performed on the preset spectrum resource channel. This process ends.
- Example 2 The data transmission methods provided in Embodiment 6 and Embodiment 7 are exemplified by Example 2:
- Example 2 Assume that in an LTE system, an eNodeB is used as a scheduling node and a UE is a scheduled node. As shown in FIG. 11, the eNodeB sends an uplink scheduling indication to the UE at the 0th TTI, the 1st, and the 3rd, respectively.
- the 0th TTI and the 3th to 11th TTIs (ie, UL grants)
- the first TTI corresponds to the 4-12th TTI (ie, the first scheduling window of UL grant-2)
- the second TTI and the 5th to 13th TTIs ie, Corresponding to the first scheduling window of UL grant-3; since there are overlapping TTIs in the above three first scheduling windows, resources are allocated for three scheduling windows through different wireless communication resources;
- the UE After receiving the UL grant-1 sent by the eNodeB in the 0th frame, the UE detects the UL according to the correspondence between the TTI transmitting the UL grant-1 and the TTI (the first scheduling window of the UL grant-1) for transmitting the uplink data. Whether there is an idle uplink TTI in the 3rd to 11th TTIs of the first scheduling window of grant-1, and the obtained detection result is that the fifth TTI is an idle uplink TTI, and the fifth TTI passes the unlicensed spectrum channel.
- the UE After receiving the UL grant-1 sent by the eNodeB in the first port, the UE detects the UL according to the correspondence between the ⁇ transmitting the UL grant-2 and the TTI (the first scheduling window of the UL grant-2) for transmitting the uplink data. Whether there is an idle uplink TTI in the 4th to 12th TTIs of the first scheduling window of the grant-2, and the obtained detection result is that the seventh TTI is an idle uplink TTI, and the seventh is The TTI sends uplink data for the UL grant-2 to the eNodeB through the unlicensed spectrum channel;
- the UE After receiving the UL grant-3 sent by the eNodeB in the second port, the UE detects the UL according to the correspondence between the TTI for transmitting the UL grant-3 and the TTI for transmitting the uplink data (the first scheduling window of the UL grant-3). Whether there is an idle uplink TTI in the 5th to 13th TTIs of the first scheduling window of the grant-3, and if the obtained detection result is that the 8th TTI is an idle uplink TTI, the 8th TTI passes the unlicensed spectrum channel. Sending uplink data for UL grant-3 to the eNodeB;
- the eNodeB After sending the three scheduling indications, the eNodeB performs uplink signal detection in the first scheduling window corresponding to the three scheduling indications, determines whether the UE sends data in the scheduling window, and receives the uplink data sent by the UE. Otherwise, the data transmitted in the first scheduling window is not received or demodulated.
- an embodiment of the present invention further provides a data transmission device and system. Since the principle of the problem solved by the device and the system is similar to the foregoing data transmission method, the implementation of the device and the system may refer to the implementation of the foregoing method. , the repetition will not be repeated.
- One of the data transmission devices provided by the embodiment of the present invention, as shown in FIG. 12, includes: a sending module 1201, configured to send, to the scheduled node, a scheduling indication that uses preset spectrum resource transmission data in the first transmission time interval TTI
- the preset spectrum resource has the following features: the usage of the preset spectrum resource needs to be monitored before the preset spectrum resource is occupied, and the occupation time of the preset spectrum resource is limited once;
- the first determining module 1202 is configured to determine that the scheduled node is capable of performing data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication sent by the sending module 1201.
- the second TTI is a TTI for transmitting, by the scheduled node, data transmission according to the scheduling indication, and the second TTI is temporally after the first TTI, and has a preset with the first TTI.
- the second determining module 1203 is configured to determine, by the first determining module 1202, that the scheduled node is capable of performing data on the second TTI by using the preset spectrum resource according to the scheduling indication sent by the sending module. After the transmission, the data transmitted on the second TTI is determined by the preset spectrum resource as the data sent by the scheduled node. Further, the first determining module 1202 is specifically configured to: determine, by using a specified spectrum resource, a notification message that is sent by the scheduled node, where the notification message is sent to indicate that the scheduled message is sent. The node can occupy the preset spectrum resource in the second TTI, where the specified spectrum resource is a spectrum resource allocated to the wireless communication system where the scheduled node is located, and the third TTI is not in the second timing. The TTI after the TTI, the second TTI and the first TTI have a preset fixed timing relationship.
- the first determining module 1202 is further configured to: before determining that the scheduled node is capable of performing data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication, receiving Preprocessing, by the preset spectrum resource, data transmitted on the second TTI;
- the first determining module 1202 is specifically configured to determine, by using the specified spectrum resource, that the notification message sent by the scheduled node is received on the third node, where the notification message is used to indicate that the scheduled node can be in the
- the second TTI occupies the preset spectrum resource, where the specified spectrum resource is a spectrum resource allocated to the wireless communication system where the scheduled node is located, and the third ⁇ is a sequence after the second TTI.
- the TTI, the second TTI and the first TTI have a preset fixed timing relationship. And receiving, by using the specified spectrum resource, the notification message sent by the scheduled node on the third TTI;
- the first determining module 1202 is specifically configured to determine, according to the detected information of the signal sent by the scheduled node on the second TTI by using the preset spectrum resource, the scheduled node.
- the data transmission is performed on the second TTI by using the preset spectrum resource according to the scheduling indication, where the second TTI and the first TTI have a preset fixed timing relationship.
- the first determining module 1202 is specifically configured to determine, by using a specified spectrum resource, a notification message sent by the scheduled node, where the notification message is sent, on any third TTI in the second scheduling window. For indicating that the scheduled node can occupy the preset spectrum resource in the second TTI, where the specified spectrum resource is a spectrum resource allocated to a wireless communication system where the scheduled node is located, the second scheduling Each third TTI in the window and the first scheduling window Each of the second TTIs, corresponding to, and the timing is not after the second TTI corresponding to the third TTI; the second TTI is any TTI of the plurality of TTIs that preset the first scheduling window, or the The second TTI is any one of the plurality of TTIs of the first scheduling window indicated by the scheduling indication; the second determining module 1203 is specifically configured to be in each second ⁇ of the first scheduling window, And transmitting, by using the preset spectrum resource, the transmitted data, the data sent by the scheduled node, on the second TTI corresponding to the third T
- the first determining module 1202 is further configured to: before determining that the scheduled node is capable of performing data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication, receiving Preprocessing, by the preset spectrum resource, data transmitted on each second TTI of the first scheduling window;
- the first determining module 1202 is specifically configured to: determine, by using a specified spectrum resource, a notification message sent by the scheduled node, by using a specified spectrum resource, where the notification message is used to indicate
- the scheduled node can occupy the preset frequency resource in the second TTI, where the specified spectrum resource is a spectrum resource allocated to the wireless communication system where the scheduled node is located, in the second scheduling window.
- Each third TTI corresponds to each second TTI in the first scheduling window, and the timing is after the second TTI corresponding to the third TTI; the second ⁇ is preset by the first scheduling window. Any one of a plurality of TTIs, or the second TTI is any one of a plurality of TTIs of the first scheduling window indicated by the scheduling indication;
- the second determining module 1203 is configured to determine, in each second TTI of the first scheduling window that receives data by using the preset spectrum resource, that the third ⁇ corresponding to the notification message is received. a second TTI; and determining the determined data transmitted on the second TTI as the data sent by the scheduled node.
- the first determining module 1202 is specifically configured to: according to the detected information that the scheduled node sends the signal by using the preset spectrum resource on any second TTI in the first scheduling window. Determining that the scheduled node performs data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication, where the second TTI is a preset multiple TTI of the first scheduling window. Any TTI in the middle, or the second TTI is indicated by the scheduling indication Any of a plurality of TTIs of the first scheduling window shown.
- the first determining module 1202 is specifically configured to detect, by the scheduled node, the energy of data sent by the preset spectrum resource on the second node; when the detected energy is greater than the first Determining, by the threshold, the scheduled node, according to the scheduling indication, performing data transmission on the second port by using the preset spectrum resource; or
- the device further includes: an allocating module 1204;
- the allocating module 1204 is configured to: when the sending module 1201 is configured to send the first ⁇ of the scheduling indications for different scheduled nodes, in the first scheduling window corresponding to each of the timings, the second ⁇ with the same timing And using different preset spectrum resources to perform resource allocation for the first scheduling window having the second sequence of the same sequence; and using different designated spectrum resources to perform resource allocation for the second scheduling window having the third sequence of the same sequence; Or
- the sending module 1201 When the sending module 1201 is configured to send each first ⁇ of different scheduling indications for the same scheduled node, in the first scheduling window corresponding to each of the timings, when the second ⁇ with the same timing is used, different presets are used.
- a spectrum resource which allocates resources for a first scheduling window having a second sequence of the same sequence; and uses different specified spectrum resources to allocate resources for a second scheduling window having a third sequence of the same sequence, wherein the preset spectrum Resources or designated spectrum resources include frequency domain resources, airspace resources, and code domain resources.
- a data transmission device provided by the embodiment of the present invention includes: a receiving module 1301, configured to receive, by using a scheduling parameter, a scheduling indication that uses a preset spectrum resource transmission data, sent by a scheduling node, in a first transmission time interval
- the preset spectrum resource has the following features: the usage of the preset spectrum resource needs to be monitored before the preset spectrum resource is occupied, and the occupation time of the preset spectrum resource is limited once;
- the sending module 1302 is configured to: when determining, according to the scheduling indication received by the receiving module 1301, And performing data transmission on the second TTI by using the preset spectrum resource by using the preset spectrum resource, where the second TTI is used for sending Determining a TTI of the transmitted data for the scheduling, and the second TTI is a ⁇ that is temporally after the first TTI and has a preset timing relationship with the first TTI.
- the sending module 1301 is specifically configured to: when it is determined that the preset spectrum resource is available on the second UI, send a notification message on the third port by specifying the spectrum resource; and pass the preset a spectrum resource, where the data transmission is performed on the second port, where the notification message is used to indicate that the scheduled node can occupy the preset spectrum resource in the second port, and the specified spectrum resource is allocated.
- the sending module 1301 is specifically configured to: when determining, in the second ⁇ of the first scheduling window, any second ⁇ , and when the preset spectrum resource is available on the any second ⁇ Data transmission is performed on the second frame of the available preset spectrum resource by using the preset spectrum resource, where the second frame is any one of a plurality of ports of the preset first scheduling window; or The second one is any one of a plurality of frames of the first scheduling window indicated by the scheduling indication.
- the sending module 1301 is further configured to: when determining, according to the scheduling indication, by using the preset spectrum resource, when performing data transmission on the second port, by specifying a spectrum resource, in the second scheduling Sending a notification message to the third node corresponding to the second ⁇ of the available preset spectrum resource in each of the third ⁇ of the window, where the notification message is used to indicate that the scheduled node is capable of being in the And occupying the preset spectrum resource, where the specified spectrum resource is a spectrum resource allocated to a wireless communication system where the scheduling node is located, and each third ⁇ in the second scheduling window and the first scheduling window Each of the second ⁇ - corresponds to and has a preset fixed timing relationship.
- a data transmission system includes: one of the foregoing data transmission devices, and two of the foregoing data transmission devices. Based on the same inventive concept, an embodiment of the present invention further provides a data transmission device and system. Since the principle of the problem solved by the device and the system is similar to the foregoing data transmission method, the implementation of the device and the system may refer to the implementation of the foregoing method. , the repetition will not be repeated.
- a third embodiment of the data transmission device provided by the embodiment of the present invention, as shown in FIG. 14, includes: a transmitter 1401, configured to send, to the scheduled node, a scheduling indication that uses preset spectrum resource transmission data in the first transmission time interval TTI
- the preset spectrum resource has the following features: the usage of the preset spectrum resource needs to be monitored before the preset spectrum resource is occupied, and the occupation time of the preset spectrum resource is limited once;
- the processor 1402 is configured to determine that the scheduled node is capable of performing data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication sent by the transmitter 1401; a data resource, the data transmitted on the second TTI is determined to be the data sent by the scheduled node, where the second TTI is a TTI used to send the scheduled node to perform data transmission according to the scheduling indication. And the second TTI is a ⁇ that is temporally after the first TTI and has a preset timing relationship with the first TTI.
- the device further includes: a receiver 1403;
- the receiver 1403 is configured to receive, by using a specified spectrum resource, a notification message sent by the scheduling node on a third node;
- the processor 1402 is specifically configured to determine that the receiver 1403 receives the notification message sent by the scheduled node by using the specified spectrum resource, where the notification message is used to indicate the scheduled message.
- the node can occupy the preset spectrum resource in the second port, where the specified spectrum resource is a spectrum resource allocated to the wireless communication system where the scheduled node is located, and the third frame is not in the second sequence.
- the second ⁇ has a predetermined fixed timing relationship with the first ⁇ .
- the device further includes: a receiver 1403;
- the receiver 1403 is configured to, at the processor 1402, determine that the scheduled node is capable of receiving and pre-preserving data on the second port by using the preset spectrum resource according to the scheduling indication. Processing data transmitted on the second port by the preset spectrum resource; And receiving, by using the specified spectrum resource, the notification message sent by the scheduled node on the third TTI; the processor 1402 is specifically configured to determine that the receiver 1303 receives the third-level TTI by specifying the spectrum resource. a notification message sent by the scheduling node, where the notification message is used to indicate that the scheduled node can occupy the preset spectrum resource in the second TTI, and the specified spectrum resource is allocated to the scheduled resource.
- the spectrum resource used by the wireless communication system where the node is located is a TTI whose timing is after the second TTI, and the second TTI and the first ⁇ have a preset fixed timing relationship. And receiving, by using the specified spectrum resource, the notification message sent by the scheduled node on the third TTI;
- the processor 1402 is configured to determine, according to the detected information of the signal sent by the scheduled node on the second TTI by using the preset spectrum resource, that the scheduled node can follow the The scheduling indicates that data transmission is performed on the second TTI by using the preset spectrum resource, where the second TTI and the first TTI have a preset fixed timing relationship.
- the device further includes: a receiver 1403;
- the receiver 1403 is configured to receive, by using a specified spectrum resource, a notification message sent by the scheduled node, on any third TTI in the second scheduling window.
- the processor 1402 is specifically configured to determine, by using the specified spectrum resource, the notification message sent by the scheduled node, by using the specified spectrum resource, on the third TTI in the second scheduling window, where the notification message is sent by the scheduled node. For indicating that the scheduled node can occupy the preset spectrum resource in the second TTI, where the specified spectrum resource is a spectrum resource allocated to a wireless communication system where the scheduled node is located, the second scheduling Each third TTI in the window corresponds to each second TTI in the first scheduling window, and the timing is not after the second TTI corresponding to the third TTI; the second TTI is a preset first scheduling. Any TTI of the plurality of TTIs of the window, or the second TTI is any one of the plurality of TTIs of the first scheduling window indicated by the scheduling indication;
- the processor 1402 is configured to: pass, by using the preset spectrum resource, the second TTI corresponding to the third TTI that receives the notification message in each second TTI of the first scheduling window.
- the transmitted data is determined as the data sent by the scheduled node.
- the device further includes: a receiver 1403;
- the receiver 1403 is configured to, at the processor 1402, determine that the scheduled node is capable of receiving and pre-preserving data on the second TTI by using the preset spectrum resource according to the scheduling indication. Processing data transmitted on each second TTI of the first scheduling window by using the preset spectrum resource;
- the processor 1402 is specifically configured to determine, by using the specified spectrum resource, the notification message sent by the scheduled node, by using the specified spectrum resource, on the third TTI in the second scheduling window, where the notification message is sent by the scheduled node. For indicating that the scheduled node can occupy the preset spectrum resource in the second TTI, where the specified spectrum resource is a spectrum resource allocated to a wireless communication system where the scheduled node is located, the second scheduling Each third TTI in the window corresponds to each second TTI in the first scheduling window, and the timing is after the second TTI corresponding to the third TTI; the second TTI is a preset first scheduling. Any one of a plurality of TTIs of the window, or the second ⁇ is any one of a plurality of TTIs of the first scheduling window indicated by the scheduling indication;
- the processor 1402 is specifically configured to determine, from each second TTI of the first scheduling window that receives data by using the preset spectrum resource, a second corresponding to the third TTI that receives the notification message. TTI; and determining the data transmitted on the determined second TTI as the data sent by the scheduled node.
- the processor 1402 is specifically configured to determine, according to the detected information of the signal sent by the scheduled node by using the preset spectrum resource, on the second TTI in the first scheduling window.
- the scheduled node performs data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication, where the second TTI is in multiple TTIs of a preset first scheduling window.
- Any TTI, or the second TTI is any one of a plurality of TTIs of the first scheduling window indicated by the scheduling indication.
- the processor 1402 is specifically configured to detect, by the scheduled node, the energy of the data sent by the preset spectrum resource on the second node; when the detected energy is greater than the first gate Determining, by the scheduled node, performing data transmission on the second port by using the preset spectrum resource according to the scheduling indication; or Detecting, by the sequence correlation, the preset reference sequence that is sent by the scheduled node on the second TTI by using the preset spectrum resource; when detecting that the received preset reference sequence is greater than the second gate And determining, by the scheduled node, data transmission on the second TTI by using the preset spectrum resource according to the scheduling indication.
- the processor 1402 is further configured to: when the transmitter 1401 is configured to send each first TTI of scheduling indications for different scheduled nodes, in a first scheduling window corresponding to each of the timings, having a second sequence with the same timing In TTI, resource allocation is performed for a first scheduling window having the same timing second TTI by using different preset spectrum resources; and resource allocation is performed for a second scheduling window having the same timing third TTI by using different specified spectrum resources ; or
- the transmitter 1401 When the transmitter 1401 is configured to send each T-TI of different scheduling indications for the same scheduled node, in the first scheduling window corresponding to each of the timings, when the second TTI with the same timing is used, different presets are used.
- a spectrum resource performing resource allocation for a first scheduling window having a second TTI of the same timing; and performing resource allocation for a second scheduling window having the same timing third TTI by using different specified spectrum resources, where the preset spectrum Resources or designated spectrum resources include frequency domain resources, airspace resources, and code domain resources.
- a data transmission device includes: a receiver 1501, configured to receive, by using a scheduling parameter, a scheduling indication that uses a preset spectrum resource transmission data, sent by a scheduling node, in a first transmission time interval TTI
- the preset spectrum resource has the following features: the usage of the preset spectrum resource needs to be monitored before the preset spectrum resource is occupied, and the occupation time of the preset spectrum resource is limited once;
- the transmitter 1502 is configured to: when determining, according to the scheduling indication received by the receiver 1501, by using the preset spectrum resource, when performing data transmission on the second TTI, by using the preset spectrum resource, Performing data transmission on the second TTI, where the second TTI is a TTI for transmitting data transmitted for the scheduling indication, and the second TTI is timing after the first TTI, and A ⁇ having a predetermined timing relationship with the first TTI.
- the transmitter 1502 is specifically configured to: when it is determined that the preset spectrum resource is available on the second UI, send a notification message on the third port by specifying a spectrum resource; Data transmission is performed on the second TTI by using the preset spectrum resource, where the notification message is used to indicate that the scheduled node can occupy the preset spectrum resource in the second TTI,
- the specified spectrum resource is a spectrum resource allocated to the wireless communication system where the scheduling node is located
- the third TTI is a TTI having a preset timing relationship with the second TTI, the second TTI and the first TTI Has a preset fixed timing relationship.
- the transmitter 1502 is specifically configured to: when determining, in the multiple second TTIs of the first scheduling window, any second TTI, and when the preset spectrum resource is available on the any second TTI, Data transmission is performed on the second TTI of the available preset spectrum resource by using the preset spectrum resource, where the second TTI is any one of multiple TTIs of the preset first scheduling window; or The second TTI is any one of a plurality of TTIs of the first scheduling window indicated by the scheduling indication.
- the transmitter 1502 is further configured to: when determining, according to the scheduling indication, by using the preset spectrum resource, when performing data transmission on the second port, by specifying a spectrum resource, in the second scheduling Sending a notification message to the third node corresponding to the second ⁇ of the available preset spectrum resource, wherein the notification message is used to indicate that the scheduled node is in the third And occupying the preset spectrum resource, where the specified spectrum resource is a spectrum resource allocated to a wireless communication system where the scheduling node is located, and each third ⁇ in the second scheduling window and the first scheduling window Each of the second ⁇ - corresponds to and has a preset fixed timing relationship.
- a data transmission system includes: three of the foregoing data transmission devices, and four of the foregoing data transmission devices.
- the scheduling node sends a scheduling indication that uses the preset spectrum resource to transmit data to the scheduled node in the first direction; after receiving the scheduling indication, the scheduled node determines that According to the scheduling instruction, by presetting the spectrum resource, in the second
- the scheduling node determines that the scheduled node can perform the data transmission on the second ⁇ by the preset spectrum resource according to the scheduling indication, and the data transmitted on the second TTI is determined to be the data sent by the scheduled node by using the preset spectrum resource. .
- the data transmission method provided by the embodiment of the present invention after receiving the scheduling indication, is required to determine whether the second TTI of the preset spectrum resource channel can be used for data transmission according to the scheduling indication.
- the scheduling node regardless of Whether the scheduling node successfully occupies the channel and performs data reception can prevent the scheduling node from erroneously receiving or demodulating from the preset spectrum resource channel if the scheduled node does not send data according to the scheduling indication.
- the data sent by the scheduling node is stored or merged into the soft storage area, which improves the transmission efficiency of the wireless communication system.
- embodiments of the present invention can be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment, or a combination of software and hardware. Moreover, the invention can be embodied in the form of one or more computer program products embodied on a computer-usable storage medium (including but not limited to disk storage, CD-ROM, optical storage, etc.) in which computer usable program code is embodied.
- a computer-usable storage medium including but not limited to disk storage, CD-ROM, optical storage, etc.
- the computer program instructions can also be stored in a computer readable memory that can direct a computer or other programmable data processing device to operate in a particular manner, such that the instructions stored in the computer readable memory produce an article of manufacture comprising the instruction device.
- the apparatus implements the functions specified in one or more blocks of a flow or a flow and/or block diagram of the flowchart.
- These computer program instructions can also be loaded onto a computer or other programmable data processing device such that a series of operational steps are performed on a computer or other programmable device to produce computer-implemented processing for execution on a computer or other programmable device.
- the instructions provide steps for implementing the functions specified in one or more of the flow or in a block or blocks of a flow diagram.
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EP14893585.1A EP3142445B1 (en) | 2014-05-27 | 2014-05-27 | Data transmission method, device and system |
PCT/CN2014/078579 WO2015180045A1 (zh) | 2014-05-27 | 2014-05-27 | 一种数据传输方法、设备及系统 |
CN201480067884.0A CN105814963B (zh) | 2014-05-27 | 2014-05-27 | 一种数据传输方法、设备及系统 |
US15/360,607 US10334612B2 (en) | 2014-05-27 | 2016-11-23 | Data transmission method, device and system |
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EP3142445B1 (en) | 2019-05-15 |
US10334612B2 (en) | 2019-06-25 |
KR20170009988A (ko) | 2017-01-25 |
EP3142445A4 (en) | 2017-05-17 |
KR101913681B1 (ko) | 2018-10-31 |
EP3142445A1 (en) | 2017-03-15 |
US20170079054A1 (en) | 2017-03-16 |
CN105814963A (zh) | 2016-07-27 |
CN105814963B (zh) | 2019-09-20 |
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