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WO2017147779A1 - Data transmission method, device and system - Google Patents

Data transmission method, device and system Download PDF

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Publication number
WO2017147779A1
WO2017147779A1 PCT/CN2016/075147 CN2016075147W WO2017147779A1 WO 2017147779 A1 WO2017147779 A1 WO 2017147779A1 CN 2016075147 W CN2016075147 W CN 2016075147W WO 2017147779 A1 WO2017147779 A1 WO 2017147779A1
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WO
WIPO (PCT)
Prior art keywords
base station
uplink data
mtc
identifier
mac
Prior art date
Application number
PCT/CN2016/075147
Other languages
French (fr)
Chinese (zh)
Inventor
刘菁
黄敏
曾可
舒兵
Original Assignee
华为技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Priority to PCT/CN2016/075147 priority Critical patent/WO2017147779A1/en
Publication of WO2017147779A1 publication Critical patent/WO2017147779A1/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W68/00User notification, e.g. alerting and paging, for incoming communication, change of service or the like

Definitions

  • the present invention relates to the field of wireless communication technologies, and in particular, to a data transmission method, device, and system.
  • the UE needs to change from the idle state to the active state to trigger the random access procedure, and establish a radio resource control (English full name: Radio Resource Control, English abbreviation: RRC) connection and air interface data radio bearer with the eNB.
  • a radio resource control English full name: Radio Resource Control, English abbreviation: RRC
  • RRC Radio Resource Control
  • GTP GPRS Tunneling Protocol
  • the foregoing implementation process requires a large amount of interaction between RRC signaling and S1 signaling when performing RRC connection establishment.
  • the industry tends to use the connectionless data transmission mode shown in FIG. 2 to transmit downlink data.
  • the idle UE arrives with the downlink data
  • the downlink data is directly included in the paging message, and the SGW notifies the MME to initiate the paging message carrying the downlink data to the UE on all the base stations (eNBs) in the paging area.
  • the UE determines whether the network side finds itself according to the UE identifier carried in the paging message; if yes, the UE directly obtains the downlink data carried by the paging.
  • the technical solution shown in FIG. 2 does not require the UE to enter the connection state, the RRC signaling and the S1 signaling overhead are reduced.
  • the paging message carrying the downlink data in the mechanism is that all the base stations in the paging area are to the UE. Sended, this will bring a lot of resource overhead.
  • the embodiments of the present invention provide a data transmission method, device, and system, to solve the problem that the resource overhead caused by paging messages carrying downlink data is required to be transmitted by all base stations to the UE in the existing connectionless data transmission mechanism.
  • an embodiment of the present invention provides a data transmission method, which is applied to a first machine type communication gateway MTC GW, and the method may include:
  • the first base station is triggered to send a first paging paging message including downlink data of the UE to the UE by sending the downlink data of the UE to the first base station.
  • the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station.
  • the MTC GW can correctly route the downlink data of the UE to the base station.
  • the downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is sent to the UE in the case that the specific location of the UE is not determined in the existing mechanism.
  • the problem of a lot of resource overhead is a lot of resource overhead.
  • the first uplink data may be generated by the first base station according to the second uplink data that is sent by the UE by the first base station, where the second uplink data includes the UE identifier, and may be moved to the first base station by the UE. Data that is actively reported to the first base station when the UE is successfully paged by the first base station, and may be reported to the UE after being successfully paged by the first base station.
  • First base station Specifically, in an achievable manner of the first aspect,
  • the first MTC GW Before the first MTC GW receives the first uplink data sent by the first base station, if the first MTC GW receives the downlink data of the UE, the first MTC GW sends to all the base stations connected to the first MTC GW. a second paging message, where the second paging message includes the UE identifier;
  • each base station of each of the base stations pages the UE by using a third paging message within its coverage; the all base stations include the first base station;
  • the first base station receives the second uplink data that is sent by the UE and carries the identifier of the UE and the identifier of the first MTC GW, and according to the identifier of the first MTC GW. Sending the first uplink data to the first MTC GW.
  • the second uplink data is reported by the UE to the first base station when the UE moves to the coverage of the first base station (eg, the coverage from the coverage of the second base station to the coverage of the first base station).
  • Data if the UE is an illegal user, it will cause unnecessary troubles for subsequent data transmission. Therefore, in order to ensure the security of subsequent data transmission, the UE needs to be verified by the first base station or the first MTC GW. legality.
  • the second uplink data when the second uplink data is data that is actively reported when the UE moves to the range of the first base station, the second uplink data further includes: the first MTC GW The identifier and the message authentication code MAC; the first uplink data further includes: the MAC; the receiving the first uplink data sent by the first base station includes:
  • the method further includes:
  • the integrity check is successful, it is determined that the UE is a legitimate UE.
  • the second uplink data further includes: an identifier of the second MTC GW and the MAC;
  • the first uplink data further includes: the identifier of the MAC and the second MTC GW;
  • the method further includes:
  • the request message includes the UE identifier, and the request message is used to request to search for the UE on the second MTC GW Identifying key information of the corresponding UE;
  • the integrity check is successful, it is determined that the UE is a legitimate UE.
  • the second uplink data further includes: an identifier of the second base station and a MAC;
  • the first uplink data further includes: an identifier of the second base station, where the MAC is used to determine, by the first base station Whether the UE is a legal UE, and the receiving the first uplink data sent by the first base station includes:
  • the identifier of the first MTC GW is: the first base station from the first Obtained at the second base station.
  • the second uplink data further includes: an identifier of the second base station and a MAC; the MAC is used to enable the first base station to determine whether the UE is a legal UE, and the receiving the first base station sends
  • the first uplink data includes:
  • the verification of the legitimacy of the UE by the first MTC GW or the first base station ensures the security of subsequent data transmission.
  • an embodiment of the present invention provides a data transmission method, which is applied to a first base station, where the method includes:
  • the first uplink data is used by the first MTC GW to determine, according to the UE identifier in the first uplink data, that the UE is in the first The coverage of the base station, where the first uplink data includes: the UE identifier; the UE identifier is used to identify the UE; and the UE and the first base station do not establish a radio resource control RRC connection;
  • the first uplink data may be sent to the first device type communication gateway MTC GW, so that the MTC GW can accurately know that the UE is in the coverage of the base station.
  • the MTC GW can correctly correct the downlink data of the UE.
  • the base station carries the downlink data to the UE by using a paging message, thereby avoiding the paging message of the downlink data carried by multiple base stations to the UE in the case that the specific location of the UE is not determined in the existing mechanism.
  • the first uplink data may be generated by the first base station according to the second uplink data that is sent by the UE by the first base station, where the second uplink data includes the UE identifier, and may be moved to the first base station by the UE. Data that is actively reported to the first base station when the UE is successfully paged by the first base station, and may be reported to the UE after being successfully paged by the first base station.
  • the first base station specifically, in an implementation manner of the second aspect, before the sending the first uplink data to the first machine type communication gateway MTC GW, the method further includes:
  • the second paging message includes: an identifier of the UE
  • the second uplink data is used to notify the first base station that the UE is paged; and the second uplink data includes: the UE identifier and the first The identity of the MTC GW;
  • Sending the first uplink data packet to the first machine type communication gateway MTC GW include:
  • the second uplink data is reported by the UE to the first base station when the UE moves to the coverage of the first base station (eg, the coverage from the coverage of the second base station to the coverage of the first base station).
  • Data if the UE is an illegal user, it will cause unnecessary troubles for subsequent data transmission. Therefore, in order to ensure the security of subsequent data transmission, the UE needs to be verified by the first base station or the first MTC GW. legality.
  • the second uplink data when the second uplink data is the data that is actively reported when the UE moves to the range of the first base station, the second uplink data further includes: the second MTC GW. And the first uplink data includes: the MAC and the identifier of the second MTC GW; the sending, by the first machine type communication gateway MTC GW, the first uplink data includes:
  • the first MTC GW And sending, by the first MTC GW, the first uplink data to the first MTC GW, where the first uplink data is used by the first MTC GW to determine, according to the MAC, that the UE is a legal UE.
  • the second uplink data further includes: an identifier of the second MTC GW and the MAC; the first uplink data further includes: an identifier of the MAC and the second MTC GW, where the first uplink data is used
  • the first MTC GW obtains key information of the UE from the second MTC GW, and determines that the UE is a legal UE according to the key information of the UE and the MAC.
  • the second uplink data further includes: an identifier of the second base station and a MAC;
  • the first uplink data further includes: an identifier of the second base station; after receiving the second uplink data sent by the UE Before the first uplink data is sent to the first MTC GW, the method further includes:
  • the request message includes an identifier of the UE, where the request message is used to request the second base station to query according to the identifier of the UE Corresponding to the UE stored in the second base station Key information
  • the integrity check is successful, it is determined that the UE is a legitimate UE.
  • the second uplink data further includes: an identifier of the second base station and a MAC; after receiving the second uplink data sent by the UE, before sending the first uplink data to the first MTC GW, The method also includes:
  • the request message includes an identifier of the UE, and the request message is used to request the second base station to query, according to the identifier of the UE, key information corresponding to the UE stored in the second base station;
  • the integrity check is successful, it is determined that the UE is a legitimate UE.
  • the verification of the legitimacy of the UE by the first MTC GW or the first base station ensures the security of subsequent data transmission.
  • an embodiment of the present invention provides a machine type communication gateway MTC GW, where the MTC GW may include:
  • a receiving unit configured to receive first uplink data sent by the first base station;
  • the first uplink data includes a user equipment UE identifier; and the UE identifier is used to identify the UE;
  • a determining unit configured to determine, according to the UE identifier in the first uplink data that is received by the receiving unit, that the UE is in a coverage range of the first base station, where the UE is not established with the first base station Radio resource control RRC connection;
  • a sending unit configured to: after the determining unit determines that the UE is in the coverage of the first base station, trigger the first base station to send to the UE by sending downlink data of the UE to the first base station Sending a first paging paging message including downlink data of the UE.
  • the MTC carrying the UE identifier transmitted by the base station can be used to make the MTC.
  • the GW accurately knows that the UE is in the coverage of the base station, and when there is downlink data of the UE, the MTC GW can correctly route the downlink data of the UE to the base station, and the base station carries the downlink data to the UE by using a paging message, thereby The problem of a large amount of resource overhead caused by paging messages sent by multiple base stations carrying downlink data to the UE in the case of notifying the specific location of the UE in the existing mechanism is avoided.
  • the first uplink data may be generated by the first base station according to the second uplink data that is sent by the UE by the first base station, where the second uplink data includes the UE identifier, and may be moved to the first base station by the UE. Data that is actively reported to the first base station when the UE is successfully paged by the first base station, and may be reported to the UE after being successfully paged by the first base station.
  • the first base station specifically, in an achievable manner of the first aspect,
  • the receiving unit is further configured to: before receiving the first uplink data sent by the first base station, receive downlink data of the UE sent by the serving gateway;
  • the sending unit is further configured to send a second paging message to all base stations connected to the MTC GW, where the second paging message includes the UE identifier; and the second paging message is used by all the base stations After receiving the second paging message, each base station in each of the base stations pages the UE by using a third paging message within its coverage; the all base stations include the first base station;
  • the receiving unit is specifically configured to receive, by the first base station, the first uplink data that is sent by the first base station to the MTC GW according to the identifier of the MTC GW;
  • the first uplink data is generated by the first base station according to the received second uplink data sent by the UE, and the second uplink data is used to notify the first base station that the UE is paged to
  • the second uplink data includes: the UE identifier and an identifier of the MTC GW.
  • the second uplink data is reported by the UE to the first base station when the UE moves to the coverage of the first base station (eg, the coverage from the coverage of the second base station to the coverage of the first base station).
  • Data if the UE is an illegal user, it will cause unnecessary troubles for subsequent data transmission. Therefore, in order to ensure the security of subsequent data transmission, the UE needs to be verified by the first base station or the first MTC GW. Legal Sex.
  • the second uplink data when the second uplink data is data that is actively reported when the UE moves to the range of the first base station, the second uplink data further includes: the MTC GW And the message authentication code MAC; the first uplink data further includes: the MAC;
  • the receiving unit is specifically configured to receive first uplink data that is sent by the first base station according to the MTC GW identifier;
  • the MTC GW further includes a check unit
  • the checking unit is configured to search, on the MTC GW, key information of the UE corresponding to the UE identifier, before the determining unit determines that the UE is within the coverage of the first base station;
  • the integrity check is successful, it is determined that the UE is a legitimate UE.
  • the second uplink data further includes: an identifier of the second MTC GW and the MAC;
  • the first uplink data further includes: the identifier of the MAC and the second MTC GW;
  • the sending unit is further configured to: before the determining unit determines that the UE is within the coverage of the first base station, send a request message to the second MTC GW according to the identifier of the second MTC GW; the request message includes The UE identifier, the request message is used to request to search for the key information of the UE corresponding to the UE identifier on the second MTC GW;
  • the receiving unit is further configured to receive key information of the UE that is sent by the second MTC GW;
  • the MTC GW further includes: a check unit,
  • the check unit is configured to perform integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determine that the UE is a legal UE.
  • the second uplink data further includes: an identifier of the second base station and a MAC;
  • the first uplink data further includes: an identifier of the second base station, where the MAC is used to determine, by the first base station Whether the UE is a legal UE;
  • the receiving unit is configured to receive, by the first base station, first uplink data that is sent according to the identifier of the MTC GW after confirming that the UE is a valid UE; the identifier of the MTC GW is: the first base station Obtained from the second base station.
  • the second uplink data further includes: an identifier of the second base station and a MAC; the MAC is used to enable the first base station to determine whether the UE is a legal UE,
  • the receiving unit is specifically configured to receive, by the first base station, first uplink data that is sent by the first base station to the MTC GW after confirming that the UE is a legal UE.
  • the verification of the legitimacy of the UE by the MTC GW or the first base station ensures the security of subsequent data transmission.
  • the receiving unit in the third aspect may be a receiver of the MTC GW, and the sending unit may be a transmitter of the MTC GW; in addition, the receiving unit and the sending unit may also be integrated to form a transceiver of the MTC GW.
  • the determining unit and the checking unit may be separately set up processors, or may be integrated in one processor of the MTC GW, or may be stored in the memory of the MTC GW in the form of program code, by a certain MTC GW.
  • a processor calls and executes the functions of the above determining unit and the checking unit.
  • the processor described herein may be a Central Processing Unit (CPU), or an Application Specific Integrated Circuit (ASIC), or one or more integrated systems configured to implement embodiments of the present invention. Circuit.
  • the embodiment of the present invention further provides a base station, where the base station may include:
  • a sending unit configured to send first uplink data to the first device type communication gateway MTC GW, where the first uplink data is used by the first MTC GW to determine the UE according to the UE identifier in the first uplink data
  • the first uplink data includes: the UE identifier; the UE identifier is used to identify the UE; and the UE does not establish a radio resource control RRC connection with the base station;
  • a receiving unit configured to receive downlink data of the UE sent by the first MTC GW;
  • the sending unit is further configured to send a first paging paging message to the UE, where the first paging message includes downlink data of the UE.
  • the first uplink data may be sent to the first device type communication gateway MTC GW, so that the MTC GW can accurately know that the UE is in the coverage of the base station.
  • the MTC GW can correctly correct the downlink data of the UE.
  • the base station carries the downlink data to the UE by using a paging message, thereby avoiding the paging message of the downlink data carried by multiple base stations to the UE in the case that the specific location of the UE is not determined in the existing mechanism.
  • the first uplink data may be generated by the base station according to the second uplink data that is sent by the UE by the base station, where the second uplink data includes the identifier of the UE, and may be moved by the UE to the coverage of the base station (eg, The data that is actively reported to the base station when the coverage of the second base station is moved to the coverage of the first base station; and may be reported to the base station after the UE is successfully paged by the base station, specifically, in the fourth aspect
  • the receiving unit is further configured to: before the transmitting unit sends the first uplink data to the first MTC GW, receive a second paging message sent by the first MTC GW;
  • the paging message includes: an identifier of the UE;
  • the sending unit is further configured to page the UE by using a third paging message within the coverage of the first base station;
  • the receiving unit is further configured to receive second uplink data returned by the UE, where the second uplink data is used to notify the first base station that the UE is paged, and the second uplink data includes: Describe the UE identifier and the identifier of the first MTC GW;
  • the sending unit is specifically configured to send the first uplink data to the first MTC GW according to the identifier of the first MTC GW.
  • the second uplink data is data that the UE actively reports to the base station, when the UE moves to the coverage of the base station (eg, the coverage from the coverage of the second base station to the coverage of the first base station). If the UE is an illegal user, it will cause unnecessary troubles for subsequent data transmission. Therefore, in order to ensure the security of subsequent data transmission, it is necessary to verify the legitimacy of the UE through the base station or the first MTC GW.
  • the receiving unit when the second uplink data is data that is actively reported when the UE moves to the range of the first base station, the receiving unit, And receiving, by the sending unit, the second uplink data sent by the UE, before sending the first uplink data to the first machine type communication gateway MTC GW;
  • the second uplink data is used to notify the first base station that the UE moves from the coverage of the second base station to the coverage of the first base station, and the second uplink data includes: an identifier of the UE.
  • the second uplink data further includes: an identifier of the second MTC GW and the MAC;
  • the first uplink data further includes: the identifier of the MAC and the second MTC GW;
  • the sending unit is configured to send the first uplink data to the first MTC GW according to the first MTC GW identifier, where the first uplink data is used by the first MTC GW to determine according to the MAC
  • the UE is a legal UE.
  • the second uplink data further includes: an identifier of the second MTC GW and the MAC; the first uplink data further includes: the identifier of the MAC and the second MTC GW, where the uplink data is used by the The first MTC GW obtains key information of the UE from the second MTC GW, and determines that the UE is a legal UE according to the key information of the UE and the MAC.
  • the second uplink data further includes: an identifier of the second base station and a MAC;
  • the first uplink data further includes: an identifier of the second base station;
  • the sending unit is configured to: after the receiving unit receives the second uplink data sent by the UE, send a request message to the second base station according to the identifier of the second base station; the request message includes the An identifier of the UE, where the request message is used to request the second base station to query, according to the identifier of the UE, key information corresponding to the UE stored in the second base station;
  • the receiving unit is further configured to receive key information of the UE sent by the second base station;
  • the base station further includes: a verification unit,
  • the check unit is configured to perform integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determine that the UE is a legal UE.
  • the second uplink data further includes: an identifier of the second base station, and MAC;
  • the sending unit is further configured to: after the receiving unit receives the second uplink data sent by the UE, before sending the first uplink data to the first MTC GW, according to the identifier of the second base station, The second base station sends a request message and sends a notification message to the second base station, and the second base station is notified to release the context information of the UE stored in the second base station; the request message includes an identifier of the UE, The request message is used to request the second base station to query, according to the identifier of the UE, key information corresponding to the UE stored in the second base station;
  • the receiving unit is further configured to receive key information of the UE sent by the second base station;
  • the base station further includes: a check unit;
  • the check unit is configured to perform integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determine that the UE is a legal UE.
  • the verification of the legitimacy of the UE by the first MTC GW or the base station ensures the security of subsequent data transmission.
  • the embodiment of the present invention further provides a data transmission system, including the MTC GW provided by the third aspect, the base station provided by the fourth aspect, and the UE.
  • the receiving unit in the fourth aspect may be a receiver of the base station, and the sending unit may be a transmitter of the base station; in addition, the receiving unit and the sending unit may also be integrated to form a transceiver of the base station.
  • the determining unit may be a separately set processor, or may be integrated in a processor of the base station, or may be stored in a memory of the base station in the form of program code, and is called by one of the base stations and executes the above. Determine the function of the unit and the check unit.
  • the processor described herein may be a Central Processing Unit (CPU), or an Application Specific Integrated Circuit (ASIC), or one or more integrated systems configured to implement embodiments of the present invention. Circuit.
  • the embodiment of the present invention provides a data transmission method, device, and system.
  • the first MTC GW receives the first uplink data that is sent by the first base station and includes the UE identifier, and is based on the UE identifier in the first uplink data. Determining that the UE is in the first The downlink data of the received UE is sent to the first base station, and the first base station sends the downlink data of the UE in the first paging paging message to send the paging to the UE.
  • the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station.
  • the MTC GW can correctly route the downlink data of the UE to the base station.
  • the downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is initiated to the paging station in the existing mechanism.
  • 1 is a flow chart of a data transmission method
  • FIG. 3 is a schematic diagram of a network architecture according to an embodiment of the present disclosure.
  • FIG. 4 is a schematic structural diagram of an MTC GW 10 and a base station 20 according to an embodiment of the present invention
  • FIG. 5 is a flowchart of a data transmission method according to an embodiment of the present invention.
  • FIG. 5a is a flowchart of a data transmission method according to an embodiment of the present invention.
  • FIG. 5b is a flowchart of a data transmission method according to an embodiment of the present invention.
  • FIG. 5c is a flowchart of a data transmission method according to an embodiment of the present invention.
  • FIG. 5 is a flowchart of a data transmission method according to an embodiment of the present invention.
  • FIG. 6 is a structural diagram of an MTC GW 30 according to an embodiment of the present invention.
  • FIG. 7 is a structural diagram of a base station 40 according to an embodiment of the present invention.
  • FIG. 8 is a structural diagram of a data transmission system according to an embodiment of the present invention.
  • FIG. 3 is a schematic diagram of a network architecture according to an embodiment of the present invention.
  • the network architecture may include: a UE, a base station 20, and an MTC GW10, where a public tunnel (such as a GTP tunnel) is established between the MTC GW10 and the base station 20.
  • the UE is in an idle state, and no Radio Resource Control (RRC) is established with the base station 20.
  • RRC Radio Resource Control
  • the UE can move between base stations 20; since the UE is in an idle state. Therefore, in the prior art, because the UE is in an idle state, the MTC GW 10 cannot learn the location information of the UE, so that when the MTC GW 10 receives the downlink data of the UE, the downlink data is sent to all the base stations connected to the MTC GW 10. 20.
  • the base station 20 transmits downlink data to the UE through a paging message, which increases resource overhead.
  • the UE may report the identity of the UE to the MTC GW 10 through the base station 20 in the cell in which the UE is located, so that the MTC GW 10 determines that the UE is in the coverage of the base station 20, and further can downlink the received UE.
  • the data is delivered to the UE only through the base station 20, and the resource overhead of other base stations 20 connected to the MTC GW 10 is avoided.
  • the MTC GW 10 may include: a transceiver 1011, a processor 1012, a memory 1013, and at least one communication bus 1014, for implementing these devices.
  • the base station 20 may include: a transceiver 2011, a processor 2012, a memory 2013, and at least one communication bus 2014 for implementing connections and mutual communication between the devices;
  • the transceiver 1011 and the transceiver 2011 can be implemented by an antenna, and can be used for data interaction with an external network element.
  • the transceiver 1011 of the MTC GW10 can send and receive data packets with the base station 20;
  • Device 2011 can send and receive with UE or a packet between MTC GW10;
  • the processor 1012 and the processor 2012 may be a central processing unit (CPU), may be an Application Specific Integrated Circuit (ASIC), or be configured to implement an embodiment of the present invention.
  • CPU central processing unit
  • ASIC Application Specific Integrated Circuit
  • One or more integrated circuits For example: one or more digital singal processors (DSPs), or one or more Field Programmable Gate Arrays (FPGAs).
  • DSPs digital singal processors
  • FPGAs Field Programmable Gate Arrays
  • the memory 1013 and the memory 2013 may be a volatile memory such as a random-access memory (RAM) or a non-volatile memory.
  • RAM random-access memory
  • non-volatile memory For example, a read-only memory (ROM), a flash memory, a hard disk drive (HDD), or a solid-state drive (SSD); or a combination of the above types of memories.
  • ROM read-only memory
  • HDD hard disk drive
  • SSD solid-state drive
  • the communication bus 1014 and the communication bus 2014 can be divided into an address bus, a data bus, a control bus, etc., and can be an Industry Standard Architecture (ISA) bus, a Peripheral Component (PCI) bus, or an extended industry standard. Architecture (Extended Industry Standard Architecture, EISA) bus, etc. For ease of representation, only one thick line is shown in Figure 4, but it does not mean that there is only one bus or one type of bus.
  • ISA Industry Standard Architecture
  • PCI Peripheral Component
  • EISA Extended Industry Standard Architecture
  • the processor 2012 generates the first uplink data, and the first uplink data is sent by the transceiver 2011 to the MTC GW10 transceiver 1011; the first uplink data includes the user equipment UE identifier; the UE identifier is used to identify the UE;
  • the processor 1012 obtains the UE identifier from the first data received by the transceiver 1011, and identifies that the UE is in the coverage of the base station 20 that sends the first uplink data according to the UE identifier.
  • the processor 1012 transmits the downlink data of the UE to the transceiver 1012 of the base station 20 through the transceiver 1011;
  • the processor 1012 carries the downlink data received by the transceiver 1012 in the paging cancellation
  • the paging is sent to the UE, so that the UE obtains its own downlink data from the paging message, and completes the current data transmission.
  • the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station.
  • the MTC GW can correctly route the downlink data of the UE to the corresponding
  • the base station carries the downlink data to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is sent to the UE in the case that the specific location of the UE is not determined in the existing mechanism.
  • the problem of a large amount of resource overhead is mapped to Physical channels.
  • the first uplink data may be generated by the base station 20 according to the second uplink data that is sent by the UE by the base station 20, where the second uplink data includes the UE identifier, which may be the coverage of the UE moving to the base station 20.
  • the data that is reported to the base station 20 by the internal time is also reported to the base station 20 after the UE is successfully paged by the base station 20.
  • the second uplink data is data that the UE actively reports to the base station 20. If the UE is an illegal user, the subsequent data transmission may be unnecessary.
  • the base station 20 or the MTC GW 10 is required to verify the validity of the UE and ensure the security of subsequent data transmission.
  • the second uplink data may further include: an identifier of the MTC GW 10 and a message authentication code (MAC); the first uplink data further includes: the MAC;
  • MAC message authentication code
  • the second uplink data may further include: an identifier of the MTC GW 10 and a MAC; the first uplink data may further include: the MAC and the second MTC GW Identification
  • the transceiver 1011 of the MTC GW 10 sends a request message to the second MTC GW according to the identifier of the second MTC GW before the processor 1012 determines that the UE is within the coverage of the base station 20; requesting the second MTC GW to search and The UE identifies key information of the corresponding UE, and receives key information of the UE returned by the second MTC GW;
  • the processor 1012 receives the key information of the UE sent by the second MTC GW at the transceiver 1011, performs integrity check on the MAC by using the key information of the UE, and determines if the integrity check succeeds.
  • the UE is a legal UE.
  • the second uplink data may further include: an identifier of the second base station and a MAC;
  • the first uplink data may further include: an identifier of the second base station;
  • the transceiver 2011 After receiving the second uplink data sent by the UE, the transceiver 2011 sends a request message to the second base station according to the identifier of the second base station, and requests the second base station to query the confidentiality corresponding to the UE according to the identifier of the UE. Key information, and receiving key information of the UE returned by the second base station and an identifier of the MTC GW 10;
  • the processor 2012 After receiving the key information of the UE sent by the second base station, the processor 2012 performs integrity verification on the MAC by using the key information of the UE, and if the integrity check succeeds, determining The UE is a legal UE;
  • the transceiver 2011 After receiving the identifier of the MTC GW 10, the transceiver 2011 sends the first uplink data to the MTC GW 10 according to the identifier of the MTC GW 10.
  • the second uplink data may further include: an identifier of the second base station and a MAC;
  • the transceiver 2011 After receiving the second uplink data sent by the UE, the transceiver 2011 sends a request message to the second base station according to the identifier of the second base station before sending the first uplink data to the MTC GW10. And sending a notification message to the second base station, informing the second base station to release the context information of the UE stored in the second base station, requesting the second base station to query the second base according to the identifier of the UE Key information corresponding to the UE stored in the base station; and receiving key information of the UE sent by the second base station;
  • the processor 2012 After receiving the key information of the UE, the processor 2012 performs integrity verification on the MAC by using key information of the UE, and if the integrity check succeeds, determining the location The UE is a legal UE.
  • the verification of the legitimacy of the UE by the MTC GW10 or the base station ensures the security of subsequent data transmission.
  • embodiment 1 shows and describes in detail the process of the data transmission method provided by the present invention, wherein the steps shown may also be performed in a computer system of a set of executable instructions. Moreover, although logical sequences are shown in the figures, in some cases the steps shown or described may be performed in a different order than the ones described herein.
  • FIG. 5 is a flowchart of a data transmission method according to an embodiment of the present invention.
  • the MTC GW 10 and the base station 20 shown in FIG. 3 are mutually executed, and are used to send downlink data to any UE in the network architecture shown in FIG. 3; As shown in FIG. 5, the method may include the following steps:
  • the first base station sends first uplink data to the first MTC GW; the first uplink data includes a UE identifier, and the UE identifier is used to identify the UE.
  • the first base station is any base station in the network architecture shown in FIG. 3.
  • the first MTC GW is an MTC GW that establishes a public tunnel connection with the first base station, and the UE is in an idle state, and is not in the idle state. Establish an RRC connection.
  • a link from a UE to a base station, a base station, and an MTC GW may be referred to as an uplink
  • a link from an MTC GW to a base station and a base station to a UE may be referred to as a downlink
  • the data sent on the base station to the MTC GW link is the uplink data.
  • the first uplink data may be packet data with a longer period and a smaller data size.
  • the first MTC GW determines, according to the UE identifier in the first uplink data, that the UE is in a coverage range of the first base station.
  • the first uplink data may further include an identifier of the first base station, where the first The identifier of the base station is used to identify the first base station.
  • the first MTC GW may determine, according to the UE identifier and the first base station identifier carried in the uplink data, that the UE is in the Within the coverage of the first base station.
  • the first base station directly sends the first uplink data carrying only the UE identifier to the first MTC GW by using a public tunnel established between the first base station and the first MTC GW. Since the first MTC GW establishes a public tunnel with a base station, once the first MTC GW receives the first uplink data from the public tunnel, it knows that the first uplink data is sent by the first base station, and then passes The UE identifier carried by the uplink data determines the UE, and knows that the UE is within the coverage of the first base station.
  • the first MTC GW sends downlink data of the UE to the first base station.
  • the first MTC GW sends the downlink data of the UE to the first base station by using a public tunnel.
  • the first base station sends a first paging message to the UE, where the first paging message includes downlink data of the UE.
  • the first base station can successfully page to the UE.
  • the UE may acquire downlink data in the first paging message after being successfully paged.
  • the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station.
  • the MTC GW can correctly route the downlink data of the UE to the base station.
  • the downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is sent to the UE in the case that the specific location of the UE is not determined in the existing mechanism.
  • the problem of a lot of resource overhead is a lot of resource overhead.
  • the first uplink data in the step S101 may be generated by the first base station according to the second uplink data, that is, before the step S101, the first base station further needs to receive the second uplink data, where the second uplink data includes the Referring to the UE identifier, the second uplink data may be sent by the UE to the first base station in any of the following cases:
  • the UE finds that it moves from the coverage of other base stations to the range of the first base station (eg, moves from the coverage of the second base station to the coverage of the first base station)
  • the UE actively reports the second uplink data to the first base station.
  • the UE may obtain the physical cell identifier (PCI) information of the cell by using a system message or by reading the synchronization signal to find that it moves from the coverage of the other base station to the range of the first base station.
  • PCI physical cell identifier
  • the UE After the UE is successfully paged by the first base station, the UE reports the second uplink data to the first base station.
  • the method may further include: before the UE is successfully paged by the first base station, the method may further include:
  • the first MTC GW receives the downlink data of the UE, and sends a second paging message to all the base stations connected to the first MTC GW, where the second paging message includes the UE identifier;
  • each base station of each of the base stations pages the UE by using a third paging message within its coverage; the all base stations include the first base station.
  • the UE Because the UE is within the coverage of the first base station, only the third paging message sent by the first base station can successfully page to the UE.
  • the second uplink data may further include: an identifier of the first MTC GW, where the identifier of the first MTC GW is used by the first base station according to the identifier of the first MTC GW.
  • the first MTC GW sends the first uplink data; the identifier of the first MTC GW is used to identify the first MTC GW.
  • the uplink data is actively reported to the first base station. If the UE is an illegal user, the subsequent data transmission is unnecessary. trouble. Therefore, in order to ensure the security of the subsequent data transmission, in the embodiment of the present invention, if the second uplink data reported by the UE during the mobile process is received, the legality of the UE needs to be verified by the first base station or the first MTC GW. After the UE is determined to be a legal UE, the base station where the UE is located is determined to perform data transmission. Specifically, the legality of the UE may be determined by using the method in any of the following FIG. 5a to FIG. 5d:
  • the method shown in FIG. 5a may include the following steps:
  • the UE reports second uplink data to the first base station, where the second uplink data is sent.
  • the identifier includes: the identifier of the UE, the identifier of the first MTC GW, and a message authentication code (MAC).
  • the first base station sends first uplink data to the first MTC GW according to the identifier of the first MTC GW, where the first uplink data includes: the UE identifier, the MAC.
  • the first MTC GW searches for key information of the UE corresponding to the UE identifier, performs integrity verification on the MAC by using the key information of the UE, and if the integrity check succeeds, determines the location.
  • the UE is a legal UE.
  • the MAC is mainly used to verify the integrity of the message and prevent the message from being tampered with by the attacker.
  • the sender may place the message authentication code behind the message and send it to the receiver along with the message.
  • the receiver may receive the received message, key information, and other parameters.
  • a new message verification code is derived by Key Derivatioin Function (KDF), and the new message verification code is compared with the message verification code in the message. If the two are consistent, the message is not Tampering, the integrity check is successful. If the two are inconsistent, the message has not been tampered with and the integrity check failed.
  • KDF Key Derivatioin Function
  • the first uplink data and the key information may be used as input parameters, and a new MAC is derived through the KDF function, and the new MAC is compared with the MAC in the first uplink data. If the two are consistent, the message has not been tampered with, and the integrity check succeeds. If the two are inconsistent, the message has not been tampered with, and the integrity check fails.
  • the method shown in Figure 5b can include the following steps:
  • the UE reports the second uplink data to the first base station, where the second uplink data includes: the identifier of the UE, the identifier of the second base station, and the MAC.
  • the first base station sends a request message to the second base station according to the identifier of the second base station; the request message includes an identifier of the UE, and the request message is used to request the second base station according to the UE.
  • the identifier is used to query key information corresponding to the UE stored in the second base station.
  • the first base station receives the key that is sent by the second base station and includes the UE.
  • the first base station performs integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determining that the UE is a legal UE.
  • the first base station may send the first uplink packet data to the first MTC GW according to the identifier of the first MTC GW received in the step S103b, where the first uplink data may include: the UE identifier, the Determining the identity of the first base station such that the first MTC GW determines that the UE is within the coverage of the first base station.
  • the method shown in Figure 5c can include the following steps:
  • the UE reports the second uplink data to the first base station, where the second uplink data includes: the identifier of the UE, the identifier of the second MTC GW, and the MAC.
  • the first base station sends the first uplink data to the first MTC GW, where the first uplink data includes: the identifier of the UE, the identifier of the second MTC GW, and the MAC.
  • the first MTC GW is an MTC GW that can currently provide services for the UE
  • the second MTC GW is an MTC GW that provides services for the UE before the UE moves.
  • the first MTC GW sends a request message to the second MTC GW according to the identifier of the second MTC GW; the request message includes the UE identifier, and the request message is used to request the second MTC GW.
  • the key information of the UE corresponding to the UE identifier is searched for.
  • the first MTC GW receives the key information of the UE that is sent by the second MTC GW.
  • the first MTC GW performs integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determining that the UE is a legal UE.
  • the method shown in Figure 5d can include the following steps:
  • the UE reports the second uplink data to the first base station, where the second uplink data includes: the identifier of the UE, the identifier of the second base station, and the MAC.
  • the first base station sends a request message to the second base station according to the identifier of the second base station; the request message includes an identifier of the UE, and the request message is used to request the second base station according to the UE. Identification of the second base station stored in the query Key information corresponding to the UE.
  • the first base station receives the key information of the UE that is sent by the second base station.
  • S104d Perform integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determine that the UE is a legal UE.
  • the first base station may send the first uplink data to the first MTC GW, where the first uplink data may include: the UE identifier, and the first MTC GW determines, according to the UE identifier, that the UE is at the first base station. Coverage.
  • the MTC GW connected to the first base station changes from the second MTC GW to the first MTC GW. Therefore, in order to receive the downlink data of the UE sent by the upper gateway, The first MTC GW also needs to notify the upper layer device (eg, PGW (PDN GateWay)) to update the data channel, and switch the channel between the PGW and the second MTC GW to be between the PGW and the first MTC GW.
  • the first base station notifies the second base station to release the corresponding UE context information according to the identifier information of the second base station, and the second base station further informs the second MTC GW to perform the corresponding UE. The release of context information.
  • the embodiment of the present invention provides a data transmission method, where the first MTC GW receives the first uplink data that is sent by the first base station and includes the identifier of the UE, and determines, according to the UE identifier in the first uplink data, The UE is in the coverage of the first base station, and sends the downlink data of the received UE to the first base station, where the first base station sends the downlink data of the UE to the UE in the first paging paging message. Paging.
  • the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station.
  • the MTC GW can correctly route the downlink data of the UE to the base station.
  • the downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is initiated to the paging station in the existing mechanism.
  • FIG. 6 is a structural diagram of a machine type communication gateway MTC GW10 according to an embodiment of the present invention, for performing the method described in Embodiment 1, as shown in FIG. GW can include:
  • the receiving unit 201 is configured to receive first uplink data sent by the first base station, where the first uplink data includes a user equipment UE identifier, and the UE identifier is used to identify the UE.
  • the determining unit 202 is configured to determine, according to the UE identifier in the first uplink data that is received by the receiving unit, that the UE is in the coverage of the first base station, where the UE and the first base station are not Establish a radio resource control RRC connection.
  • the sending unit 203 is configured to: after the determining unit determines that the UE is in the coverage of the first base station, trigger the first base station to send the downlink data by sending the downlink data of the UE to the first base station.
  • the UE sends a first paging paging message, where the first paging message includes downlink data of the UE.
  • the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station.
  • the MTC GW can correctly route the downlink data of the UE to the base station.
  • the downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is sent to the UE in the case that the specific location of the UE is not determined in the existing mechanism.
  • the problem of a lot of resource overhead is a lot of resource overhead.
  • the first uplink data may be generated by the first base station according to the second uplink data that is sent by the UE by the first base station, where the second uplink data includes the UE identifier, and may be moved to the first base station by the UE. Data that is actively reported to the first base station when the UE is successfully paged by the first base station, and may be reported to the UE after being successfully paged by the first base station.
  • the first base station is specifically implemented as follows:
  • the receiving unit 201 is further configured to: before receiving the first uplink data sent by the first base station, receive downlink data of the UE sent by the serving gateway;
  • the sending unit 203 is further configured to send, to all base stations connected to the MTC GW, a second paging message, where the second paging message includes the UE identifier, and each of the base stations receives After the second paging message, sending, in its coverage, a third paging message to the UE corresponding to the UE identifier; the all base stations include the first base station;
  • the receiving unit 201 is specifically configured to receive, by the first base station, the first uplink data that is sent by the first base station to the MTC GW according to the identifier of the MTC GW;
  • the first uplink data is generated by the first base station according to the received second uplink data sent by the UE, and the second uplink data is used to notify the first base station that the UE is paged to
  • the second uplink data includes: the UE identifier and an identifier of the MTC GW.
  • the second uplink data is data that the UE actively reports to the first base station when the UE moves to the coverage of the first base station. If the UE is an illegal user, the subsequent data transmission is unnecessary. Therefore, in order to ensure the security of the subsequent data transmission, the validity of the UE needs to be verified by the first base station or the MTC GW. After the UE is determined to be a legitimate UE, data transmission is performed, and the specific implementation is as follows:
  • the second uplink data further includes: an identifier of the MTC GW and a message authentication code MAC; the first uplink data further includes: the MAC;
  • the receiving unit 201 is specifically configured to receive first uplink data that is sent by the first base station according to the MTC GW identifier.
  • the MTC GW further includes a check unit 204,
  • the checking unit 204 is configured to search, on the MTC GW, key information of the UE corresponding to the UE identifier, before the determining unit 202 determines that the UE is within the coverage of the first base station;
  • the integrity check is successful, it is determined that the UE is a legitimate UE.
  • the second uplink data further includes: an identifier of the second MTC GW and the MAC;
  • the first uplink data further includes: the identifier of the MAC and the second MTC GW;
  • the sending unit 203 is further configured to: before the determining unit 202 determines that the UE is within the coverage of the first base station, send a request message to the second MTC GW according to the identifier of the second MTC GW; the request The message includes the UE identifier, where the request message is used to request to search for the key information of the UE corresponding to the UE identifier on the second MTC GW;
  • the receiving unit 201 is further configured to receive key information of the UE that is sent by the second MTC GW;
  • the MTC GW further includes: a check unit 204,
  • the checking unit 204 is configured to perform integrity check on the MAC by using key information of the UE, and determine that the UE is a legal UE.
  • the second uplink data further includes: an identifier of the second base station and a MAC;
  • the first uplink data further includes: an identifier of the second base station, where the MAC is used to determine, by the first base station Whether the UE is a legal UE;
  • the receiving unit 201 is configured to receive, by the first base station, first uplink data that is sent according to the identifier of the MTC GW after the first base station is confirmed to be a valid UE; the identifier of the MTC GW is: the first The base station obtains from the second base station.
  • the second uplink data further includes: an identifier of the second base station and a MAC; the MAC is used to enable the first base station to determine whether the UE is a legal UE,
  • the receiving unit 201 is specifically configured to receive, by the first base station, first uplink data that is sent by the first base station to the MTC GW after confirming that the UE is a legal UE.
  • the verification of the legitimacy of the UE by the MTC GW or the first base station ensures the security of subsequent data transmission.
  • the receiving unit and the sending unit in the MTC GW shown in FIG. 6 of the present invention may be the transceiver 1011 in the MTC GW 10 shown in FIG. 4; the determining unit and the verifying unit may be separate processors, and It can be implemented in one processor of the MTC GW. In addition, it can also be stored in the memory of the MTC GW in the form of program code, and the function of the above data transmission is called by one processor of the MTC GW.
  • the processor described herein may be a Central Processing Unit (CPU), or an Application Specific Integrated Circuit (ASIC), or one or more integrated systems configured to implement embodiments of the present invention. Circuit.
  • the embodiment of the present invention provides an MTC GW, which receives the first uplink data that is sent by the first base station and includes the UE identifier, and determines, according to the UE identifier in the first uplink data, that the UE is in the first Within the coverage of a base station, it will receive The downlink data of the UE is sent to the first base station, and the first base station includes the downlink data of the UE in the first paging paging message to send a page to the UE.
  • the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station.
  • the MTC GW can correctly route the downlink data of the UE to the base station.
  • the downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is sent to the UE in the case that the specific location of the UE is not determined in the existing mechanism.
  • FIG. 7 is a structural diagram of a base station 40 according to an embodiment of the present invention. As shown in FIG. 7, the base station 40 may include:
  • the sending unit 301 is configured to send the first uplink data to the first device type communication gateway MTC GW, where the first uplink data is used by the first MTC GW to determine, according to the UE identifier in the first uplink data,
  • the UE is in the coverage of the first base station, where the first uplink data includes: the UE identifier; the UE identifier is used to identify the UE; and the UE does not establish a radio resource control RRC connection with the base station. .
  • the receiving unit 302 is configured to receive downlink data of the UE sent by the first MTC GW.
  • the sending unit 301 is further configured to send a first paging paging message to the UE, where the first paging message includes downlink data of the UE.
  • the first uplink data may be sent to the first device type communication gateway MTC GW, so that the MTC GW can accurately know that the UE is in the coverage of the base station.
  • the MTC GW can correctly correct the downlink data of the UE.
  • the base station carries the downlink data to the UE by using a paging message, thereby avoiding the paging message of the downlink data carried by multiple base stations in the existing mechanism without determining the specific location of the UE.
  • the first uplink data may be generated by the base station according to the second uplink data that is sent by the base station by the base station, where the second uplink data includes the UE identifier.
  • the data that is actively reported to the base station when the UE moves to the coverage of the base station eg, when moving from the coverage of the second base station to the coverage of the first base station; and may also be after the UE is successfully paged by the base station Reported to the base station, the specific implementation is as follows:
  • the receiving unit 302 is further configured to: before the transmitting unit 301 sends the first uplink data to the first MTC GW, receive the second paging message sent by the first MTC GW; the second paging message includes: Said UE identity;
  • the sending unit 301 is further configured to send a third paging message to the UE corresponding to the UE identifier in the coverage of the first base station;
  • the receiving unit 302 is further configured to receive second uplink data returned by the UE, where the second uplink data is used to notify the base station that the UE is paged, and the second uplink data includes: a UE identifier and an identifier of the first MTC GW;
  • the sending unit 301 is specifically configured to send the first uplink data to the first MTC GW according to the identifier of the first MTC GW.
  • the second uplink data is the data that the UE actively reports to the base station, when the UE moves to the coverage of the certain base station (eg, the coverage from the coverage of the second base station to the coverage of the first base station). If the UE is an illegal user, it will bring unnecessary trouble to the subsequent data transmission. Therefore, in order to ensure the security of the subsequent data transmission, the base station or the first MTC GW is required to verify the validity of the UE.
  • the implementation is as follows:
  • the second uplink data further includes: an identifier of the second MTC GW and a MAC;
  • the first uplink data further includes: the MAC and an identifier of the second MTC GW;
  • the sending unit 301 is specifically configured to send the first uplink data to the first MTC GW according to the first MTC GW identifier, where the first uplink data is used by the first MTC GW according to the MAC Determining that the UE is a legal UE.
  • the second uplink data further includes: an identifier of the second MTC GW and the MAC;
  • the first uplink data further includes: the identifier of the MAC and the second MTC GW, and the identifier of the second MTC GW Obtaining, by the first MTC GW, key information of the UE from the second MTC GW, and according to the key of the UE The information and the MAC determine that the UE is a legitimate UE.
  • the second uplink data further includes: an identifier of the second base station and a MAC;
  • the first uplink data further includes: an identifier of the second base station;
  • the sending unit 301 is specifically configured to: after the receiving unit 302 receives the second uplink data sent by the UE, send a request message to the second base station according to the identifier of the second base station; the request message includes The identifier of the UE, the request message is used to request the second base station to query, according to the identifier of the UE, key information corresponding to the UE stored in the second base station;
  • the receiving unit 302 is further configured to receive, by the second base station, a response message that includes an identifier of the first MTC GW and key information of the UE;
  • the base station further includes: a check unit 303,
  • the checking unit 303 is configured to perform integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determine that the UE is a legal UE;
  • the sending unit 301 is specifically configured to send the first uplink data to the first MTC GW according to the identifier of the first MTC GW.
  • the second uplink data further includes: an identifier of the second base station and a MAC;
  • the sending unit 301 is further configured to: after the receiving unit 302 receives the second uplink data sent by the UE, before sending the first uplink data to the first MTC GW, according to the identifier of the second base station Sending, by the second base station, a request message, and sending a notification message to the second base station, to notify the second base station to release context information of the UE stored in the second base station; the request message includes the UE And the requesting message is used to request the second base station to query, according to the identifier of the UE, key information corresponding to the UE stored in the second base station;
  • the receiving unit 302 is further configured to receive key information of the UE sent by the second base station;
  • the base station further includes: a check unit 303;
  • the checking unit 303 is configured to use the key information of the UE to enter the MAC address.
  • a line integrity check if the integrity check is successful, determining that the UE is a legitimate UE.
  • the verification of the legitimacy of the UE by the first MTC GW or the base station ensures the security of subsequent data transmission.
  • the receiving unit 302 and the sending unit 301 in the base station shown in FIG. 7 of the present invention may be the transceiver 2011 in the base station 10 shown in FIG. 4;
  • the checking unit 303 may be a separately set processor, or may be The integration is implemented in a processor of the base station. In addition, it may be stored in the memory of the base station in the form of program code, and the function of the above data transmission is invoked and executed by a certain processor of the base station.
  • the processor described herein may be a Central Processing Unit (CPU), or an Application Specific Integrated Circuit (ASIC), or one or more integrated systems configured to implement embodiments of the present invention. Circuit.
  • the embodiment of the present invention provides a base station, where the first uplink data including the UE identifier is sent to the first MTC GW, so that the first MTC GW determines the UE according to the UE identifier in the first uplink data.
  • the downlink data of the received UE is sent to the base station, and the base station includes the downlink data of the UE in the first paging paging message to initiate paging to the UE.
  • the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station.
  • the MTC GW can correctly route the downlink data of the UE to the base station.
  • the downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is initiated to the paging station in the existing mechanism.
  • FIG. 8 is a structural diagram of a data transmission system according to an embodiment of the present invention.
  • the data transmission system may include: an MTC GW 30, a base station 40, and a UE.
  • the functions of the MTC GW 30 and the MTC GW 30 described in the second embodiment are the same, and the functions of the base station 40 and the base station 40 described in the third embodiment are the same, and will not be further described herein.
  • an embodiment of the present invention provides a data transmission system, a first MTC GW.
  • Receiving, by the base station, the first uplink data that includes the identifier of the UE, and determining, according to the UE identifier in the first uplink data, that the UE is in the coverage of the base station, and sending the downlink data of the received UE to the first An eNB base station the base station includes the downlink data of the UE in a first paging paging message to initiate paging to the UE.
  • the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station.
  • the MTC GW can correctly route the downlink data of the UE to the base station.
  • the downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is initiated to the paging station in the existing mechanism.
  • the disclosed systems, devices, and methods may be implemented in other manners.
  • the device embodiments described above are merely illustrative.
  • the division of the unit is only a logical function division.
  • there may be another division manner for example, multiple units or components may be combined or Can be integrated into another system, or some features can be ignored or not executed.
  • the units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the embodiment.
  • each functional unit in each embodiment of the present invention may be integrated into one processing unit, or each unit may be physically included separately, or two or more units may be integrated into one unit.
  • the above integrated unit can be implemented in the form of hardware or in the form of hardware plus software functional units.
  • the above integrated unit implemented in the form of a software functional unit can be stored in a Computers can be read from the storage medium.
  • the software functional units described above are stored in a storage medium and include instructions for causing a computer device (which may be a personal computer, server, or network device, etc.) to perform portions of the steps of the methods described in various embodiments of the present invention.
  • the foregoing storage medium includes: a U disk, a mobile hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk, and the like, and the program code can be stored. Medium.
  • the storage medium may include a read only memory, a random access memory, a magnetic disk or an optical disk, or the like.

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Abstract

The present invention relates to the technical field of radio communications. Disclosed are a data transmission method, device and system, for use in resolving the problem in an existing connectionless data transmission mechanism of increase in resource overhead due to that all base stations need to send paging messages carrying downlink data to the UE. The data transmission method comprises: a first MTC GW receives first uplink data that carries a UE identifier and is sent by a first base station; determining, according to the UE identifier in the first uplink data, that the UE is located in the coverage of the first base station; and triggering, by sending downlink data of the UE to the first base station, the first base station to send a first paging message to the UE, wherein the first paging message comprises downlink data of the UE.

Description

一种数据传输方法、设备及系统Data transmission method, device and system 技术领域Technical field
本发明涉及无线通信技术领域,尤其涉及一种数据传输方法、设备及系统。The present invention relates to the field of wireless communication technologies, and in particular, to a data transmission method, device, and system.
背景技术Background technique
长期演进(英文全称:Long Term Evolution,英文缩写:LTE)机制中,当处于空闲(idle)状态的用户设备(英文全称:User Equipment,英文缩写:UE)有下行数据到达时,通常该下行数据会锚在服务网关(英文全称:Serving Gateway,英文缩写:SGW)上。然后由SGW通知移动管理设备(英文全称:Mobility Management Entity,英文缩写:MME)在其寻呼区域内的所有基站(eNB)上向UE发起寻呼。当UE收到寻呼消息后,根据该寻呼消息中携带的UE标识来判断网络侧找的是否是自己。如果是,则UE需要由空闲态变为激活(active)态,触发随机接入过程,与eNB之间建立无线资源控制(英文全称:Radio Resource Control,英文缩写:RRC)连接和空口数据无线承载、以及eNB和SGW之间建立GTP(GPRS Tunneling Protocol,GPRS隧道协议)隧道,以便SGW将缓存的下行数据通过建立的GTP隧道以及空口数据无线承载发送到UE,具体实现流程如图1所示。In the long-term evolution (English term: Long Term Evolution, English abbreviation: LTE) mechanism, when the user equipment in the idle state (English name: User Equipment, English abbreviation: UE) has downlink data arriving, usually the downlink data The anchor will be on the service gateway (English full name: Serving Gateway, English abbreviation: SGW). The SGW then informs the mobility management device (English name: Mobility Management Entity, English abbreviation: MME) to initiate paging to the UE on all base stations (eNBs) in its paging area. After receiving the paging message, the UE determines whether the network side finds itself according to the UE identifier carried in the paging message. If yes, the UE needs to change from the idle state to the active state to trigger the random access procedure, and establish a radio resource control (English full name: Radio Resource Control, English abbreviation: RRC) connection and air interface data radio bearer with the eNB. And a GTP (GPRS Tunneling Protocol) tunnel is established between the eNB and the SGW, so that the SGW sends the buffered downlink data to the UE through the established GTP tunnel and the air interface data radio bearer. The specific implementation process is as shown in FIG. 1 .
上述实现流程在进行RRC连接建立时,需要大量RRC信令和S1信令的交互。为了减少信令的开销,目前,业界倾向采用图2所示的无连接状态的数据传输方式发送下行数据。当idle UE有下行数据到达时,直接将下行数据包含在寻呼(paging)消息中,由SGW通知MME在其寻呼区域内的所有基站(eNB)上向UE发起携带有下行数据的paging消息。当UE收到该寻呼消息后,根据该寻呼消息中携带的UE标识来判断网络侧找的是否是自己;如果是,则UE直接获取该paging携带的下行数据。 The foregoing implementation process requires a large amount of interaction between RRC signaling and S1 signaling when performing RRC connection establishment. In order to reduce the overhead of signaling, the industry tends to use the connectionless data transmission mode shown in FIG. 2 to transmit downlink data. When the idle UE arrives with the downlink data, the downlink data is directly included in the paging message, and the SGW notifies the MME to initiate the paging message carrying the downlink data to the UE on all the base stations (eNBs) in the paging area. . After receiving the paging message, the UE determines whether the network side finds itself according to the UE identifier carried in the paging message; if yes, the UE directly obtains the downlink data carried by the paging.
虽然,图2所示的技术方案无需UE进入连接态,减少了RRC信令和S1信令的开销,但是,该机制中携带有下行数据的paging消息是在寻呼区域内的所有基站向UE发送的,这将会带来大量的资源开销。Although the technical solution shown in FIG. 2 does not require the UE to enter the connection state, the RRC signaling and the S1 signaling overhead are reduced. However, the paging message carrying the downlink data in the mechanism is that all the base stations in the paging area are to the UE. Sended, this will bring a lot of resource overhead.
发明内容Summary of the invention
本发明的实施例提供一种数据传输方法、设备及系统,以解决现有无连接数据传输机制中,需要所有基站向UE发送携带有下行数据的寻呼消息导致的资源开销加大的问题。The embodiments of the present invention provide a data transmission method, device, and system, to solve the problem that the resource overhead caused by paging messages carrying downlink data is required to be transmitted by all base stations to the UE in the existing connectionless data transmission mechanism.
为达到上述目的,本发明的实施例采用如下技术方案:In order to achieve the above object, embodiments of the present invention adopt the following technical solutions:
第一方面,本发明实施例提供一种数据传输方法,应用于第一机器类型通信网关MTC GW,所述方法可以包括:In a first aspect, an embodiment of the present invention provides a data transmission method, which is applied to a first machine type communication gateway MTC GW, and the method may include:
接收第一基站发送的携带有UE标识的第一上行数据;所述UE标识用于标识UE;Receiving, by the first base station, first uplink data that carries the UE identifier, where the UE identifier is used to identify the UE;
根据所述UE标识,确定所述UE处于所述第一基站的覆盖范围内,其中,所述UE与所述第一基站未建立无线资源控制RRC连接;Determining, according to the identifier of the UE, that the UE is in a coverage of the first base station, where the UE does not establish a radio resource control RRC connection with the first base station;
通过向所述第一基站发送所述UE的下行数据,触发所述第一基站向所述UE发送包含所述UE的下行数据的第一寻呼paging消息。The first base station is triggered to send a first paging paging message including downlink data of the UE to the UE by sending the downlink data of the UE to the first base station.
如此,可以通过基站发送的携带有UE标识的上行数据,使MTC GW准确获知UE处于该基站的覆盖范围内,当有UE下行数据时,MTC GW可以将该UE的下行数据正确路由到该基站上,由该基站通过paging消息将该下行数据携带给UE,从而避免了现有机制中在不确定UE的具体位置的情况下,由多个基站携带下行数据的paging消息向UE发送寻呼所带来的大量资源开销的问题。In this way, the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station. When there is downlink data of the UE, the MTC GW can correctly route the downlink data of the UE to the base station. The downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is sent to the UE in the case that the specific location of the UE is not determined in the existing mechanism. The problem of a lot of resource overhead.
其中,第一上行数据可以由第一基站根据所述第一基站接收到所述UE发送的第二上行数据生成,所述第二上行数据包含所述UE标识,可以为UE移动到第一基站的覆盖范围内(如:从第二基站的覆盖范围移动到所述第一基站覆盖范围)时主动向所述第一基站上报的数据;还可以在UE被第一基站成功寻呼后上报至第一基站, 具体的,在第一方面的一种可实现方式中,The first uplink data may be generated by the first base station according to the second uplink data that is sent by the UE by the first base station, where the second uplink data includes the UE identifier, and may be moved to the first base station by the UE. Data that is actively reported to the first base station when the UE is successfully paged by the first base station, and may be reported to the UE after being successfully paged by the first base station. First base station, Specifically, in an achievable manner of the first aspect,
在第一MTC GW接收第一基站发送的第一上行数据之前,若第一MTC GW接收到所述UE的下行数据,则第一MTC GW向与所述第一MTC GW相连接的所有基站发送第二paging消息,所述第二paging消息中包含所述UE标识;Before the first MTC GW receives the first uplink data sent by the first base station, if the first MTC GW receives the downlink data of the UE, the first MTC GW sends to all the base stations connected to the first MTC GW. a second paging message, where the second paging message includes the UE identifier;
所述所有基站中的每个基站在收到第二paging消息后,每个基站在其覆盖范围内通过第三paging消息寻呼所述UE;所述所有基站包含所述第一基站;After receiving the second paging message, each base station of each of the base stations pages the UE by using a third paging message within its coverage; the all base stations include the first base station;
若第一基站发送的第三paging消息成功寻呼到UE,则第一基站接收到UE发送的携带有UE标识和第一MTC GW的标识的第二上行数据,并根据第一MTC GW的标识,向所述第一MTC GW发送所述第一上行数据。If the third paging message sent by the first base station is successfully paged to the UE, the first base station receives the second uplink data that is sent by the UE and carries the identifier of the UE and the identifier of the first MTC GW, and according to the identifier of the first MTC GW. Sending the first uplink data to the first MTC GW.
由于,在UE移动到第一基站的覆盖范围内(如:从第二基站的覆盖范围移动到所述第一基站覆盖范围)时,第二上行数据为UE主动向所述第一基站上报的数据,此时若UE为非法用户,则会给后续的数据传输带来不必要的麻烦,因此,为了保证后续数据传输的安全性,还需要通过第一基站或第一MTC GW来验证UE的合法性。The second uplink data is reported by the UE to the first base station when the UE moves to the coverage of the first base station (eg, the coverage from the coverage of the second base station to the coverage of the first base station). Data, if the UE is an illegal user, it will cause unnecessary troubles for subsequent data transmission. Therefore, in order to ensure the security of subsequent data transmission, the UE needs to be verified by the first base station or the first MTC GW. legality.
所以,在第一方面的再一种可实现方式中,当第二上行数据为UE移动到第一基站的范围内时主动上报的数据时,所述第二上行数据还包含:第一MTC GW的标识以及消息认证码MAC;所述第一上行数据还包含:所述MAC;所述接收所述第一基站发送的第一上行数据包括:Therefore, in a further implementation manner of the first aspect, when the second uplink data is data that is actively reported when the UE moves to the range of the first base station, the second uplink data further includes: the first MTC GW The identifier and the message authentication code MAC; the first uplink data further includes: the MAC; the receiving the first uplink data sent by the first base station includes:
接收所述第一基站根据所述第一MTC GW标识发送的第一上行数据;Receiving, by the first base station, first uplink data that is sent according to the first MTC GW identifier;
在根据第一上行数据中的UE标识,确定所述UE处于所述第一基站的覆盖范围之前,所述方法还包括:And before determining that the UE is in the coverage of the first base station, according to the UE identifier in the first uplink data, the method further includes:
在所述第一MTC GW上查找与所述UE标识相对应的UE的密钥信息; Searching, on the first MTC GW, key information of a UE corresponding to the UE identifier;
用所述UE的密钥信息对所述MAC进行完整性校验;Performing an integrity check on the MAC by using key information of the UE;
如果所述完整性校验成功,则确定所述UE为合法UE。If the integrity check is successful, it is determined that the UE is a legitimate UE.
或者,所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识;Or the second uplink data further includes: an identifier of the second MTC GW and the MAC; the first uplink data further includes: the identifier of the MAC and the second MTC GW;
在根据第一上行数据中的UE标识,确定所述UE处于所述第一基站的覆盖范围之前,所述方法还包括:And before determining that the UE is in the coverage of the first base station, according to the UE identifier in the first uplink data, the method further includes:
根据所述第二MTC GW的标识向所述第二MTC GW发送请求消息;所述请求消息包含所述UE标识,所述请求消息用于请求在所述第二MTC GW上查找与所述UE标识相对应的UE的密钥信息;Sending a request message to the second MTC GW according to the identifier of the second MTC GW; the request message includes the UE identifier, and the request message is used to request to search for the UE on the second MTC GW Identifying key information of the corresponding UE;
接收所述第二MTC GW发送的所述UE的密钥信息;Receiving key information of the UE sent by the second MTC GW;
用所述UE的密钥信息对所述MAC进行完整性校验;Performing an integrity check on the MAC by using key information of the UE;
如果所述完整性校验成功,则确定所述UE为合法UE。If the integrity check is successful, it is determined that the UE is a legitimate UE.
或者,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述第一上行数据还包含:所述第二基站的标识,所述MAC用于使所述第一基站确定所述UE是否为合法UE;所述接收所述第一基站发送的第一上行数据包括:Or the second uplink data further includes: an identifier of the second base station and a MAC; the first uplink data further includes: an identifier of the second base station, where the MAC is used to determine, by the first base station Whether the UE is a legal UE, and the receiving the first uplink data sent by the first base station includes:
接收所述第一基站在确认所述UE为合法UE后根据所述第一MTC GW的标识发送的第一上行数据;所述第一MTC GW的标识为:所述第一基站从所述第二基站处获取得到。Receiving, by the first base station, first uplink data that is sent according to the identifier of the first MTC GW after confirming that the UE is a legal UE; the identifier of the first MTC GW is: the first base station from the first Obtained at the second base station.
或者,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述MAC用于使所述第一基站确定所述UE是否为合法UE,所述接收所述第一基站发送的第一上行数据包括:Or the second uplink data further includes: an identifier of the second base station and a MAC; the MAC is used to enable the first base station to determine whether the UE is a legal UE, and the receiving the first base station sends The first uplink data includes:
接收所述第一基站在确认所述UE为合法UE后向所述第一MTC GW发送的第一上行数据。Receiving, by the first base station, first uplink data that is sent to the first MTC GW after confirming that the UE is a legal UE.
如此,通过第一MTC GW或第一基站对UE合法性的验证,保证了后续数据传输的安全性。In this way, the verification of the legitimacy of the UE by the first MTC GW or the first base station ensures the security of subsequent data transmission.
第二方面,本发明实施例提供一种数据传输方法,应用于第一基站;所述方法包括: In a second aspect, an embodiment of the present invention provides a data transmission method, which is applied to a first base station, where the method includes:
向第一机器类型通信网关MTC GW发送第一上行数据,所述第一上行数据用于所述第一MTC GW根据所述第一上行数据中的UE标识,确定所述UE处于所述第一基站的覆盖范围内,其中,所述第一上行数据包含:所述UE标识;所述UE标识用于标识UE;所述UE与所述第一基站未建立无线资源控制RRC连接;Sending the first uplink data to the first machine type communication gateway MTC GW, where the first uplink data is used by the first MTC GW to determine, according to the UE identifier in the first uplink data, that the UE is in the first The coverage of the base station, where the first uplink data includes: the UE identifier; the UE identifier is used to identify the UE; and the UE and the first base station do not establish a radio resource control RRC connection;
接收所述第一MTC GW发送的所述UE的下行数据;Receiving downlink data of the UE sent by the first MTC GW;
向所述UE发送第一寻呼paging消息,所述第一paging消息中包含所述UE的下行数据。Sending a first paging paging message to the UE, where the first paging message includes downlink data of the UE.
如此,可以通过向第一机器类型通信网关MTC GW发送第一上行数据,使MTC GW准确获知UE处于该基站的覆盖范围内,当有UE下行数据时,MTC GW可以将该UE的下行数据正确路由到该基站上,由该基站通过paging消息将该下行数据携带给UE,从而避免了现有机制中在不确定UE的具体位置的情况下,由多个基站携带下行数据的paging消息向UE发送寻呼所带来的大量资源开销的问题。In this way, the first uplink data may be sent to the first device type communication gateway MTC GW, so that the MTC GW can accurately know that the UE is in the coverage of the base station. When there is downlink data of the UE, the MTC GW can correctly correct the downlink data of the UE. Routed to the base station, the base station carries the downlink data to the UE by using a paging message, thereby avoiding the paging message of the downlink data carried by multiple base stations to the UE in the case that the specific location of the UE is not determined in the existing mechanism. The problem of a large amount of resource overhead caused by sending a page.
其中,第一上行数据可以由第一基站根据所述第一基站接收到所述UE发送的第二上行数据生成,所述第二上行数据包含所述UE标识,可以为UE移动到第一基站的覆盖范围内(如:从第二基站的覆盖范围移动到所述第一基站覆盖范围)时主动向所述第一基站上报的数据;还可以在UE被第一基站成功寻呼后上报至第一基站,具体的,在第二方面的一种可实现方式中,在向第一机器类型通信网关MTC GW发送第一上行数据之前,所述方法还包括:The first uplink data may be generated by the first base station according to the second uplink data that is sent by the UE by the first base station, where the second uplink data includes the UE identifier, and may be moved to the first base station by the UE. Data that is actively reported to the first base station when the UE is successfully paged by the first base station, and may be reported to the UE after being successfully paged by the first base station. The first base station, specifically, in an implementation manner of the second aspect, before the sending the first uplink data to the first machine type communication gateway MTC GW, the method further includes:
接收所述第一MTC GW发送的第二paging消息;所述第二paging消息包含:所述UE的标识;Receiving a second paging message sent by the first MTC GW; the second paging message includes: an identifier of the UE;
在所述第一基站覆盖范围内通过第三paging消息寻呼所述UE;Paging the UE by using a third paging message within the coverage of the first base station;
接收所述UE返回的第二上行数据;所述第二上行数据用于通知所述第一基站所述UE被寻呼到;所述第二上行数据包含:所述UE标识和所述第一MTC GW的标识;Receiving, by the UE, the second uplink data that is returned by the UE; the second uplink data is used to notify the first base station that the UE is paged; and the second uplink data includes: the UE identifier and the first The identity of the MTC GW;
所述向第一机器类型通信网关MTC GW发送第一上行数据包 括:Sending the first uplink data packet to the first machine type communication gateway MTC GW include:
根据所述第一MTC GW的标识向所述第一MTC GW发送第一上行数据。And transmitting first uplink data to the first MTC GW according to the identifier of the first MTC GW.
由于,在UE移动到第一基站的覆盖范围内(如:从第二基站的覆盖范围移动到所述第一基站覆盖范围)时,第二上行数据为UE主动向所述第一基站上报的数据,此时若UE为非法用户,则会给后续的数据传输带来不必要的麻烦,因此,为了保证后续数据传输的安全性,还需要通过第一基站或第一MTC GW来验证UE的合法性。The second uplink data is reported by the UE to the first base station when the UE moves to the coverage of the first base station (eg, the coverage from the coverage of the second base station to the coverage of the first base station). Data, if the UE is an illegal user, it will cause unnecessary troubles for subsequent data transmission. Therefore, in order to ensure the security of subsequent data transmission, the UE needs to be verified by the first base station or the first MTC GW. legality.
即在第二方面的再一种可实现方式中,当第二上行数据为UE移动到第一基站的范围内时主动上报的数据时,所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识;所述向第一机器类型通信网关MTC GW发送第一上行数据包括:That is, in a further implementation manner of the second aspect, when the second uplink data is the data that is actively reported when the UE moves to the range of the first base station, the second uplink data further includes: the second MTC GW. And the first uplink data includes: the MAC and the identifier of the second MTC GW; the sending, by the first machine type communication gateway MTC GW, the first uplink data includes:
根据所述第一MTC GW标识向所述第一MTC GW发送所述第一上行数据,所述第一上行数据用于所述第一MTC GW根据所述MAC确定所述UE为合法UE。And sending, by the first MTC GW, the first uplink data to the first MTC GW, where the first uplink data is used by the first MTC GW to determine, according to the MAC, that the UE is a legal UE.
或者,所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识,所述第一上行数据用于所述第一MTC GW从所述第二MTC GW处获得所述UE的密钥信息,并根据所述UE的密钥信息和所述MAC确定所述UE为合法UE。Or the second uplink data further includes: an identifier of the second MTC GW and the MAC; the first uplink data further includes: an identifier of the MAC and the second MTC GW, where the first uplink data is used The first MTC GW obtains key information of the UE from the second MTC GW, and determines that the UE is a legal UE according to the key information of the UE and the MAC.
或者,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述第一上行数据还包含:所述第二基站的标识;在接收所述UE发送的第二上行数据之后,向所述第一MTC GW发送第一上行数据之前,所述方法还包括:Or the second uplink data further includes: an identifier of the second base station and a MAC; the first uplink data further includes: an identifier of the second base station; after receiving the second uplink data sent by the UE Before the first uplink data is sent to the first MTC GW, the method further includes:
根据所述第二基站的标识向所述第二基站发送请求消息;所述请求消息包含所述UE的标识,所述请求消息用于请求所述第二基站根据所述UE的标识查询所述第二基站中存储的与所述UE对应的 密钥信息;Sending a request message to the second base station according to the identifier of the second base station; the request message includes an identifier of the UE, where the request message is used to request the second base station to query according to the identifier of the UE Corresponding to the UE stored in the second base station Key information
接收所述第二基站发送的所述UE的密钥信息;Receiving key information of the UE sent by the second base station;
用所述UE的密钥信息对所述MAC进行完整性校验;Performing an integrity check on the MAC by using key information of the UE;
如果所述完整性校验成功,则确定所述UE为合法UE。If the integrity check is successful, it is determined that the UE is a legitimate UE.
或者,所述第二上行数据还包含:所述第二基站的标识以及MAC;在接收所述UE发送的第二上行数据之后,向所述第一MTC GW发送第一上行数据之前,所述方法还包括:Or the second uplink data further includes: an identifier of the second base station and a MAC; after receiving the second uplink data sent by the UE, before sending the first uplink data to the first MTC GW, The method also includes:
根据所述第二基站的标识向所述第二基站发送请求消息以及向所述第二基站发送通知消息,通知所述第二基站释放所述第二基站内存储的所述UE的上下文信息;所述请求消息包含所述UE的标识,所述请求消息用于请求所述第二基站根据所述UE的标识查询所述第二基站中存储的与所述UE对应的密钥信息;Sending a request message to the second base station according to the identifier of the second base station, and sending a notification message to the second base station, to notify the second base station to release context information of the UE stored in the second base station; The request message includes an identifier of the UE, and the request message is used to request the second base station to query, according to the identifier of the UE, key information corresponding to the UE stored in the second base station;
接收所述第二基站发送的所述UE的密钥信息;Receiving key information of the UE sent by the second base station;
用所述UE的密钥信息对所述MAC进行完整性校验;Performing an integrity check on the MAC by using key information of the UE;
如果所述完整性校验成功,则确定所述UE为合法UE。If the integrity check is successful, it is determined that the UE is a legitimate UE.
如此,通过第一MTC GW或第一基站对UE合法性的验证,保证了后续数据传输的安全性。In this way, the verification of the legitimacy of the UE by the first MTC GW or the first base station ensures the security of subsequent data transmission.
第三方面,本发明实施例提供一种机器类型通信网关MTC GW,所述MTC GW可以包括:In a third aspect, an embodiment of the present invention provides a machine type communication gateway MTC GW, where the MTC GW may include:
接收单元,用于接收第一基站发送的第一上行数据;所述第一上行数据包含用户设备UE标识;所述UE标识用于标识UE;a receiving unit, configured to receive first uplink data sent by the first base station; the first uplink data includes a user equipment UE identifier; and the UE identifier is used to identify the UE;
确定单元,用于根据所述接收单元接收到的第一上行数据中的UE标识,确定所述UE处于所述第一基站的覆盖范围内,其中,所述UE与所述第一基站未建立无线资源控制RRC连接;a determining unit, configured to determine, according to the UE identifier in the first uplink data that is received by the receiving unit, that the UE is in a coverage range of the first base station, where the UE is not established with the first base station Radio resource control RRC connection;
发送单元,用于在所述确定单元确定所述UE处于所述第一基站的覆盖范围后,通过向所述第一基站发送所述UE的下行数据,触发所述第一基站向所述UE发送包含所述UE的下行数据的第一寻呼paging消息。a sending unit, configured to: after the determining unit determines that the UE is in the coverage of the first base station, trigger the first base station to send to the UE by sending downlink data of the UE to the first base station Sending a first paging paging message including downlink data of the UE.
如此,可以通过基站发送的携带有UE标识的上行数据,使MTC  GW准确获知UE处于该基站的覆盖范围内,当有UE下行数据时,MTC GW可以将该UE的下行数据正确路由到该基站上,由该基站通过paging消息将该下行数据携带给UE,从而避免了现有机制中在不确定UE的具体位置的情况下,由多个基站携带下行数据的paging消息向UE发送寻呼所带来的大量资源开销的问题。In this way, the MTC carrying the UE identifier transmitted by the base station can be used to make the MTC. The GW accurately knows that the UE is in the coverage of the base station, and when there is downlink data of the UE, the MTC GW can correctly route the downlink data of the UE to the base station, and the base station carries the downlink data to the UE by using a paging message, thereby The problem of a large amount of resource overhead caused by paging messages sent by multiple base stations carrying downlink data to the UE in the case of notifying the specific location of the UE in the existing mechanism is avoided.
其中,第一上行数据可以由第一基站根据所述第一基站接收到所述UE发送的第二上行数据生成,所述第二上行数据包含所述UE标识,可以为UE移动到第一基站的覆盖范围内(如:从第二基站的覆盖范围移动到所述第一基站覆盖范围)时主动向所述第一基站上报的数据;还可以在UE被第一基站成功寻呼后上报至第一基站,具体的,在第一方面的一种可实现方式中,The first uplink data may be generated by the first base station according to the second uplink data that is sent by the UE by the first base station, where the second uplink data includes the UE identifier, and may be moved to the first base station by the UE. Data that is actively reported to the first base station when the UE is successfully paged by the first base station, and may be reported to the UE after being successfully paged by the first base station. The first base station, specifically, in an achievable manner of the first aspect,
所述接收单元,还用于在接收第一基站发送的第一上行数据之前,接收服务网关发送的所述UE的下行数据;The receiving unit is further configured to: before receiving the first uplink data sent by the first base station, receive downlink data of the UE sent by the serving gateway;
所述发送单元,还用于向与所述MTC GW相连接的所有基站发送第二paging消息,所述第二paging消息中包含所述UE标识;所述第二paging消息用于所述所有基站中的每个基站在收到第二paging消息后,每个基站在其覆盖范围内通过第三paging消息寻呼所述UE;所述所有基站包含所述第一基站;The sending unit is further configured to send a second paging message to all base stations connected to the MTC GW, where the second paging message includes the UE identifier; and the second paging message is used by all the base stations After receiving the second paging message, each base station in each of the base stations pages the UE by using a third paging message within its coverage; the all base stations include the first base station;
所述接收单元,具体用于接收所述第一基站根据所述MTC GW的标识,向所述MTC GW发送的所述第一上行数据;The receiving unit is specifically configured to receive, by the first base station, the first uplink data that is sent by the first base station to the MTC GW according to the identifier of the MTC GW;
其中,所述第一上行数据由所述第一基站根据接收到的所述UE发送的第二上行数据生成,所述第二上行数据用于通知所述第一基站所述UE被寻呼到,所述第二上行数据包含:所述UE标识和所述MTC GW的标识。The first uplink data is generated by the first base station according to the received second uplink data sent by the UE, and the second uplink data is used to notify the first base station that the UE is paged to The second uplink data includes: the UE identifier and an identifier of the MTC GW.
由于,在UE移动到第一基站的覆盖范围内(如:从第二基站的覆盖范围移动到所述第一基站覆盖范围)时,第二上行数据为UE主动向所述第一基站上报的数据,此时若UE为非法用户,则会给后续的数据传输带来不必要的麻烦,因此,为了保证后续数据传输的安全性,还需要通过第一基站或第一MTC GW来验证UE的合法 性。The second uplink data is reported by the UE to the first base station when the UE moves to the coverage of the first base station (eg, the coverage from the coverage of the second base station to the coverage of the first base station). Data, if the UE is an illegal user, it will cause unnecessary troubles for subsequent data transmission. Therefore, in order to ensure the security of subsequent data transmission, the UE needs to be verified by the first base station or the first MTC GW. Legal Sex.
所以,在第三方面的再一种可实现方式中,当第二上行数据为UE移动到第一基站的范围内时主动上报的数据时,所述第二上行数据还包含:所述MTC GW的标识以及消息认证码MAC;所述第一上行数据还包含:所述MAC;Therefore, in a further implementation manner of the third aspect, when the second uplink data is data that is actively reported when the UE moves to the range of the first base station, the second uplink data further includes: the MTC GW And the message authentication code MAC; the first uplink data further includes: the MAC;
所述接收单元,具体用于接收所述第一基站根据所述MTC GW标识发送的第一上行数据;The receiving unit is specifically configured to receive first uplink data that is sent by the first base station according to the MTC GW identifier;
所述MTC GW还包括校验单元,The MTC GW further includes a check unit,
所述校验单元,用于在确定单元确定所述UE在第一基站的覆盖范围内之前,在所述MTC GW上查找与所述UE标识相对应的UE的密钥信息;The checking unit is configured to search, on the MTC GW, key information of the UE corresponding to the UE identifier, before the determining unit determines that the UE is within the coverage of the first base station;
用所述UE的密钥信息对所述MAC进行完整性校验;Performing an integrity check on the MAC by using key information of the UE;
如果所述完整性校验成功,则确定所述UE为合法UE。If the integrity check is successful, it is determined that the UE is a legitimate UE.
或者,所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识;Or the second uplink data further includes: an identifier of the second MTC GW and the MAC; the first uplink data further includes: the identifier of the MAC and the second MTC GW;
所述发送单元,还用于在确定单元确定所述UE在第一基站的覆盖范围内之前,根据所述第二MTC GW的标识向所述第二MTC GW发送请求消息;所述请求消息包含所述UE标识,所述请求消息用于请求在所述第二MTC GW上查找与所述UE标识相对应的UE的密钥信息;The sending unit is further configured to: before the determining unit determines that the UE is within the coverage of the first base station, send a request message to the second MTC GW according to the identifier of the second MTC GW; the request message includes The UE identifier, the request message is used to request to search for the key information of the UE corresponding to the UE identifier on the second MTC GW;
所述接收单元,还用于接收所述第二MTC GW发送的所述UE的密钥信息;The receiving unit is further configured to receive key information of the UE that is sent by the second MTC GW;
所述MTC GW还包括:校验单元,The MTC GW further includes: a check unit,
所述校验单元,用于用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。The check unit is configured to perform integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determine that the UE is a legal UE.
或者,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述第一上行数据还包含:所述第二基站的标识,所述MAC用于使所述第一基站确定所述UE是否为合法UE; Or the second uplink data further includes: an identifier of the second base station and a MAC; the first uplink data further includes: an identifier of the second base station, where the MAC is used to determine, by the first base station Whether the UE is a legal UE;
所述接收单元,具体用于接收所述第一基站在确认所述UE为合法UE后根据所述MTC GW的标识发送的第一上行数据;所述MTC GW的标识为:所述第一基站从所述第二基站处获取得到。The receiving unit is configured to receive, by the first base station, first uplink data that is sent according to the identifier of the MTC GW after confirming that the UE is a valid UE; the identifier of the MTC GW is: the first base station Obtained from the second base station.
或者,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述MAC用于使所述第一基站确定所述UE是否为合法UE,Or the second uplink data further includes: an identifier of the second base station and a MAC; the MAC is used to enable the first base station to determine whether the UE is a legal UE,
所述接收单元,具体用于接收所述第一基站在确认所述UE为合法UE后向所述MTC GW发送的第一上行数据。The receiving unit is specifically configured to receive, by the first base station, first uplink data that is sent by the first base station to the MTC GW after confirming that the UE is a legal UE.
如此,通过MTC GW或第一基站对UE合法性的验证,保证了后续数据传输的安全性。In this way, the verification of the legitimacy of the UE by the MTC GW or the first base station ensures the security of subsequent data transmission.
需要说明的是,第三方面中的接收单元可以为MTC GW的接收器,发送单元可以为MTC GW的发射器;另外,也可以将接收单元和发送单元集成在一起构成MTC GW的收发器。确定单元、校验单元可以为单独设立的处理器,也可以集成在MTC GW的某一个处理器中实现,此外,也可以以程序代码的形式存储于MTC GW的存储器中,由MTC GW的某一个处理器调用并执行以上确定单元、校验单元的功能。这里所述的处理器可以是一个中央处理器(Central Processing Unit,CPU),或者是特定集成电路(Application Specific Integrated Circuit,ASIC),或者是被配置成实施本发明实施例的一个或多个集成电路。It should be noted that the receiving unit in the third aspect may be a receiver of the MTC GW, and the sending unit may be a transmitter of the MTC GW; in addition, the receiving unit and the sending unit may also be integrated to form a transceiver of the MTC GW. The determining unit and the checking unit may be separately set up processors, or may be integrated in one processor of the MTC GW, or may be stored in the memory of the MTC GW in the form of program code, by a certain MTC GW. A processor calls and executes the functions of the above determining unit and the checking unit. The processor described herein may be a Central Processing Unit (CPU), or an Application Specific Integrated Circuit (ASIC), or one or more integrated systems configured to implement embodiments of the present invention. Circuit.
第四方面,本发明实施例还提供一种基站,所述基站可以包括:In a fourth aspect, the embodiment of the present invention further provides a base station, where the base station may include:
发送单元,用于向第一机器类型通信网关MTC GW发送第一上行数据,所述第一上行数据用于所述第一MTC GW根据所述第一上行数据中的UE标识,确定所述UE处于所述第一基站的覆盖范围内;其中,所述第一上行数据包含:所述UE标识;所述UE标识用于标识UE;所述UE与所述基站未建立无线资源控制RRC连接;a sending unit, configured to send first uplink data to the first device type communication gateway MTC GW, where the first uplink data is used by the first MTC GW to determine the UE according to the UE identifier in the first uplink data The first uplink data includes: the UE identifier; the UE identifier is used to identify the UE; and the UE does not establish a radio resource control RRC connection with the base station;
接收单元,用于接收所述第一MTC GW发送的所述UE的下行数据;a receiving unit, configured to receive downlink data of the UE sent by the first MTC GW;
所述发送单元,还用于向所述UE发送第一寻呼paging消息,所述第一paging消息中包含所述UE的下行数据。 The sending unit is further configured to send a first paging paging message to the UE, where the first paging message includes downlink data of the UE.
如此,可以通过向第一机器类型通信网关MTC GW发送第一上行数据,使MTC GW准确获知UE处于该基站的覆盖范围内,当有UE下行数据时,MTC GW可以将该UE的下行数据正确路由到该基站上,由该基站通过paging消息将该下行数据携带给UE,从而避免了现有机制中在不确定UE的具体位置的情况下,由多个基站携带下行数据的paging消息向UE发送寻呼所带来的大量资源开销的问题。In this way, the first uplink data may be sent to the first device type communication gateway MTC GW, so that the MTC GW can accurately know that the UE is in the coverage of the base station. When there is downlink data of the UE, the MTC GW can correctly correct the downlink data of the UE. Routed to the base station, the base station carries the downlink data to the UE by using a paging message, thereby avoiding the paging message of the downlink data carried by multiple base stations to the UE in the case that the specific location of the UE is not determined in the existing mechanism. The problem of a large amount of resource overhead caused by sending a page.
其中,第一上行数据可以由基站根据所述基站接收到所述UE发送的第二上行数据生成,所述第二上行数据包含所述UE标识,可以为UE移动到基站的覆盖范围内(如:从第二基站的覆盖范围移动到所述第一基站覆盖范围)时主动向所述基站上报的数据;还可以在UE被基站成功寻呼后上报至基站,具体的,在第四方面的一种可实现方式中,所述接收单元,还用于在所述发送单元向第一MTC GW发送第一上行数据之前,接收所述第一MTC GW发送的第二paging消息;所述第二paging消息包含:所述UE的标识;The first uplink data may be generated by the base station according to the second uplink data that is sent by the UE by the base station, where the second uplink data includes the identifier of the UE, and may be moved by the UE to the coverage of the base station (eg, The data that is actively reported to the base station when the coverage of the second base station is moved to the coverage of the first base station; and may be reported to the base station after the UE is successfully paged by the base station, specifically, in the fourth aspect In an implementation manner, the receiving unit is further configured to: before the transmitting unit sends the first uplink data to the first MTC GW, receive a second paging message sent by the first MTC GW; The paging message includes: an identifier of the UE;
所述发送单元,还用于在所述第一基站覆盖范围内向通过第三paging消息寻呼所述UE;The sending unit is further configured to page the UE by using a third paging message within the coverage of the first base station;
所述接收单元,还用于接收所述UE返回的第二上行数据;所述第二上行数据用于通知所述第一基站所述UE被寻呼到,所述第二上行数据包含:所述UE标识和所述第一MTC GW的标识;The receiving unit is further configured to receive second uplink data returned by the UE, where the second uplink data is used to notify the first base station that the UE is paged, and the second uplink data includes: Describe the UE identifier and the identifier of the first MTC GW;
所述发送单元,具体用于根据所述第一MTC GW的标识向所述第一MTC GW发送第一上行数据。The sending unit is specifically configured to send the first uplink data to the first MTC GW according to the identifier of the first MTC GW.
由于,在UE移动到基站的覆盖范围内(如:从第二基站的覆盖范围移动到所述第一基站覆盖范围)时,第二上行数据为UE主动向所述基站上报的数据,此时若UE为非法用户,则会给后续的数据传输带来不必要的麻烦,因此,为了保证后续数据传输的安全性,还需要通过基站或第一MTC GW来验证UE的合法性。The second uplink data is data that the UE actively reports to the base station, when the UE moves to the coverage of the base station (eg, the coverage from the coverage of the second base station to the coverage of the first base station). If the UE is an illegal user, it will cause unnecessary troubles for subsequent data transmission. Therefore, in order to ensure the security of subsequent data transmission, it is necessary to verify the legitimacy of the UE through the base station or the first MTC GW.
所以,在第四方面的再一种可实现方式中,当第二上行数据为UE移动到第一基站的范围内时主动上报的数据时,所述接收单元, 还用于在所述发送单元向第一机器类型通信网关MTC GW发送第一上行数据之前,接收所述UE发送的第二上行数据;Therefore, in a further implementation manner of the fourth aspect, when the second uplink data is data that is actively reported when the UE moves to the range of the first base station, the receiving unit, And receiving, by the sending unit, the second uplink data sent by the UE, before sending the first uplink data to the first machine type communication gateway MTC GW;
其中,所述第二上行数据用于通知所述第一基站所述UE从第二基站的覆盖范围移动到所述第一基站覆盖范围,所述第二上行数据包含:所述UE的标识。The second uplink data is used to notify the first base station that the UE moves from the coverage of the second base station to the coverage of the first base station, and the second uplink data includes: an identifier of the UE.
或者,所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识;Or the second uplink data further includes: an identifier of the second MTC GW and the MAC; the first uplink data further includes: the identifier of the MAC and the second MTC GW;
所述发送单元,具体用于根据所述第一MTC GW标识向所述第一MTC GW发送所述第一上行数据,所述第一上行数据用于所述第一MTC GW根据所述MAC确定所述UE为合法UE。The sending unit is configured to send the first uplink data to the first MTC GW according to the first MTC GW identifier, where the first uplink data is used by the first MTC GW to determine according to the MAC The UE is a legal UE.
或者,所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识,所述上行数据用于所述第一MTC GW从所述第二MTC GW处获得所述UE的密钥信息,并根据所述UE的密钥信息和所述MAC确定所述UE为合法UE。Or the second uplink data further includes: an identifier of the second MTC GW and the MAC; the first uplink data further includes: the identifier of the MAC and the second MTC GW, where the uplink data is used by the The first MTC GW obtains key information of the UE from the second MTC GW, and determines that the UE is a legal UE according to the key information of the UE and the MAC.
或者,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述第一上行数据还包含:所述第二基站的标识;Or the second uplink data further includes: an identifier of the second base station and a MAC; the first uplink data further includes: an identifier of the second base station;
所述发送单元,具体用于在所述接收单元接收所述UE发送的第二上行数据之后,根据所述第二基站的标识向所述第二基站发送请求消息;所述请求消息包含所述UE的标识,所述请求消息用于请求所述第二基站根据所述UE的标识查询所述第二基站中存储的与所述UE对应的密钥信息;The sending unit is configured to: after the receiving unit receives the second uplink data sent by the UE, send a request message to the second base station according to the identifier of the second base station; the request message includes the An identifier of the UE, where the request message is used to request the second base station to query, according to the identifier of the UE, key information corresponding to the UE stored in the second base station;
所述接收单元,还用于接收所述第二基站发送的所述UE的密钥信息;The receiving unit is further configured to receive key information of the UE sent by the second base station;
所述基站还包括:校验单元,The base station further includes: a verification unit,
所述校验单元,用于用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。The check unit is configured to perform integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determine that the UE is a legal UE.
或者,所述第二上行数据还包含:所述第二基站的标识以及 MAC;Or the second uplink data further includes: an identifier of the second base station, and MAC;
所述发送单元,还用于在所述接收单元接收所述UE发送的第二上行数据之后,向所述第一MTC GW发送第一上行数据之前,根据所述第二基站的标识向所述第二基站发送请求消息以及向所述第二基站发送通知消息,通知所述第二基站释放所述第二基站内存储的所述UE的上下文信息;所述请求消息包含所述UE的标识,所述请求消息用于请求所述第二基站根据所述UE的标识查询所述第二基站中存储的与所述UE对应的密钥信息;The sending unit is further configured to: after the receiving unit receives the second uplink data sent by the UE, before sending the first uplink data to the first MTC GW, according to the identifier of the second base station, The second base station sends a request message and sends a notification message to the second base station, and the second base station is notified to release the context information of the UE stored in the second base station; the request message includes an identifier of the UE, The request message is used to request the second base station to query, according to the identifier of the UE, key information corresponding to the UE stored in the second base station;
所述接收单元,还用于接收所述第二基站发送的所述UE的密钥信息;The receiving unit is further configured to receive key information of the UE sent by the second base station;
所述基站还包括:校验单元;The base station further includes: a check unit;
所述校验单元,用于用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。The check unit is configured to perform integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determine that the UE is a legal UE.
如此,通过第一MTC GW或基站对UE合法性的验证,保证了后续数据传输的安全性。In this way, the verification of the legitimacy of the UE by the first MTC GW or the base station ensures the security of subsequent data transmission.
第五方面,本发明实施例还提供一种数据传输系统,包括如第三方面提供的MTC GW、如第四方面提供的基站以及UE。In a fifth aspect, the embodiment of the present invention further provides a data transmission system, including the MTC GW provided by the third aspect, the base station provided by the fourth aspect, and the UE.
需要说明的是,第四方面中的接收单元可以为基站的接收器,发送单元可以为基站的发射器;另外,也可以将接收单元和发送单元集成在一起构成基站的收发器。确定单元可以为单独设立的处理器,也可以集成在基站的某一个处理器中实现,此外,也可以以程序代码的形式存储于基站的存储器中,由基站的某一个处理器调用并执行以上确定单元、校验单元的功能。这里所述的处理器可以是一个中央处理器(Central Processing Unit,CPU),或者是特定集成电路(Application Specific Integrated Circuit,ASIC),或者是被配置成实施本发明实施例的一个或多个集成电路。It should be noted that the receiving unit in the fourth aspect may be a receiver of the base station, and the sending unit may be a transmitter of the base station; in addition, the receiving unit and the sending unit may also be integrated to form a transceiver of the base station. The determining unit may be a separately set processor, or may be integrated in a processor of the base station, or may be stored in a memory of the base station in the form of program code, and is called by one of the base stations and executes the above. Determine the function of the unit and the check unit. The processor described herein may be a Central Processing Unit (CPU), or an Application Specific Integrated Circuit (ASIC), or one or more integrated systems configured to implement embodiments of the present invention. Circuit.
由上可知,本发明实施例提供一种数据传输方法、设备及系统,第一MTC GW接收第一基站发送的包含UE标识的第一上行数据,并根据所述第一上行数据中的UE标识,确定所述UE处于所述第一 基站的覆盖范围内,将接收到的UE的下行数据发送至第一基站,第一基站将所述UE的下行数据包含在第一寻呼paging消息中向所述UE发送寻呼。如此,可以通过基站发送的携带有UE标识的上行数据,使MTC GW准确获知UE处于该基站的覆盖范围内,当有UE下行数据时,MTC GW可以将该UE的下行数据正确路由到该基站上,由该基站通过paging消息将该下行数据携带给UE,从而避免了现有机制中在不确定UE的具体位置的情况下,由多个基站携带下行数据的paging消息向UE发起寻呼所带来的大量资源开销的问题。As can be seen from the above, the embodiment of the present invention provides a data transmission method, device, and system. The first MTC GW receives the first uplink data that is sent by the first base station and includes the UE identifier, and is based on the UE identifier in the first uplink data. Determining that the UE is in the first The downlink data of the received UE is sent to the first base station, and the first base station sends the downlink data of the UE in the first paging paging message to send the paging to the UE. In this way, the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station. When there is downlink data of the UE, the MTC GW can correctly route the downlink data of the UE to the base station. The downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is initiated to the paging station in the existing mechanism. The problem of a lot of resource overhead.
附图说明DRAWINGS
为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below. Obviously, the drawings in the following description are only It is a certain embodiment of the present invention, and other drawings can be obtained from those skilled in the art without any creative work.
图1为一种数据传输方法的流程图;1 is a flow chart of a data transmission method;
图2为一种数据传输方法的流程图;2 is a flow chart of a data transmission method;
图3为本发明实施例提供的网络架构示意图;FIG. 3 is a schematic diagram of a network architecture according to an embodiment of the present disclosure;
图4为本发明实施例提供的MTC GW10和基站20的结构示意图;FIG. 4 is a schematic structural diagram of an MTC GW 10 and a base station 20 according to an embodiment of the present invention;
图5为本发明实施例提供的数据传输方法的流程图;FIG. 5 is a flowchart of a data transmission method according to an embodiment of the present invention;
图5a为本发明实施例提供的数据传输方法的流程图;FIG. 5a is a flowchart of a data transmission method according to an embodiment of the present invention;
图5b为本发明实施例提供的数据传输方法的流程图;FIG. 5b is a flowchart of a data transmission method according to an embodiment of the present invention;
图5c为本发明实施例提供的数据传输方法的流程图;FIG. 5c is a flowchart of a data transmission method according to an embodiment of the present invention;
图5d为本发明实施例提供的数据传输方法的流程图;FIG. 5 is a flowchart of a data transmission method according to an embodiment of the present invention;
图6为本发明实施例提供的MTC GW30的结构图;FIG. 6 is a structural diagram of an MTC GW 30 according to an embodiment of the present invention;
图7为本发明实施例提供的基站40的结构图;FIG. 7 is a structural diagram of a base station 40 according to an embodiment of the present invention;
图8为本发明实施例提供的数据传输系统的结构图。FIG. 8 is a structural diagram of a data transmission system according to an embodiment of the present invention.
具体实施方式 detailed description
下面结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.
图3为本发明实施例提供的网络架构示意图,如图3所示,该网络架构可以包括:UE、基站20和MTC GW10,其中,MTC GW10与基站20间建立有公共隧道(如GTP隧道),UE处于空闲(idle)状态,与基站20之间未建立无线资源控制(Radio Resource Control,RRC)。FIG. 3 is a schematic diagram of a network architecture according to an embodiment of the present invention. As shown in FIG. 3, the network architecture may include: a UE, a base station 20, and an MTC GW10, where a public tunnel (such as a GTP tunnel) is established between the MTC GW10 and the base station 20. The UE is in an idle state, and no Radio Resource Control (RRC) is established with the base station 20.
在如图3所示的网络架构中,UE可以在基站20间移动;由于UE处于空闲态。因此,在现有技术中,因为UE处于空闲态,所以MTC GW10不能获知UE的位置信息,从而导致当MTC GW10接收到UE的下行数据时,将该下行数据发送至与MTC GW10连接的所有基站20,由这些基站20通过寻呼(paging)消息将下行数据发送至UE,加大了资源开销。而在本发明中,可以由UE通过其所处小区内的基站20向MTC GW10上报该UE的标识,使MTC GW10确定UE处于该基站20的覆盖范围内,进而可以将接收到的UE的下行数据仅通过该基站20下发至UE,避免了其他与MTC GW10连接的基站20的资源开销。In the network architecture shown in FIG. 3, the UE can move between base stations 20; since the UE is in an idle state. Therefore, in the prior art, because the UE is in an idle state, the MTC GW 10 cannot learn the location information of the UE, so that when the MTC GW 10 receives the downlink data of the UE, the downlink data is sent to all the base stations connected to the MTC GW 10. 20. The base station 20 transmits downlink data to the UE through a paging message, which increases resource overhead. In the present invention, the UE may report the identity of the UE to the MTC GW 10 through the base station 20 in the cell in which the UE is located, so that the MTC GW 10 determines that the UE is in the coverage of the base station 20, and further can downlink the received UE. The data is delivered to the UE only through the base station 20, and the resource overhead of other base stations 20 connected to the MTC GW 10 is avoided.
可选的,为了实现本发明提供的数据传输方法,如图4所示,所述MTC GW10可以包括:收发器1011、处理器1012、存储器1013以及至少一个通信总线1014,用于实现这些装置之间的连接和相互通信;所述基站20可以包括:收发器2011、处理器2012、存储器2013以及至少一个通信总线2014,用于实现这些装置之间的连接和相互通信;Optionally, in order to implement the data transmission method provided by the present invention, as shown in FIG. 4, the MTC GW 10 may include: a transceiver 1011, a processor 1012, a memory 1013, and at least one communication bus 1014, for implementing these devices. Connecting and communicating with each other; the base station 20 may include: a transceiver 2011, a processor 2012, a memory 2013, and at least one communication bus 2014 for implementing connections and mutual communication between the devices;
其中,收发器1011、收发器2011,可以由天线来实现,可用于与外部网元之间进行数据交互,如:MTC GW10的收发器1011可收发与基站20间的数据包;基站20的收发器2011可收发与UE或 MTC GW10间的数据包;The transceiver 1011 and the transceiver 2011 can be implemented by an antenna, and can be used for data interaction with an external network element. For example, the transceiver 1011 of the MTC GW10 can send and receive data packets with the base station 20; Device 2011 can send and receive with UE or a packet between MTC GW10;
处理器1012、处理器2012,可能是一个中央处理器(central processing unit,简称为CPU),也可以是特定集成电路(Application Specific Integrated Circuit,ASIC),或者是被配置成实施本发明实施例的一个或多个集成电路。例如:一个或多个微处理器(digital singnal processor,DSP),或,一个或者多个现场可编程门阵列(Field Programmable Gate Array,FPGA)。The processor 1012 and the processor 2012 may be a central processing unit (CPU), may be an Application Specific Integrated Circuit (ASIC), or be configured to implement an embodiment of the present invention. One or more integrated circuits. For example: one or more digital singal processors (DSPs), or one or more Field Programmable Gate Arrays (FPGAs).
存储器1013、存储器2013,可以是易失性存储器(volatile memory),例如随机存取存储器(random-access memory,RAM);或者非易失性存储器(non-volatile memory)。例如只读存储器(read-only memory,ROM),快闪存储器(flash memory),硬盘(hard disk drive,HDD)或固态硬盘(solid-state drive,SSD);或者上述种类的存储器的组合。The memory 1013 and the memory 2013 may be a volatile memory such as a random-access memory (RAM) or a non-volatile memory. For example, a read-only memory (ROM), a flash memory, a hard disk drive (HDD), or a solid-state drive (SSD); or a combination of the above types of memories.
通信总线1014、通信总线2014可以分为地址总线、数据总线、控制总线等,可以是工业标准体系结构(Industry Standard Architecture,ISA)总线、外部设备互连(Peripheral Component,PCI)总线或扩展工业标准体系结构(Extended Industry Standard Architecture,EISA)总线等。为便于表示,图4中仅用一条粗线表示,但并不表示仅有一根总线或一种类型的总线。The communication bus 1014 and the communication bus 2014 can be divided into an address bus, a data bus, a control bus, etc., and can be an Industry Standard Architecture (ISA) bus, a Peripheral Component (PCI) bus, or an extended industry standard. Architecture (Extended Industry Standard Architecture, EISA) bus, etc. For ease of representation, only one thick line is shown in Figure 4, but it does not mean that there is only one bus or one type of bus.
具体的,处理器2012生成第一上行数据,由收发器2011将第一上行数据发送至MTC GW10收发器1011;所述第一上行数据包含用户设备UE标识;所述UE标识用于标识UE;Specifically, the processor 2012 generates the first uplink data, and the first uplink data is sent by the transceiver 2011 to the MTC GW10 transceiver 1011; the first uplink data includes the user equipment UE identifier; the UE identifier is used to identify the UE;
处理器1012从收发器1011接收到的第一数据中获取UE标识,根据该UE标识识别出UE处于发送第一上行数据的基站20的覆盖范围内;The processor 1012 obtains the UE identifier from the first data received by the transceiver 1011, and identifies that the UE is in the coverage of the base station 20 that sends the first uplink data according to the UE identifier.
当MTC GW10的收发器1011接收到上层的服务网关发送的UE的下行数据时,处理器1012将该UE的下行数据通过收发器1011发送至基站20的收发器1012;When the transceiver 1011 of the MTC GW10 receives the downlink data of the UE sent by the upper layer serving gateway, the processor 1012 transmits the downlink data of the UE to the transceiver 1012 of the base station 20 through the transceiver 1011;
处理器1012将收发器1012接收到的下行数据携带在paging消 息中向UE发送寻呼,使得UE从寻呼消息中获取到自身的下行数据,完成本次的数据传输。The processor 1012 carries the downlink data received by the transceiver 1012 in the paging cancellation The paging is sent to the UE, so that the UE obtains its own downlink data from the paging message, and completes the current data transmission.
如此,可以通过基站发送的携带有UE标识的上行数据,使MTC GW准确获知UE处于该基站的覆盖范围内,当有UE下行数据时,MTC GW可以将该UE的下行数据正确路由到对应的基站上,由该基站通过paging消息将该下行数据携带给UE,从而避免了现有机制中在不确定UE的具体位置的情况下,由多个基站携带下行数据的paging消息向UE发送寻呼所带来的大量资源开销的问题。In this way, the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station. When there is downlink data of the UE, the MTC GW can correctly route the downlink data of the UE to the corresponding The base station carries the downlink data to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is sent to the UE in the case that the specific location of the UE is not determined in the existing mechanism. The problem of a large amount of resource overhead.
其中,第一上行数据可以由基站20根据所述基站20接收到所述UE发送的第二上行数据生成,所述第二上行数据包含所述UE标识,可以为UE移动到基站20的覆盖范围内时主动向所述基站20上报的数据;还可以在UE被基站20成功寻呼后上报至基站20。The first uplink data may be generated by the base station 20 according to the second uplink data that is sent by the UE by the base station 20, where the second uplink data includes the UE identifier, which may be the coverage of the UE moving to the base station 20. The data that is reported to the base station 20 by the internal time is also reported to the base station 20 after the UE is successfully paged by the base station 20.
此外,由于UE移动到基站20的覆盖范围内时,第二上行数据为UE主动向所述基站20上报的数据,此时若UE为非法用户,则会给后续的数据传输带来不必要的麻烦,因此,为了保证后续数据传输的安全性,在本发明实施例中,还需要通过基站20或MTC GW10来验证UE的合法性,保证后续数据传输的安全性,具体实现如下:In addition, when the UE moves to the coverage of the base station 20, the second uplink data is data that the UE actively reports to the base station 20. If the UE is an illegal user, the subsequent data transmission may be unnecessary. In order to ensure the security of the subsequent data transmission, in the embodiment of the present invention, the base station 20 or the MTC GW 10 is required to verify the validity of the UE and ensure the security of subsequent data transmission. The specific implementation is as follows:
所述第二上行数据还可以包含:所述MTC GW10的标识以及消息认证码(Message Authentication Code,MAC);所述第一上行数据还包含:所述MAC;The second uplink data may further include: an identifier of the MTC GW 10 and a message authentication code (MAC); the first uplink data further includes: the MAC;
MTC GW10的处理器1012在所述收发器1011接收基站20的收发器2011根据所述MTC GW10的标识发送的第一上行数据之后,所述UE在基站20的覆盖范围内之前,在所述MTC GW20的存储器1013上查找与所述UE标识对应的UE的密钥信息,并用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。The processor 1012 of the MTC GW 10 after the transceiver 1011 receives the first uplink data sent by the transceiver 2011 of the base station 20 according to the identifier of the MTC GW 10, before the UE is within the coverage of the base station 20, at the MTC Searching, on the memory 1013 of the GW 20, the key information of the UE corresponding to the UE identifier, and performing integrity verification on the MAC by using the key information of the UE, and if the integrity check is successful, determining the The UE is a legal UE.
或者,所述第二上行数据还可以包含:MTC GW10的标识以及MAC;所述第一上行数据还可以包含:所述MAC以及第二MTC GW 的标识;Alternatively, the second uplink data may further include: an identifier of the MTC GW 10 and a MAC; the first uplink data may further include: the MAC and the second MTC GW Identification
所述MTC GW10的收发器1011在处理器1012确定所述UE在基站20的覆盖范围内之前,根据所述第二MTC GW的标识向第二MTC GW发送请求消息;请求第二MTC GW查找与所述UE标识相对应的UE的密钥信息,并接收第二MTC GW返回的UE的密钥信息;The transceiver 1011 of the MTC GW 10 sends a request message to the second MTC GW according to the identifier of the second MTC GW before the processor 1012 determines that the UE is within the coverage of the base station 20; requesting the second MTC GW to search and The UE identifies key information of the corresponding UE, and receives key information of the UE returned by the second MTC GW;
处理器1012在收发器1011接收到第二MTC GW发送的UE的密钥信息,用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。The processor 1012 receives the key information of the UE sent by the second MTC GW at the transceiver 1011, performs integrity check on the MAC by using the key information of the UE, and determines if the integrity check succeeds. The UE is a legal UE.
或者,所述第二上行数据还可以包含:第二基站的标识以及MAC;所述第一上行数据还可以包含:第二基站的标识;Or the second uplink data may further include: an identifier of the second base station and a MAC; the first uplink data may further include: an identifier of the second base station;
收发器2011在接收UE发送的第二上行数据之后,根据所述第二基站的标识向第二基站发送请求消息,请求所述第二基站根据所述UE的标识查询与所述UE对应的密钥信息,并接收第二基站返回的UE的密钥信息和MTC GW10的标识;After receiving the second uplink data sent by the UE, the transceiver 2011 sends a request message to the second base station according to the identifier of the second base station, and requests the second base station to query the confidentiality corresponding to the UE according to the identifier of the UE. Key information, and receiving key information of the UE returned by the second base station and an identifier of the MTC GW 10;
处理器2012在收发器2011接收到第二基站发送的UE的密钥信息后,用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE;After receiving the key information of the UE sent by the second base station, the processor 2012 performs integrity verification on the MAC by using the key information of the UE, and if the integrity check succeeds, determining The UE is a legal UE;
收发器2011在接收到MTC GW10的标识后根据MTC GW10的标识向MTC GW10发送第一上行数据。After receiving the identifier of the MTC GW 10, the transceiver 2011 sends the first uplink data to the MTC GW 10 according to the identifier of the MTC GW 10.
或者,所述第二上行数据还可以包含:所述第二基站的标识以及MAC;Alternatively, the second uplink data may further include: an identifier of the second base station and a MAC;
所述收发器2011在所述收发器2011接收所述UE发送的第二上行数据之后,向MTC GW10发送第一上行数据之前,根据所述第二基站的标识向所述第二基站发送请求消息以及向所述第二基站发送通知消息,通知所述第二基站释放所述第二基站内存储的所述UE的上下文信息,请求所述第二基站根据所述UE的标识查询所述第二基站中存储的与所述UE对应的密钥信息;并接收所述第二基站发送的所述UE的密钥信息; After receiving the second uplink data sent by the UE, the transceiver 2011 sends a request message to the second base station according to the identifier of the second base station before sending the first uplink data to the MTC GW10. And sending a notification message to the second base station, informing the second base station to release the context information of the UE stored in the second base station, requesting the second base station to query the second base according to the identifier of the UE Key information corresponding to the UE stored in the base station; and receiving key information of the UE sent by the second base station;
所述处理器2012在收发器2011接收到所述UE的密钥信息后,用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。After receiving the key information of the UE, the processor 2012 performs integrity verification on the MAC by using key information of the UE, and if the integrity check succeeds, determining the location The UE is a legal UE.
如此,通过MTC GW10或基站对UE合法性的验证,保证了后续数据传输的安全性。In this way, the verification of the legitimacy of the UE by the MTC GW10 or the base station ensures the security of subsequent data transmission.
为了便于描述,以下实施例一以步骤的形式示出并详细描述了本发明提供的数据传输方法的过程,其中,示出的步骤也可以在一组可执行指令的计算机系统中执行。此外,虽然在图中示出了逻辑顺序,但是在某些情况下,可以以不同于此处的顺序执行所示出或描述的步骤。For ease of description, the following embodiment 1 shows and describes in detail the process of the data transmission method provided by the present invention, wherein the steps shown may also be performed in a computer system of a set of executable instructions. Moreover, although logical sequences are shown in the figures, in some cases the steps shown or described may be performed in a different order than the ones described herein.
实施例一Embodiment 1
图5为本发明实施例提供的一种数据传输方法的流程图,由图3所示的MTC GW10和基站20交互执行,用于向图3所示网络架构下的任一UE发送下行数据;如图5所示,所述方法可以包括以下步骤:FIG. 5 is a flowchart of a data transmission method according to an embodiment of the present invention. The MTC GW 10 and the base station 20 shown in FIG. 3 are mutually executed, and are used to send downlink data to any UE in the network architecture shown in FIG. 3; As shown in FIG. 5, the method may include the following steps:
S101:第一基站向第一MTC GW发送第一上行数据;所述第一上行数据包含UE标识,所述UE标识用于标识所述UE。S101: The first base station sends first uplink data to the first MTC GW; the first uplink data includes a UE identifier, and the UE identifier is used to identify the UE.
其中,第一基站为图3所示网络架构中的任一基站,第一MTC GW为与所述第一基站建立公共隧道连接的MTC GW,所述UE为处于空闲状态,未与第一基站建立RRC连接。The first base station is any base station in the network architecture shown in FIG. 3. The first MTC GW is an MTC GW that establishes a public tunnel connection with the first base station, and the UE is in an idle state, and is not in the idle state. Establish an RRC connection.
需要说明的是,在本发明实施例中,可以将UE到基站、基站到MTC GW的链路称为上行链路,将MTC GW到基站、基站到UE的链路称为下行链路,因此,在基站到MTC GW链路上发送的数据即为上行数据。It should be noted that, in the embodiment of the present invention, a link from a UE to a base station, a base station, and an MTC GW may be referred to as an uplink, and a link from an MTC GW to a base station and a base station to a UE may be referred to as a downlink, and thus The data sent on the base station to the MTC GW link is the uplink data.
可选的,为了提高数据传输资源的利用率,所述第一上行数据可以为周期较长、数据大小较小的小包数据。Optionally, in order to improve the utilization of the data transmission resource, the first uplink data may be packet data with a longer period and a smaller data size.
S102:第一MTC GW根据所述第一上行数据中的UE标识,确定所述UE处于所述第一基站的覆盖范围内。S102: The first MTC GW determines, according to the UE identifier in the first uplink data, that the UE is in a coverage range of the first base station.
可选的,第一上行数据还可以包含第一基站的标识,所述第一 基站的标识用于标识所述第一基站,如此,当第一MTC GW接收到第一基站发送的上行数据后,可以从该上行数据携带的UE标识和第一基站标识确定出所述UE处于所述第一基站的覆盖范围内。Optionally, the first uplink data may further include an identifier of the first base station, where the first The identifier of the base station is used to identify the first base station. After the first MTC GW receives the uplink data sent by the first base station, the first MTC GW may determine, according to the UE identifier and the first base station identifier carried in the uplink data, that the UE is in the Within the coverage of the first base station.
或者,第一基站直接通过第一基站与第一MTC GW间建立的公共隧道向第一MTC GW发送仅携带有UE标识的第一上行数据。由于,第一MTC GW与一个基站建立一个公共隧道,因此一旦第一MTC GW从该公共隧道上接收到第一上行数据,则就知道该第一上行数据是第一基站发送的,然后再通过该上行数据携带的UE标识确定出UE,知道UE在第一基站的覆盖范围内。Or the first base station directly sends the first uplink data carrying only the UE identifier to the first MTC GW by using a public tunnel established between the first base station and the first MTC GW. Since the first MTC GW establishes a public tunnel with a base station, once the first MTC GW receives the first uplink data from the public tunnel, it knows that the first uplink data is sent by the first base station, and then passes The UE identifier carried by the uplink data determines the UE, and knows that the UE is within the coverage of the first base station.
S103:第一MTC GW向第一基站发送所述UE的下行数据。S103: The first MTC GW sends downlink data of the UE to the first base station.
可选的,第一MTC GW通过公共隧道向第一基站发送所述UE的下行数据。Optionally, the first MTC GW sends the downlink data of the UE to the first base station by using a public tunnel.
S104:第一基站向所述UE发送第一寻呼消息,所述第一寻呼消息中包含所述UE的下行数据。S104: The first base station sends a first paging message to the UE, where the first paging message includes downlink data of the UE.
由于,UE在第一基站在覆盖范围内,所以,第一基站可以成功寻呼到UE。此时,UE可以在被成功寻呼后,获取第一寻呼消息中的下行数据。Since the UE is within the coverage of the first base station, the first base station can successfully page to the UE. At this time, the UE may acquire downlink data in the first paging message after being successfully paged.
如此,可以通过基站发送的携带有UE标识的上行数据,使MTC GW准确获知UE处于该基站的覆盖范围内,当有UE下行数据时,MTC GW可以将该UE的下行数据正确路由到该基站上,由该基站通过paging消息将该下行数据携带给UE,从而避免了现有机制中在不确定UE的具体位置的情况下,由多个基站携带下行数据的paging消息向UE发送寻呼所带来的大量资源开销的问题。In this way, the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station. When there is downlink data of the UE, the MTC GW can correctly route the downlink data of the UE to the base station. The downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is sent to the UE in the case that the specific location of the UE is not determined in the existing mechanism. The problem of a lot of resource overhead.
其中,步骤S101中的第一上行数据可以由第一基站根据第二上行数据生成,即在步骤S101之前,第一基站还需要接收到第二上行数据;其中,所述第二上行数据包含所述UE标识,所述第二上行数据可以在下述任一种情况下由UE发送至第一基站:The first uplink data in the step S101 may be generated by the first base station according to the second uplink data, that is, before the step S101, the first base station further needs to receive the second uplink data, where the second uplink data includes the Referring to the UE identifier, the second uplink data may be sent by the UE to the first base station in any of the following cases:
一、当UE发现自身从其他基站的覆盖范围移动到第一基站的范围内(如:从第二基站的覆盖范围移动到所述第一基站覆盖范围) 时,UE主动向所述第一基站上报第二上行数据。1. When the UE finds that it moves from the coverage of other base stations to the range of the first base station (eg, moves from the coverage of the second base station to the coverage of the first base station) The UE actively reports the second uplink data to the first base station.
可选的,UE可以通过系统消息或通过读取同步信号得到小区的物理小区标识(PCI)信息发现自身从其他基站的覆盖范围移动到第一基站的范围内。Optionally, the UE may obtain the physical cell identifier (PCI) information of the cell by using a system message or by reading the synchronization signal to find that it moves from the coverage of the other base station to the range of the first base station.
二、当UE被第一基站成功寻呼后,UE向第一基站上报第二上行数据。2. After the UE is successfully paged by the first base station, the UE reports the second uplink data to the first base station.
其中,在UE被第一基站成功寻呼之前,所述方法还可以包括:The method may further include: before the UE is successfully paged by the first base station, the method may further include:
第一MTC GW接收到所述UE的下行数据,向与所述第一MTC GW相连接的所有基站发送第二paging消息,所述第二paging消息中包含所述UE标识;The first MTC GW receives the downlink data of the UE, and sends a second paging message to all the base stations connected to the first MTC GW, where the second paging message includes the UE identifier;
所述所有基站中的每个基站在收到第二paging消息后,每个基站在其覆盖范围内通过第三paging消息寻呼所述UE;所述所有基站包含所述第一基站。After receiving the second paging message, each base station of each of the base stations pages the UE by using a third paging message within its coverage; the all base stations include the first base station.
由于,UE在第一基站的覆盖范围内,所以,只有第一基站发出的第三paging消息才能成功寻呼到UE。Because the UE is within the coverage of the first base station, only the third paging message sent by the first base station can successfully page to the UE.
可选的,在第二种情况下所述第二上行数据还可以包含:第一MTC GW的标识,所述第一MTC GW的标识用于第一基站根据第一MTC GW的标识,向所述第一MTC GW发送所述第一上行数据;所述第一MTC GW的标识用于标识所述第一MTC GW。Optionally, in the second case, the second uplink data may further include: an identifier of the first MTC GW, where the identifier of the first MTC GW is used by the first base station according to the identifier of the first MTC GW. The first MTC GW sends the first uplink data; the identifier of the first MTC GW is used to identify the first MTC GW.
由于,在第一种情况下,UE移动到第一基站的覆盖范围内时,主动向第一基站上报上行数据,此时若UE为非法用户,则会给后续的数据传输带来不必要的麻烦。因此,为了保证后续数据传输的安全性,在本发明实施例中,若接收到UE在移动过程中上报的第二上行数据,还需要通过第一基站或第一MTC GW来验证UE的合法性,待确定UE为合法UE后再确定UE所处的基站,进行数据传输;具体的,可以通过图5a~5d中任一附图所述的方法来确定UE的合法性:In the first case, when the UE moves to the coverage of the first base station, the uplink data is actively reported to the first base station. If the UE is an illegal user, the subsequent data transmission is unnecessary. trouble. Therefore, in order to ensure the security of the subsequent data transmission, in the embodiment of the present invention, if the second uplink data reported by the UE during the mobile process is received, the legality of the UE needs to be verified by the first base station or the first MTC GW. After the UE is determined to be a legal UE, the base station where the UE is located is determined to perform data transmission. Specifically, the legality of the UE may be determined by using the method in any of the following FIG. 5a to FIG. 5d:
其中,图5a所示方法可以包括以下步骤:The method shown in FIG. 5a may include the following steps:
S101a:UE向第一基站上报第二上行数据,所述第二上行数据 包含:所述UE标识、第一MTC GW的标识以及消息认证码(Message Authentication Code,MAC)。S101a: The UE reports second uplink data to the first base station, where the second uplink data is sent. The identifier includes: the identifier of the UE, the identifier of the first MTC GW, and a message authentication code (MAC).
S102a:第一基站根据所述第一MTC GW的标识向第一MTC GW发送第一上行数据,所述第一上行数据包含:所述UE标识、所述MAC。S102a: The first base station sends first uplink data to the first MTC GW according to the identifier of the first MTC GW, where the first uplink data includes: the UE identifier, the MAC.
S103a:第一MTC GW查找与所述UE标识对应的UE的密钥信息,用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。S103a: The first MTC GW searches for key information of the UE corresponding to the UE identifier, performs integrity verification on the MAC by using the key information of the UE, and if the integrity check succeeds, determines the location. The UE is a legal UE.
其中,所述MAC主要用于验证消息的完整性,防止消息被攻击者篡改。在向对方传输消息时,发送方可以将该消息认证码放在消息的后面,随消息一起发送到接收方,接收方收到该消息后,可以将收到的消息、密钥信息以及其他一些参数作为入参,通过密钥派生函数(Key Derivatioin Function,KDF)派生出新的消息验证码,将新的消息验证码与消息中的消息验证码进行比较,若二者一致,则说明消息未被篡改,完整性校验成功,若二者不一致,则说明消息未被篡改,完整性校验失败。The MAC is mainly used to verify the integrity of the message and prevent the message from being tampered with by the attacker. When transmitting a message to the other party, the sender may place the message authentication code behind the message and send it to the receiver along with the message. After receiving the message, the receiver may receive the received message, key information, and other parameters. As a parameter, a new message verification code is derived by Key Derivatioin Function (KDF), and the new message verification code is compared with the message verification code in the message. If the two are consistent, the message is not Tampering, the integrity check is successful. If the two are inconsistent, the message has not been tampered with and the integrity check failed.
例如:第一MTC GW查找到密钥信息后,可以将第一上行数据、密钥信息作为入参,通过KDF函数派生出新的MAC,将新的MAC与第一上行数据中的MAC进行比较,若二者一致,则说明消息未被篡改,完整性校验成功,若二者不一致,则说明消息未被篡改,完整性校验失败。For example, after the first MTC GW finds the key information, the first uplink data and the key information may be used as input parameters, and a new MAC is derived through the KDF function, and the new MAC is compared with the MAC in the first uplink data. If the two are consistent, the message has not been tampered with, and the integrity check succeeds. If the two are inconsistent, the message has not been tampered with, and the integrity check fails.
图5b所示方法可以包括以下步骤:The method shown in Figure 5b can include the following steps:
S101b:UE向第一基站上报第二上行数据,所述第二上行数据包含:所述UE标识、第二基站的标识以及MAC。S101b: The UE reports the second uplink data to the first base station, where the second uplink data includes: the identifier of the UE, the identifier of the second base station, and the MAC.
S102b:第一基站根据所述第二基站的标识向所述第二基站发送请求消息;所述请求消息包含所述UE的标识,所述请求消息用于请求所述第二基站根据所述UE的标识查询所述第二基站中存储的与所述UE对应的密钥信息。S102b: The first base station sends a request message to the second base station according to the identifier of the second base station; the request message includes an identifier of the UE, and the request message is used to request the second base station according to the UE. The identifier is used to query key information corresponding to the UE stored in the second base station.
S103b:第一基站接收所述第二基站发送的包含所述UE的密钥 信息和第一MTC GW的标识的响应消息。S103b: The first base station receives the key that is sent by the second base station and includes the UE. The message and the response message of the identity of the first MTC GW.
S104b:第一基站用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。S104b: The first base station performs integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determining that the UE is a legal UE.
接下来,第一基站可以根据步骤S103b中接收到的第一MTC GW的标识向第一MTC GW发送第一上行小包数据数据,其中,所述第一上行数据可以包含:所述UE标识、所述第一基站的标识,以使得第一MTC GW确定UE在第一基站的覆盖范围内。Next, the first base station may send the first uplink packet data to the first MTC GW according to the identifier of the first MTC GW received in the step S103b, where the first uplink data may include: the UE identifier, the Determining the identity of the first base station such that the first MTC GW determines that the UE is within the coverage of the first base station.
图5c所示方法可以包括以下步骤:The method shown in Figure 5c can include the following steps:
S101c:UE向第一基站上报第二上行数据,所述第二上行数据包含:所述UE标识、第二MTC GW的标识以及MAC。S101c: The UE reports the second uplink data to the first base station, where the second uplink data includes: the identifier of the UE, the identifier of the second MTC GW, and the MAC.
S102c:第一基站向第一MTC GW发送第一上行数据,所述第一上行数据包含:所述UE标识、所述第二MTC GW的标识以及所述MAC。S102c: The first base station sends the first uplink data to the first MTC GW, where the first uplink data includes: the identifier of the UE, the identifier of the second MTC GW, and the MAC.
其中,第一MTC GW为当前可为UE提供服务的MTC GW,第二MTC GW为UE移动之前为UE提供服务的MTC GW。The first MTC GW is an MTC GW that can currently provide services for the UE, and the second MTC GW is an MTC GW that provides services for the UE before the UE moves.
S103c:第一MTC GW根据所述第二MTC GW的标识向所述第二MTC GW发送请求消息;所述请求消息包含所述UE标识,所述请求消息用于请求在所述第二MTC GW上查找与所述UE标识相对应的UE的密钥信息。S103c: The first MTC GW sends a request message to the second MTC GW according to the identifier of the second MTC GW; the request message includes the UE identifier, and the request message is used to request the second MTC GW. The key information of the UE corresponding to the UE identifier is searched for.
S104c:第一MTC GW接收第二MTC GW发送的所述UE的密钥信息。S104c: The first MTC GW receives the key information of the UE that is sent by the second MTC GW.
S105c:第一MTC GW用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。S105c: The first MTC GW performs integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determining that the UE is a legal UE.
图5d所示方法可以包括以下步骤:The method shown in Figure 5d can include the following steps:
S101d:UE向第一基站上报第二上行数据,所述第二上行数据包含:所述UE标识、第二基站的标识以及MAC。S101d: The UE reports the second uplink data to the first base station, where the second uplink data includes: the identifier of the UE, the identifier of the second base station, and the MAC.
S102d:第一基站根据所述第二基站的标识向所述第二基站发送请求消息;所述请求消息包含所述UE的标识,所述请求消息用于请求所述第二基站根据所述UE的标识查询所述第二基站中存储的 与所述UE对应的密钥信息。S102d: The first base station sends a request message to the second base station according to the identifier of the second base station; the request message includes an identifier of the UE, and the request message is used to request the second base station according to the UE. Identification of the second base station stored in the query Key information corresponding to the UE.
S103d:第一基站接收所述第二基站发送的所述UE的密钥信息。S103d: The first base station receives the key information of the UE that is sent by the second base station.
S104d:用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。S104d: Perform integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determine that the UE is a legal UE.
接下来,第一基站可以向第一MTC GW发送第一上行数据,其中,所述第一上行数据可以包含:所述UE标识,第一MTC GW根据所述UE标识确定UE在第一基站的覆盖范围内。The first base station may send the first uplink data to the first MTC GW, where the first uplink data may include: the UE identifier, and the first MTC GW determines, according to the UE identifier, that the UE is at the first base station. Coverage.
需要说明的是,在图5c和图5d所示的方法中,与第一基站连接的MTC GW从第二MTC GW变化到第一MTC GW,因此,为了接收到上层网关发送的UE下行数据,第一MTC GW还需要通知上层设备(如:PGW(PDN GateWay,PDN网关))进行数据通道的更新,将PGW与第二MTC GW间的通道切换为PGW与第一MTC GW之间。其中,在图5d所示的方法中第一基站根据第二基站的标识信息,通知第二基站进行对应UE上下文信息的释放,同时,第二基站也会进一步通知第二MTC GW进行对应UE的上下文信息的释放。It should be noted that, in the method shown in FIG. 5c and FIG. 5d, the MTC GW connected to the first base station changes from the second MTC GW to the first MTC GW. Therefore, in order to receive the downlink data of the UE sent by the upper gateway, The first MTC GW also needs to notify the upper layer device (eg, PGW (PDN GateWay)) to update the data channel, and switch the channel between the PGW and the second MTC GW to be between the PGW and the first MTC GW. In the method shown in FIG. 5d, the first base station notifies the second base station to release the corresponding UE context information according to the identifier information of the second base station, and the second base station further informs the second MTC GW to perform the corresponding UE. The release of context information.
由上可知,本发明实施例提供一种数据传输方法,第一MTC GW接收第一基站发送的包含UE标识的第一上行数据,并根据所述第一上行数据中的UE标识,确定所述UE处于所述第一基站的覆盖范围内,将接收到的UE的下行数据发送至第一基站,第一基站将所述UE的下行数据包含在第一寻呼paging消息中向所述UE发送寻呼。如此,可以通过基站发送的携带有UE标识的上行数据,使MTC GW准确获知UE处于该基站的覆盖范围内,当有UE下行数据时,MTC GW可以将该UE的下行数据正确路由到该基站上,由该基站通过paging消息将该下行数据携带给UE,从而避免了现有机制中在不确定UE的具体位置的情况下,由多个基站携带下行数据的paging消息向UE发起寻呼所带来的大量资源开销的问题。As can be seen from the above, the embodiment of the present invention provides a data transmission method, where the first MTC GW receives the first uplink data that is sent by the first base station and includes the identifier of the UE, and determines, according to the UE identifier in the first uplink data, The UE is in the coverage of the first base station, and sends the downlink data of the received UE to the first base station, where the first base station sends the downlink data of the UE to the UE in the first paging paging message. Paging. In this way, the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station. When there is downlink data of the UE, the MTC GW can correctly route the downlink data of the UE to the base station. The downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is initiated to the paging station in the existing mechanism. The problem of a lot of resource overhead.
实施例二Embodiment 2
图6为本发明实施例提供的一种机器类型通信网关MTC GW10的结构图,用于执行实施例一所述的方法,如图6所示,所述MTC  GW可以包括:FIG. 6 is a structural diagram of a machine type communication gateway MTC GW10 according to an embodiment of the present invention, for performing the method described in Embodiment 1, as shown in FIG. GW can include:
接收单元201,用于接收第一基站发送的第一上行数据;所述第一上行数据包含用户设备UE标识;所述UE标识用于标识UE。The receiving unit 201 is configured to receive first uplink data sent by the first base station, where the first uplink data includes a user equipment UE identifier, and the UE identifier is used to identify the UE.
确定单元202,用于根据所述接收单元接收到的第一上行数据中的UE标识,确定所述UE处于所述第一基站的覆盖范围内;其中,所述UE与所述第一基站未建立无线资源控制RRC连接。The determining unit 202 is configured to determine, according to the UE identifier in the first uplink data that is received by the receiving unit, that the UE is in the coverage of the first base station, where the UE and the first base station are not Establish a radio resource control RRC connection.
发送单元203,用于在所述确定单元确定所述UE处于所述第一基站的覆盖范围后,通过向所述第一基站发送所述UE的下行数据,触发所述第一基站向所述UE发送第一寻呼paging消息,所述第一paging消息中包含所述UE的下行数据。The sending unit 203 is configured to: after the determining unit determines that the UE is in the coverage of the first base station, trigger the first base station to send the downlink data by sending the downlink data of the UE to the first base station. The UE sends a first paging paging message, where the first paging message includes downlink data of the UE.
如此,可以通过基站发送的携带有UE标识的上行数据,使MTC GW准确获知UE处于该基站的覆盖范围内,当有UE下行数据时,MTC GW可以将该UE的下行数据正确路由到该基站上,由该基站通过paging消息将该下行数据携带给UE,从而避免了现有机制中在不确定UE的具体位置的情况下,由多个基站携带下行数据的paging消息向UE发送寻呼所带来的大量资源开销的问题。In this way, the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station. When there is downlink data of the UE, the MTC GW can correctly route the downlink data of the UE to the base station. The downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is sent to the UE in the case that the specific location of the UE is not determined in the existing mechanism. The problem of a lot of resource overhead.
其中,第一上行数据可以由第一基站根据所述第一基站接收到所述UE发送的第二上行数据生成,所述第二上行数据包含所述UE标识,可以为UE移动到第一基站的覆盖范围内(如:从第二基站的覆盖范围移动到所述第一基站覆盖范围)时主动向所述第一基站上报的数据;还可以在UE被第一基站成功寻呼后上报至第一基站,具体实现如下:The first uplink data may be generated by the first base station according to the second uplink data that is sent by the UE by the first base station, where the second uplink data includes the UE identifier, and may be moved to the first base station by the UE. Data that is actively reported to the first base station when the UE is successfully paged by the first base station, and may be reported to the UE after being successfully paged by the first base station. The first base station is specifically implemented as follows:
所述接收单元201,还用于在接收第一基站发送的第一上行数据之前,接收服务网关发送的所述UE的下行数据;The receiving unit 201 is further configured to: before receiving the first uplink data sent by the first base station, receive downlink data of the UE sent by the serving gateway;
所述发送单元203,还用于向与所述MTC GW相连接的所有基站发送第二paging消息,所述第二paging消息中包含所述UE标识;所述所有基站中的每个基站在收到第二paging消息后,在其覆盖范围内向与所述UE标识对应的UE发送第三paging消息;所述所有基站包含所述第一基站; The sending unit 203 is further configured to send, to all base stations connected to the MTC GW, a second paging message, where the second paging message includes the UE identifier, and each of the base stations receives After the second paging message, sending, in its coverage, a third paging message to the UE corresponding to the UE identifier; the all base stations include the first base station;
所述接收单元201,具体用于接收所述第一基站根据所述MTC GW的标识,向所述MTC GW发送的所述第一上行数据;The receiving unit 201 is specifically configured to receive, by the first base station, the first uplink data that is sent by the first base station to the MTC GW according to the identifier of the MTC GW;
其中,所述第一上行数据由所述第一基站根据接收到的所述UE发送的第二上行数据生成,所述第二上行数据用于通知所述第一基站所述UE被寻呼到,所述第二上行数据包含:所述UE标识和所述MTC GW的标识。The first uplink data is generated by the first base station according to the received second uplink data sent by the UE, and the second uplink data is used to notify the first base station that the UE is paged to The second uplink data includes: the UE identifier and an identifier of the MTC GW.
由于,在UE移动到第一基站的覆盖范围时,第二上行数据为UE主动向所述第一基站上报的数据,此时若UE为非法用户,则会给后续的数据传输带来不必要的麻烦,因此,为了保证后续数据传输的安全性,还需要通过第一基站或所述MTC GW来验证UE的合法性,待确定UE为合法UE后在进行数据传输,具体实现如下:The second uplink data is data that the UE actively reports to the first base station when the UE moves to the coverage of the first base station. If the UE is an illegal user, the subsequent data transmission is unnecessary. Therefore, in order to ensure the security of the subsequent data transmission, the validity of the UE needs to be verified by the first base station or the MTC GW. After the UE is determined to be a legitimate UE, data transmission is performed, and the specific implementation is as follows:
所述第二上行数据还包含:所述MTC GW的标识以及消息认证码MAC;所述第一上行数据还包含:所述MAC;The second uplink data further includes: an identifier of the MTC GW and a message authentication code MAC; the first uplink data further includes: the MAC;
所述接收单元201,具体用于接收所述第一基站根据所述MTC GW标识发送的第一上行数据;The receiving unit 201 is specifically configured to receive first uplink data that is sent by the first base station according to the MTC GW identifier.
所述MTC GW还包括校验单元204,The MTC GW further includes a check unit 204,
所述校验单元204,用于在确定单元202确定所述UE在第一基站的覆盖范围内之前,在所述MTC GW上查找与所述UE标识相对应的UE的密钥信息;The checking unit 204 is configured to search, on the MTC GW, key information of the UE corresponding to the UE identifier, before the determining unit 202 determines that the UE is within the coverage of the first base station;
用所述UE的密钥信息对所述MAC进行完整性校验;Performing an integrity check on the MAC by using key information of the UE;
如果所述完整性校验成功,则确定所述UE为合法UE。If the integrity check is successful, it is determined that the UE is a legitimate UE.
或者,所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识;Or the second uplink data further includes: an identifier of the second MTC GW and the MAC; the first uplink data further includes: the identifier of the MAC and the second MTC GW;
所述发送单元203,还用于在确定单元202确定所述UE在第一基站的覆盖范围内之前,根据所述第二MTC GW的标识向所述第二MTC GW发送请求消息;所述请求消息包含所述UE标识,所述请求消息用于请求在所述第二MTC GW上查找与所述UE标识相对应的UE的密钥信息; The sending unit 203 is further configured to: before the determining unit 202 determines that the UE is within the coverage of the first base station, send a request message to the second MTC GW according to the identifier of the second MTC GW; the request The message includes the UE identifier, where the request message is used to request to search for the key information of the UE corresponding to the UE identifier on the second MTC GW;
所述接收单元201,还用于接收所述第二MTC GW发送的所述UE的密钥信息;The receiving unit 201 is further configured to receive key information of the UE that is sent by the second MTC GW;
所述MTC GW还包括:校验单元204,The MTC GW further includes: a check unit 204,
所述校验单元204,用于用所述UE的密钥信息对所述MAC进行完整性校验,确定所述UE为合法UE。The checking unit 204 is configured to perform integrity check on the MAC by using key information of the UE, and determine that the UE is a legal UE.
或者,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述第一上行数据还包含:所述第二基站的标识,所述MAC用于使所述第一基站确定所述UE是否为合法UE;Or the second uplink data further includes: an identifier of the second base station and a MAC; the first uplink data further includes: an identifier of the second base station, where the MAC is used to determine, by the first base station Whether the UE is a legal UE;
所述接收单元201,具体用于接收所述第一基站在确认所述UE为合法UE后根据所述MTC GW的标识发送的第一上行数据;所述MTC GW的标识为:所述第一基站从所述第二基站处获取得到。The receiving unit 201 is configured to receive, by the first base station, first uplink data that is sent according to the identifier of the MTC GW after the first base station is confirmed to be a valid UE; the identifier of the MTC GW is: the first The base station obtains from the second base station.
或者,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述MAC用于使所述第一基站确定所述UE是否为合法UE,Or the second uplink data further includes: an identifier of the second base station and a MAC; the MAC is used to enable the first base station to determine whether the UE is a legal UE,
所述接收单元201,具体用于接收所述第一基站在确认所述UE为合法UE后向所述MTC GW发送的第一上行数据。The receiving unit 201 is specifically configured to receive, by the first base station, first uplink data that is sent by the first base station to the MTC GW after confirming that the UE is a legal UE.
如此,通过MTC GW或第一基站对UE合法性的验证,保证了后续数据传输的安全性。In this way, the verification of the legitimacy of the UE by the MTC GW or the first base station ensures the security of subsequent data transmission.
需要说明的是,本发明图6所示MTC GW中的接收单元、发送单元可以为图4所示的MTC GW10中的收发器1011;确定单元、校验单元可以为单独设立的处理器,也可以集成在MTC GW的某一个处理器中实现,此外,也可以以程序代码的形式存储于MTC GW的存储器中,由MTC GW的某一个处理器调用并执行以上数据传输的功能。这里所述的处理器可以是一个中央处理器(Central Processing Unit,CPU),或者是特定集成电路(Application Specific Integrated Circuit,ASIC),或者是被配置成实施本发明实施例的一个或多个集成电路。It should be noted that the receiving unit and the sending unit in the MTC GW shown in FIG. 6 of the present invention may be the transceiver 1011 in the MTC GW 10 shown in FIG. 4; the determining unit and the verifying unit may be separate processors, and It can be implemented in one processor of the MTC GW. In addition, it can also be stored in the memory of the MTC GW in the form of program code, and the function of the above data transmission is called by one processor of the MTC GW. The processor described herein may be a Central Processing Unit (CPU), or an Application Specific Integrated Circuit (ASIC), or one or more integrated systems configured to implement embodiments of the present invention. Circuit.
由上可知,本发明实施例提供一种MTC GW,接收第一基站发送的包含UE标识的第一上行数据,并根据所述第一上行数据中的UE标识,确定所述UE处于所述第一基站的覆盖范围内,将接收到 的UE的下行数据发送至第一基站,第一基站将所述UE的下行数据包含在第一寻呼paging消息中向所述UE发送寻呼。如此,可以通过基站发送的携带有UE标识的上行数据,使MTC GW准确获知UE处于该基站的覆盖范围内,当有UE下行数据时,MTC GW可以将该UE的下行数据正确路由到该基站上,由该基站通过paging消息将该下行数据携带给UE,从而避免了现有机制中在不确定UE的具体位置的情况下,由多个基站携带下行数据的paging消息向UE发送寻呼所带来的大量资源开销的问题。As can be seen from the above, the embodiment of the present invention provides an MTC GW, which receives the first uplink data that is sent by the first base station and includes the UE identifier, and determines, according to the UE identifier in the first uplink data, that the UE is in the first Within the coverage of a base station, it will receive The downlink data of the UE is sent to the first base station, and the first base station includes the downlink data of the UE in the first paging paging message to send a page to the UE. In this way, the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station. When there is downlink data of the UE, the MTC GW can correctly route the downlink data of the UE to the base station. The downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is sent to the UE in the case that the specific location of the UE is not determined in the existing mechanism. The problem of a lot of resource overhead.
实施例三Embodiment 3
图7为本发明实施例提供的一种基站40的结构图,如图7所示,所述基站40可以包括:FIG. 7 is a structural diagram of a base station 40 according to an embodiment of the present invention. As shown in FIG. 7, the base station 40 may include:
发送单元301,用于向第一机器类型通信网关MTC GW发送第一上行数据,所述第一上行数据用于所述第一MTC GW根据所述第一上行数据中的UE标识,确定所述UE处于所述第一基站的覆盖范围内;其中,所述第一上行数据包含:所述UE标识;所述UE标识用于标识UE;所述UE与所述基站未建立无线资源控制RRC连接。The sending unit 301 is configured to send the first uplink data to the first device type communication gateway MTC GW, where the first uplink data is used by the first MTC GW to determine, according to the UE identifier in the first uplink data, The UE is in the coverage of the first base station, where the first uplink data includes: the UE identifier; the UE identifier is used to identify the UE; and the UE does not establish a radio resource control RRC connection with the base station. .
接收单元302,用于接收所述第一MTC GW发送的所述UE的下行数据;The receiving unit 302 is configured to receive downlink data of the UE sent by the first MTC GW.
所述发送单元301,还用于向所述UE发送第一寻呼paging消息,所述第一paging消息中包含所述UE的下行数据。The sending unit 301 is further configured to send a first paging paging message to the UE, where the first paging message includes downlink data of the UE.
如此,可以通过向第一机器类型通信网关MTC GW发送第一上行数据,使MTC GW准确获知UE处于该基站的覆盖范围内,当有UE下行数据时,MTC GW可以将该UE的下行数据正确路由到对应的基站上,由该基站通过paging消息将该下行数据携带给UE,从而避免了现有机制中在不确定UE的具体位置的情况下,由多个基站携带下行数据的paging消息向UE发送寻呼所带来的大量资源开销的问题。In this way, the first uplink data may be sent to the first device type communication gateway MTC GW, so that the MTC GW can accurately know that the UE is in the coverage of the base station. When there is downlink data of the UE, the MTC GW can correctly correct the downlink data of the UE. Routed to the corresponding base station, the base station carries the downlink data to the UE by using a paging message, thereby avoiding the paging message of the downlink data carried by multiple base stations in the existing mechanism without determining the specific location of the UE. The problem that the UE sends a large amount of resource overhead caused by paging.
其中,第一上行数据可以由基站根据所述基站接收到所述UE发送的第二上行数据生成,所述第二上行数据包含所述UE标识, 可以为UE移动到基站的覆盖范围内(如:从第二基站的覆盖范围移动到所述第一基站覆盖范围)时主动向所述基站上报的数据;还可以在UE被基站成功寻呼后上报至基站,具体实现如下:The first uplink data may be generated by the base station according to the second uplink data that is sent by the base station by the base station, where the second uplink data includes the UE identifier. The data that is actively reported to the base station when the UE moves to the coverage of the base station (eg, when moving from the coverage of the second base station to the coverage of the first base station); and may also be after the UE is successfully paged by the base station Reported to the base station, the specific implementation is as follows:
所述接收单元302,还用于在所述发送单元301向第一MTC GW发送第一上行数据之前,接收所述第一MTC GW发送的第二paging消息;所述第二paging消息包含:所述UE标识;The receiving unit 302 is further configured to: before the transmitting unit 301 sends the first uplink data to the first MTC GW, receive the second paging message sent by the first MTC GW; the second paging message includes: Said UE identity;
所述发送单元301,还用于在所述第一基站覆盖范围内向与所述UE标识对应的UE发送第三paging消息;The sending unit 301 is further configured to send a third paging message to the UE corresponding to the UE identifier in the coverage of the first base station;
所述接收单元302,还用于接收所述UE返回的第二上行数据;所述第二上行数据用于通知所述基站所述UE被寻呼到,所述第二上行数据包含:所述UE标识和所述第一MTC GW的标识;The receiving unit 302 is further configured to receive second uplink data returned by the UE, where the second uplink data is used to notify the base station that the UE is paged, and the second uplink data includes: a UE identifier and an identifier of the first MTC GW;
所述发送单元301,具体用于根据所述第一MTC GW的标识向所述第一MTC GW发送第一上行数据。The sending unit 301 is specifically configured to send the first uplink data to the first MTC GW according to the identifier of the first MTC GW.
由于,在UE移动到某个基站的覆盖范围内(如:从第二基站的覆盖范围移动到所述第一基站覆盖范围)时,第二上行数据为UE主动向所述基站上报的数据,此时若UE为非法用户,则会给后续的数据传输带来不必要的麻烦,因此,为了保证后续数据传输的安全性,还需要通过基站或第一MTC GW来验证UE的合法性,具体实现如下:The second uplink data is the data that the UE actively reports to the base station, when the UE moves to the coverage of the certain base station (eg, the coverage from the coverage of the second base station to the coverage of the first base station). If the UE is an illegal user, it will bring unnecessary trouble to the subsequent data transmission. Therefore, in order to ensure the security of the subsequent data transmission, the base station or the first MTC GW is required to verify the validity of the UE. The implementation is as follows:
所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识;The second uplink data further includes: an identifier of the second MTC GW and a MAC; the first uplink data further includes: the MAC and an identifier of the second MTC GW;
所述发送单元301,具体用于根据所述第一MTC GW标识向所述第一MTC GW发送所述第一上行数据,所述第一上行数据用于所述第一MTC GW根据所述MAC确定所述UE为合法UE。The sending unit 301 is specifically configured to send the first uplink data to the first MTC GW according to the first MTC GW identifier, where the first uplink data is used by the first MTC GW according to the MAC Determining that the UE is a legal UE.
或者,所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识,所述第二MTC GW的标识用于所述第一MTC GW从所述第二MTC GW处获得所述UE的密钥信息,并根据所述UE的密钥 信息和所述MAC确定所述UE为合法UE。Or the second uplink data further includes: an identifier of the second MTC GW and the MAC; the first uplink data further includes: the identifier of the MAC and the second MTC GW, and the identifier of the second MTC GW Obtaining, by the first MTC GW, key information of the UE from the second MTC GW, and according to the key of the UE The information and the MAC determine that the UE is a legitimate UE.
或者,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述第一上行数据还包含:所述第二基站的标识;Or the second uplink data further includes: an identifier of the second base station and a MAC; the first uplink data further includes: an identifier of the second base station;
所述发送单元301,具体用于在所述接收单元302接收所述UE发送的第二上行数据之后,根据所述第二基站的标识向所述第二基站发送请求消息;所述请求消息包含所述UE的标识,所述请求消息用于请求所述第二基站根据所述UE的标识查询所述第二基站中存储的与所述UE对应的密钥信息;The sending unit 301 is specifically configured to: after the receiving unit 302 receives the second uplink data sent by the UE, send a request message to the second base station according to the identifier of the second base station; the request message includes The identifier of the UE, the request message is used to request the second base station to query, according to the identifier of the UE, key information corresponding to the UE stored in the second base station;
所述接收单元302,还用于接收所述第二基站发送的包含第一MTC GW的标识和所述UE的密钥信息的响应消息;The receiving unit 302 is further configured to receive, by the second base station, a response message that includes an identifier of the first MTC GW and key information of the UE;
所述基站还包括:校验单元303,The base station further includes: a check unit 303,
所述校验单元303,用于用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE;The checking unit 303 is configured to perform integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determine that the UE is a legal UE;
所述发送单元301,具体用于根据所述第一MTC GW的标识向所述第一MTC GW发送第一上行数据。The sending unit 301 is specifically configured to send the first uplink data to the first MTC GW according to the identifier of the first MTC GW.
或者,所述第二上行数据还包含:所述第二基站的标识以及MAC;Or the second uplink data further includes: an identifier of the second base station and a MAC;
所述发送单元301,还用于在所述接收单元302接收所述UE发送的第二上行数据之后,向所述第一MTC GW发送第一上行数据之前,根据所述第二基站的标识向所述第二基站发送请求消息以及向所述第二基站发送通知消息,通知所述第二基站释放所述第二基站内存储的所述UE的上下文信息;所述请求消息包含所述UE的标识,所述请求消息用于请求所述第二基站根据所述UE的标识查询所述第二基站中存储的与所述UE对应的密钥信息;The sending unit 301 is further configured to: after the receiving unit 302 receives the second uplink data sent by the UE, before sending the first uplink data to the first MTC GW, according to the identifier of the second base station Sending, by the second base station, a request message, and sending a notification message to the second base station, to notify the second base station to release context information of the UE stored in the second base station; the request message includes the UE And the requesting message is used to request the second base station to query, according to the identifier of the UE, key information corresponding to the UE stored in the second base station;
所述接收单元302,还用于接收所述第二基站发送的所述UE的密钥信息;The receiving unit 302 is further configured to receive key information of the UE sent by the second base station;
所述基站还包括:校验单元303;The base station further includes: a check unit 303;
所述校验单元303,用于用所述UE的密钥信息对所述MAC进 行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。The checking unit 303 is configured to use the key information of the UE to enter the MAC address. A line integrity check, if the integrity check is successful, determining that the UE is a legitimate UE.
如此,通过第一MTC GW或基站对UE合法性的验证,保证了后续数据传输的安全性。In this way, the verification of the legitimacy of the UE by the first MTC GW or the base station ensures the security of subsequent data transmission.
需要说明的是,本发明图7所示基站中的接收单元302、发送单元301可以为图4所示的基站10中的收发器2011;校验单元303可以为单独设立的处理器,也可以集成在基站的某一个处理器中实现,此外,也可以以程序代码的形式存储于基站的存储器中,由基站的某一个处理器调用并执行以上数据传输的功能。这里所述的处理器可以是一个中央处理器(Central Processing Unit,CPU),或者是特定集成电路(Application Specific Integrated Circuit,ASIC),或者是被配置成实施本发明实施例的一个或多个集成电路。It should be noted that the receiving unit 302 and the sending unit 301 in the base station shown in FIG. 7 of the present invention may be the transceiver 2011 in the base station 10 shown in FIG. 4; the checking unit 303 may be a separately set processor, or may be The integration is implemented in a processor of the base station. In addition, it may be stored in the memory of the base station in the form of program code, and the function of the above data transmission is invoked and executed by a certain processor of the base station. The processor described herein may be a Central Processing Unit (CPU), or an Application Specific Integrated Circuit (ASIC), or one or more integrated systems configured to implement embodiments of the present invention. Circuit.
由上可知,本发明实施例提供一种基站,向第一MTC GW发送包含UE标识的第一上行数据,以使得第一MTC GW根据所述第一上行数据中的UE标识,确定所述UE处于所述基站的覆盖范围内,将接收到的UE的下行数据发送至基站,基站将所述UE的下行数据包含在第一寻呼paging消息中向所述UE发起寻呼。如此,可以通过基站发送的携带有UE标识的上行数据,使MTC GW准确获知UE处于该基站的覆盖范围内,当有UE下行数据时,MTC GW可以将该UE的下行数据正确路由到该基站上,由该基站通过paging消息将该下行数据携带给UE,从而避免了现有机制中在不确定UE的具体位置的情况下,由多个基站携带下行数据的paging消息向UE发起寻呼所带来的大量资源开销的问题。As can be seen from the above, the embodiment of the present invention provides a base station, where the first uplink data including the UE identifier is sent to the first MTC GW, so that the first MTC GW determines the UE according to the UE identifier in the first uplink data. The downlink data of the received UE is sent to the base station, and the base station includes the downlink data of the UE in the first paging paging message to initiate paging to the UE. In this way, the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station. When there is downlink data of the UE, the MTC GW can correctly route the downlink data of the UE to the base station. The downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is initiated to the paging station in the existing mechanism. The problem of a lot of resource overhead.
实施例四Embodiment 4
图8为本发明实施例提供的一种数据传输系统的结构图,如图8所示,所述数据传输系统可以包含:MTC GW30、基站40以及UE。FIG. 8 is a structural diagram of a data transmission system according to an embodiment of the present invention. As shown in FIG. 8, the data transmission system may include: an MTC GW 30, a base station 40, and a UE.
其中,MTC GW30和实施例二所述的MTC GW30的功能相同,基站40和实施例三所述的基站40的功能相同,在此不再一一赘述。The functions of the MTC GW 30 and the MTC GW 30 described in the second embodiment are the same, and the functions of the base station 40 and the base station 40 described in the third embodiment are the same, and will not be further described herein.
由上可知,本发明实施例提供一种数据传输系统,第一MTC GW 接收基站发送的包含UE标识的第一上行数据,并根据所述第一上行数据中的UE标识,确定所述UE处于所述基站的覆盖范围内,将接收到的UE的下行数据发送至第一eNB基站,基站将所述UE的下行数据包含在第一寻呼paging消息中向所述UE发起寻呼。如此,可以通过基站发送的携带有UE标识的上行数据,使MTC GW准确获知UE处于该基站的覆盖范围内,当有UE下行数据时,MTC GW可以将该UE的下行数据正确路由到该基站上,由该基站通过paging消息将该下行数据携带给UE,从而避免了现有机制中在不确定UE的具体位置的情况下,由多个基站携带下行数据的paging消息向UE发起寻呼所带来的大量资源开销的问题。As can be seen from the above, an embodiment of the present invention provides a data transmission system, a first MTC GW. Receiving, by the base station, the first uplink data that includes the identifier of the UE, and determining, according to the UE identifier in the first uplink data, that the UE is in the coverage of the base station, and sending the downlink data of the received UE to the first An eNB base station, the base station includes the downlink data of the UE in a first paging paging message to initiate paging to the UE. In this way, the uplink data carried by the base station and carrying the UE identifier can be used to make the MTC GW accurately know that the UE is in the coverage of the base station. When there is downlink data of the UE, the MTC GW can correctly route the downlink data of the UE to the base station. The downlink data is carried by the base station to the UE by using the paging message, so that the paging message sent by the multiple base stations to carry the downlink data is initiated to the paging station in the existing mechanism. The problem of a lot of resource overhead.
所属领域的技术人员可以清楚地了解到,为描述的方便和简洁,上述描述的单元和系统的具体工作过程,可以参考前述方法实施例中的对应过程,在此不再赘述。A person skilled in the art can clearly understand that, for the convenience and brevity of the description, the specific working process of the above-mentioned unit and system can refer to the corresponding process in the foregoing method embodiments, and details are not described herein again.
在本申请所提供的几个实施例中,应该理解到,所揭露的系统,设备和方法,可以通过其它的方式实现。例如,以上所描述的设备实施例仅仅是示意性的,例如,所述单元的划分,仅仅为一种逻辑功能划分,实际实现时可以有另外的划分方式,例如多个单元或组件可以结合或者可以集成到另一个系统,或一些特征可以忽略,或不执行。In the several embodiments provided by the present application, it should be understood that the disclosed systems, devices, and methods may be implemented in other manners. For example, the device embodiments described above are merely illustrative. For example, the division of the unit is only a logical function division. In actual implementation, there may be another division manner, for example, multiple units or components may be combined or Can be integrated into another system, or some features can be ignored or not executed.
所述作为分离部件说明的单元可以是或者也可以不是物理上分开的,作为单元显示的部件可以是或者也可以不是物理单元,即可以位于一个地方,或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部单元来实现本实施例方案的目的。The units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the embodiment.
另外,在本发明各个实施例中的各功能单元可以集成在一个处理单元中,也可以是各个单元单独物理包括,也可以两个或两个以上单元集成在一个单元中。上述集成的单元既可以采用硬件的形式实现,也可以采用硬件加软件功能单元的形式实现。In addition, each functional unit in each embodiment of the present invention may be integrated into one processing unit, or each unit may be physically included separately, or two or more units may be integrated into one unit. The above integrated unit can be implemented in the form of hardware or in the form of hardware plus software functional units.
上述以软件功能单元的形式实现的集成的单元,可以存储在一 个计算机可读取存储介质中。上述软件功能单元存储在一个存储介质中,包括若干指令用以使得一台计算机设备(可以是个人计算机,服务器,或者网络设备等)执行本发明各个实施例所述方法的部分步骤。而前述的存储介质包括:U盘、移动硬盘、只读存储器(Read-Only Memory,简称ROM)、随机存取存储器(Random Access Memory,简称RAM)、磁碟或者光盘等各种可以存储程序代码的介质。The above integrated unit implemented in the form of a software functional unit can be stored in a Computers can be read from the storage medium. The software functional units described above are stored in a storage medium and include instructions for causing a computer device (which may be a personal computer, server, or network device, etc.) to perform portions of the steps of the methods described in various embodiments of the present invention. The foregoing storage medium includes: a U disk, a mobile hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk, and the like, and the program code can be stored. Medium.
本领域普通技术人员可以理解上述实施例的各种方法中的全部或部分步骤是可以通过程序来指令相关的硬件(例如处理器)来完成,该程序可以存储于一计算机可读存储介质中,存储介质可以包括:只读存储器、随机存储器、磁盘或光盘等。A person of ordinary skill in the art may understand that all or part of the steps of the foregoing embodiments may be completed by a program to instruct related hardware (for example, a processor), and the program may be stored in a computer readable storage medium. The storage medium may include a read only memory, a random access memory, a magnetic disk or an optical disk, or the like.
最后应说明的是:以上实施例仅用以说明本发明的技术方案,而非对其限制;尽管参照前述实施例对本发明进行了详细的说明,本领域的普通技术人员应当理解:其依然可以对前述各实施例所记载的技术方案进行修改,或者对其中部分技术特征进行等同替换;而这些修改或者替换,并不使相应技术方案的本质脱离本发明各实施例技术方案的精神和范围。 It should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention, and are not limited thereto; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that The technical solutions described in the foregoing embodiments are modified, or the equivalents of the technical features are replaced. The modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (28)

  1. 一种数据传输方法,应用于第一机器类型通信网关MTC GW;其特征在于,所述方法包括:A data transmission method is applied to a first machine type communication gateway MTC GW; and the method includes:
    接收第一基站发送的第一上行数据;所述第一上行数据包含用户设备UE标识;Receiving, by the first base station, the first uplink data, where the first uplink data includes a user equipment UE identifier;
    根据所述UE标识,确定所述UE处于所述第一基站的覆盖范围内,其中,所述UE与所述第一基站未建立无线资源控制RRC连接;Determining, according to the identifier of the UE, that the UE is in a coverage of the first base station, where the UE does not establish a radio resource control RRC connection with the first base station;
    通过向所述第一基站发送所述UE的下行数据,触发所述第一基站向所述UE发送第一寻呼paging消息,所述第一paging消息中包含所述UE的下行数据。The first base station is configured to send a first paging paging message to the UE by sending the downlink data of the UE to the first base station, where the first paging message includes downlink data of the UE.
  2. 根据权利要求1所述的数据传输方法,其特征在于,在接收第一基站发送的第一上行数据之前,所述方法还包括:The data transmission method according to claim 1, wherein before receiving the first uplink data sent by the first base station, the method further includes:
    接收服务网关发送的所述UE的下行数据;Receiving downlink data of the UE sent by the serving gateway;
    向与所述第一MTC GW相连接的所有基站发送第二Paging消息,所述第二Paging消息中包含所述UE标识;其中,所述第二paging消息用于所述所有基站中的每个基站在收到第二paging消息后,每个基站在其覆盖范围内通过第三paging消息寻呼所述UE;所述所有基站包含所述第一基站;Transmitting, to the base station that is connected to the first MTC GW, a second Paging message, where the second Paging message includes the UE identifier, where the second paging message is used for each of the all base stations After receiving the second paging message, each base station pages the UE by using a third paging message within its coverage; the all base stations include the first base station;
    所述接收第一基站发送的第一上行数据包括:The receiving, by the first base station, the first uplink data includes:
    接收所述第一基站根据所述第一MTC GW的标识,向所述第一MTC GW发送的所述第一上行数据;Receiving, by the first base station, the first uplink data that is sent to the first MTC GW according to the identifier of the first MTC GW;
    其中,所述第一上行数据由所述第一基站根据接收到的所述UE发送的第二上行数据生成,所述第二上行数据用于通知所述第一基站所述UE被寻呼到;所述第二上行数据包含:所述UE标识和所述第一MTC GW的标识。The first uplink data is generated by the first base station according to the received second uplink data sent by the UE, and the second uplink data is used to notify the first base station that the UE is paged to The second uplink data includes: the UE identifier and an identifier of the first MTC GW.
  3. 根据权利要求1所述的数据传输方法,其特征在于,所述第一上行数据由所述第一基站根据接收到的所述UE发送的第二上行数据生成;所述第二上行数据用于通知所述第一基站所述UE从第二基站的覆盖范围移动到所述第一基站的覆盖范围;所述第二上行数据包 含:所述UE标识。The data transmission method according to claim 1, wherein the first uplink data is generated by the first base station according to the received second uplink data sent by the UE; the second uplink data is used by Notifying the first base station that the UE moves from the coverage of the second base station to the coverage of the first base station; the second uplink data packet Including: the UE identifier.
  4. 根据权利要求3所述的数据传输方法,其特征在于,所述第二上行数据还包含:第一MTC GW的标识以及消息认证码MAC;所述第一上行数据还包含:所述MAC;所述接收所述第一基站发送的第一上行数据包括:The data transmission method according to claim 3, wherein the second uplink data further comprises: an identifier of the first MTC GW and a message authentication code MAC; the first uplink data further includes: the MAC; Receiving the first uplink data sent by the first base station includes:
    接收所述第一基站根据所述第一MTC GW标识发送的第一上行数据;Receiving, by the first base station, first uplink data that is sent according to the first MTC GW identifier;
    在根据所述第一上行数据中的UE标识,确定所述UE处于所述第一基站的覆盖范围内之前,所述方法还包括:And before determining that the UE is in the coverage of the first base station, according to the UE identifier in the first uplink data, the method further includes:
    在所述第一MTC GW上查找与所述UE标识相对应的UE的密钥信息;Searching, on the first MTC GW, key information of a UE corresponding to the UE identifier;
    用所述UE的密钥信息对所述MAC进行完整性校验;Performing an integrity check on the MAC by using key information of the UE;
    如果所述完整性校验成功,则确定所述UE为合法UE。If the integrity check is successful, it is determined that the UE is a legitimate UE.
  5. 根据权利要求3所述的数据传输方法,其特征在于,所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识;The data transmission method according to claim 3, wherein the second uplink data further includes: an identifier of the second MTC GW and a MAC; the first uplink data further includes: the MAC and the second The identity of the MTC GW;
    在根据所述第一上行数据中的UE标识,确定所述UE处于所述第一基站的覆盖范围内之前,所述方法还包括:And before determining that the UE is in the coverage of the first base station, according to the UE identifier in the first uplink data, the method further includes:
    根据所述第二MTC GW的标识向所述第二MTC GW发送请求消息;所述请求消息包含所述UE标识,所述请求消息用于请求在所述第二MTC GW上查找与所述UE标识相对应的UE的密钥信息;Sending a request message to the second MTC GW according to the identifier of the second MTC GW; the request message includes the UE identifier, and the request message is used to request to search for the UE on the second MTC GW Identifying key information of the corresponding UE;
    接收所述第二MTC GW发送的所述UE的密钥信息;Receiving key information of the UE sent by the second MTC GW;
    用所述UE的密钥信息对所述MAC进行完整性校验;Performing an integrity check on the MAC by using key information of the UE;
    如果所述完整性校验成功,则确定所述UE为合法UE。If the integrity check is successful, it is determined that the UE is a legitimate UE.
  6. 根据权利要求3所述的数据传输方法,其特征在于,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述第一上行数据还包含:所述第二基站的标识,所述MAC用于使所述第一基站确定所述UE是否为合法UE;所述接收所述第一基站发送的第一上行数据包括: The data transmission method according to claim 3, wherein the second uplink data further comprises: an identifier of the second base station and a MAC; the first uplink data further includes: an identifier of the second base station The MAC is configured to enable the first base station to determine whether the UE is a valid UE, and the receiving the first uplink data sent by the first base station includes:
    接收所述第一基站在确认所述UE为合法UE后根据所述第一MTC GW的标识发送的第一上行数据;所述第一MTC GW的标识为:所述第一基站从所述第二基站处获取得到。Receiving, by the first base station, first uplink data that is sent according to the identifier of the first MTC GW after confirming that the UE is a legal UE; the identifier of the first MTC GW is: the first base station from the first Obtained at the second base station.
  7. 根据权利要求3所述的数据传输方法,其特征在于,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述MAC用于使所述第一基站确定所述UE是否为合法UE,所述接收所述第一基站发送的第一上行数据包括:The data transmission method according to claim 3, wherein the second uplink data further comprises: an identifier of the second base station and a MAC; the MAC is used to enable the first base station to determine whether the UE is The first uplink data sent by the first base station is:
    接收所述第一基站在确认所述UE为合法UE后向所述第一MTC GW发送的第一上行数据。Receiving, by the first base station, first uplink data that is sent to the first MTC GW after confirming that the UE is a legal UE.
  8. 一种数据传输方法,应用于第一基站;其特征在于,所述方法包括:A data transmission method is applied to a first base station; and the method includes:
    向第一机器类型通信网关MTC GW发送第一上行数据,所述第一上行数据用于所述第一MTC GW根据所述第一上行数据中的用户设备UE标识,确定UE处于所述第一基站的覆盖范围内;其中,所述第一上行数据包含:所述UE标识;所述UE与所述第一基站未建立无线资源控制RRC连接;Sending the first uplink data to the first machine type communication gateway MTC GW, where the first uplink data is used by the first MTC GW to determine, according to the user equipment UE identifier in the first uplink data, that the UE is in the first The coverage of the base station, where the first uplink data includes: the UE identifier; the UE and the first base station do not establish a radio resource control RRC connection;
    接收所述第一MTC GW发送的所述UE的下行数据;Receiving downlink data of the UE sent by the first MTC GW;
    向所述UE发送第一寻呼paging消息,所述第一paging消息中包含所述UE的下行数据。Sending a first paging paging message to the UE, where the first paging message includes downlink data of the UE.
  9. 根据权利要求8所述的数据传输方法,其特征在于,在向第一机器类型通信网关MTC GW发送第一上行数据之前,所述方法还包括:The data transmission method according to claim 8, wherein the method further comprises: before transmitting the first uplink data to the first machine type communication gateway MTC GW, the method further comprising:
    接收所述第一MTC GW发送的第二paging消息;所述第二paging消息包含所述UE标识;Receiving a second paging message sent by the first MTC GW; the second paging message includes the UE identifier;
    在所述第一基站覆盖范围内通过第三paging消息寻呼所述UE;Paging the UE by using a third paging message within the coverage of the first base station;
    接收所述UE返回的第二上行数据;所述第二上行数据用于通知所述第一基站所述UE被寻呼到;所述第二上行数据包含:所述UE标识和所述第一MTC GW的标识;Receiving, by the UE, the second uplink data that is returned by the UE; the second uplink data is used to notify the first base station that the UE is paged; and the second uplink data includes: the UE identifier and the first The identity of the MTC GW;
    所述向第一机器类型通信网关MTC GW发送第一上行数据包 括:Sending the first uplink data packet to the first machine type communication gateway MTC GW include:
    根据所述第一MTC GW的标识向所述第一MTC GW发送第一上行数据。And transmitting first uplink data to the first MTC GW according to the identifier of the first MTC GW.
  10. 根据权利要求8所述的数据传输方法,其特征在于,在向第一机器类型通信网关MTC GW发送第一上行数据之前,所述方法还包括:The data transmission method according to claim 8, wherein the method further comprises: before transmitting the first uplink data to the first machine type communication gateway MTC GW, the method further comprising:
    接收所述UE发送的第二上行数据;其中,所述第二上行数据用于所述第一基站所述UE从第二基站的覆盖范围移动到所述第一基站的覆盖范围;所述第二上行数据包含:所述UE标识。Receiving, by the second uplink data, sent by the UE, where the second uplink data is used by the first base station to move the coverage of the UE from the coverage of the second base station to the coverage of the first base station; The two uplink data includes: the UE identifier.
  11. 根据权利要求10所述的数据传输方法,其特征在于,所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识;所述向第一机器类型通信网关MTC GW发送第一上行数据包括:The data transmission method according to claim 10, wherein the second uplink data further comprises: an identifier of the second MTC GW and a MAC; the first uplink data further includes: the MAC and the second The identifier of the MTC GW; the sending the first uplink data to the first machine type communication gateway MTC GW includes:
    根据所述第一MTC GW标识向所述第一MTC GW发送所述第一上行数据,所述第一上行数据用于所述第一MTC GW根据所述MAC确定所述UE为合法UE。And sending, by the first MTC GW, the first uplink data to the first MTC GW, where the first uplink data is used by the first MTC GW to determine, according to the MAC, that the UE is a legal UE.
  12. 根据权利要求10所述的数据传输方法,其特征在于,所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识,所述第一上行数据用于所述第一MTC GW从所述第二MTC GW处获得所述UE的密钥信息,并根据所述UE的密钥信息和所述MAC确定所述UE为合法UE。The data transmission method according to claim 10, wherein the second uplink data further comprises: an identifier of the second MTC GW and a MAC; the first uplink data further includes: the MAC and the second An identifier of the MTC GW, where the first uplink data is used by the first MTC GW to obtain key information of the UE from the second MTC GW, and is determined according to the key information of the UE and the MAC The UE is a legal UE.
  13. 根据权利要求10所述的数据传输方法,其特征在于,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述第一上行数据还包含:所述第二基站的标识;在接收所述UE发送的第二上行数据之后,向所述第一MTC GW发送第一上行数据之前,所述方法还包括:The data transmission method according to claim 10, wherein the second uplink data further comprises: an identifier of the second base station and a MAC; the first uplink data further includes: an identifier of the second base station After receiving the second uplink data sent by the UE, before sending the first uplink data to the first MTC GW, the method further includes:
    根据所述第二基站的标识向所述第二基站发送请求消息;所述请求消息包含所述UE标识,所述请求消息用于请求所述第二基站根据 所述UE标识查询所述第二基站中存储的与所述UE对应的密钥信息;Sending a request message to the second base station according to the identifier of the second base station; the request message includes the UE identifier, and the request message is used to request the second base station to The UE identifier queries the key information corresponding to the UE stored in the second base station;
    接收所述第二基站发送的所述UE的密钥信息;Receiving key information of the UE sent by the second base station;
    用所述UE的密钥信息对所述MAC进行完整性校验;Performing an integrity check on the MAC by using key information of the UE;
    如果所述完整性校验成功,则确定所述UE为合法UE。If the integrity check is successful, it is determined that the UE is a legitimate UE.
  14. 根据权利要求10所述的数据传输方法,其特征在于,所述第二上行数据还包含:所述第二基站的标识以及MAC;在接收所述UE发送的第二上行数据之后,向所述第一MTC GW发送第一上行数据之前,所述方法还包括:The data transmission method according to claim 10, wherein the second uplink data further comprises: an identifier of the second base station and a MAC; after receiving the second uplink data sent by the UE, Before the first MTC GW sends the first uplink data, the method further includes:
    根据所述第二基站的标识向所述第二基站发送请求消息、以及向所述第二基站发送通知消息,通知所述第二基站释放所述第二基站内存储的所述UE的上下文信息;所述请求消息包含所述UE标识,所述请求消息用于请求所述第二基站根据所述UE标识查询所述第二基站中存储的与所述UE对应的密钥信息;Sending a request message to the second base station according to the identifier of the second base station, and sending a notification message to the second base station, informing the second base station to release the context information of the UE stored in the second base station The request message includes the UE identifier, and the request message is used to request the second base station to query, according to the UE identifier, key information corresponding to the UE stored in the second base station;
    接收所述第二基站发送的所述UE的密钥信息;Receiving key information of the UE sent by the second base station;
    用所述UE的密钥信息对所述MAC进行完整性校验;Performing an integrity check on the MAC by using key information of the UE;
    如果所述完整性校验成功,则确定所述UE为合法UE。If the integrity check is successful, it is determined that the UE is a legitimate UE.
  15. 一种机器类型通信网关MTC GW,其特征在于,所述MTC GW包括:A machine type communication gateway MTC GW, characterized in that the MTC GW comprises:
    接收单元,用于接收第一基站发送的第一上行数据;所述第一上行数据包含用户设备UE标识;a receiving unit, configured to receive first uplink data sent by the first base station, where the first uplink data includes a user equipment UE identifier;
    确定单元,用于根据所述接收单元接收到的第一上行数据中的UE标识,确定所述UE处于所述第一基站的覆盖范围内,其中,所述UE与所述第一基站未建立无线资源控制RRC连接;a determining unit, configured to determine, according to the UE identifier in the first uplink data that is received by the receiving unit, that the UE is in a coverage range of the first base station, where the UE is not established with the first base station Radio resource control RRC connection;
    发送单元,用于在所述确定单元确定所述UE处于所述第一基站的覆盖范围后,通过向所述第一基站发送所述UE的下行数据,触发所述第一基站向所述UE发送第一寻呼paging消息,所述第一paging消息中包含所述UE的下行数据。a sending unit, configured to: after the determining unit determines that the UE is in the coverage of the first base station, trigger the first base station to send to the UE by sending downlink data of the UE to the first base station Sending a first paging paging message, where the first paging message includes downlink data of the UE.
  16. 根据权利要求15所述的MTC GW,其特征在于,The MTC GW according to claim 15, wherein
    所述接收单元,还用于在接收第一基站基站发送的第一上行数据 之前,接收服务网关发送的所述UE的下行数据;The receiving unit is further configured to receive the first uplink data sent by the first base station base station Previously, receiving downlink data of the UE sent by the serving gateway;
    所述发送单元,还用于向与所述MTC GW相连接的所有基站发送第二paging消息,所述第二paging消息中包含所述UE标识;所述第二paging消息用于所述所有基站中的每个基站在收到第二paging消息后,每个基站在其覆盖范围内通过第三paging消息寻呼所述UE;所述所有基站包含所述第一基站;The sending unit is further configured to send a second paging message to all base stations connected to the MTC GW, where the second paging message includes the UE identifier; and the second paging message is used by all the base stations After receiving the second paging message, each base station in each of the base stations pages the UE by using a third paging message within its coverage; the all base stations include the first base station;
    所述接收单元,具体用于接收所述第一基站根据所述MTC GW的标识,向所述MTC GW发送的所述第一上行数据;The receiving unit is specifically configured to receive, by the first base station, the first uplink data that is sent by the first base station to the MTC GW according to the identifier of the MTC GW;
    其中,所述第一上行数据由所述第一基站根据接收到的所述UE发送的第二上行数据生成,所述第二上行数据用于通知所述第一基站所述UE被寻呼到;所述第二上行数据包含:所述UE标识和所述MTC GW的标识。The first uplink data is generated by the first base station according to the received second uplink data sent by the UE, and the second uplink data is used to notify the first base station that the UE is paged to The second uplink data includes: the UE identifier and an identifier of the MTC GW.
  17. 根据权利要求15所述的MTC GW,其特征在于,所述第一上行数据由所述第一基站根据接收到的所述UE发送的第二上行数据生成,所述第二上行数据用于通知所述第一基站所述UE从第二基站的覆盖范围移动到所述第一基站覆盖范围,所述第二上行数据包含:所述UE标识。The MTC GW according to claim 15, wherein the first uplink data is generated by the first base station according to the received second uplink data sent by the UE, and the second uplink data is used for notification. The first base station, the UE moves from the coverage of the second base station to the coverage of the first base station, and the second uplink data includes: the UE identifier.
  18. 根据权利要求17所述的MTC GW,其特征在于,所述第二上行数据还包含:所述MTC GW的标识以及消息认证码MAC;所述第一上行数据还包含:所述MAC;The MTC GW according to claim 17, wherein the second uplink data further includes: an identifier of the MTC GW and a message authentication code MAC; the first uplink data further includes: the MAC;
    所述接收单元,具体用于接收所述第一基站根据所述MTC GW标识发送的第一上行数据;The receiving unit is specifically configured to receive first uplink data that is sent by the first base station according to the MTC GW identifier;
    所述MTC GW还包括校验单元,The MTC GW further includes a check unit,
    所述校验单元,用于在确定单元确定所述UE在第一基站的覆盖范围内之前,在所述MTC GW上查找与所述UE标识相对应的UE的密钥信息;The checking unit is configured to search, on the MTC GW, key information of the UE corresponding to the UE identifier, before the determining unit determines that the UE is within the coverage of the first base station;
    用所述UE的密钥信息对所述MAC进行完整性校验;Performing an integrity check on the MAC by using key information of the UE;
    如果所述完整性校验成功,则确定所述UE为合法UE。If the integrity check is successful, it is determined that the UE is a legitimate UE.
  19. 根据权利要求17所述的MTC GW,其特征在于,所述第二 上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识;The MTC GW according to claim 17, wherein said second The uplink data further includes: an identifier of the second MTC GW and the MAC; the first uplink data further includes: the identifier of the MAC and the second MTC GW;
    所述发送单元,还用于在确定单元确定所述UE在第一基站的覆盖范围内之前,根据所述第二MTC GW的标识向所述第二MTC GW发送请求消息;所述请求消息包含所述UE标识,所述请求消息用于请求在所述第二MTC GW上查找与所述UE标识相对应的UE的密钥信息;The sending unit is further configured to: before the determining unit determines that the UE is within the coverage of the first base station, send a request message to the second MTC GW according to the identifier of the second MTC GW; the request message includes The UE identifier, the request message is used to request to search for the key information of the UE corresponding to the UE identifier on the second MTC GW;
    所述接收单元,还用于接收所述第二MTC GW发送的所述UE的密钥信息;The receiving unit is further configured to receive key information of the UE that is sent by the second MTC GW;
    所述MTC GW还包括:校验单元,The MTC GW further includes: a check unit,
    所述校验单元,用于用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。The check unit is configured to perform integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determine that the UE is a legal UE.
  20. 根据权利要求17所述的MTC GW,其特征在于,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述第一上行数据还包含:所述第二基站的标识,所述MAC用于使所述第一基站确定所述UE是否为合法UE;The MTC GW according to claim 17, wherein the second uplink data further includes: an identifier of the second base station and a MAC; the first uplink data further includes: an identifier of the second base station, The MAC is configured to enable the first base station to determine whether the UE is a legal UE;
    所述接收单元,具体用于接收所述第一基站在确认所述UE为合法UE后根据所述MTC GW的标识发送的第一上行数据;所述MTC GW的标识为:所述第一基站从所述第二基站处获取得到。The receiving unit is configured to receive, by the first base station, first uplink data that is sent according to the identifier of the MTC GW after confirming that the UE is a valid UE; the identifier of the MTC GW is: the first base station Obtained from the second base station.
  21. 根据权利要求17所述的MTC GW,其特征在于,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述MAC用于使所述第一基站确定所述UE是否为合法UE,The MTC GW according to claim 17, wherein the second uplink data further includes: an identifier of the second base station and a MAC; the MAC is configured to enable the first base station to determine whether the UE is Legal UE,
    所述接收单元,具体用于接收所述第一基站在确认所述UE为合法UE后向所述MTC GW发送的第一上行数据。The receiving unit is specifically configured to receive, by the first base station, first uplink data that is sent by the first base station to the MTC GW after confirming that the UE is a legal UE.
  22. 一种基站,其特征在于,所述基站包括:A base station, the base station includes:
    发送单元,用于向第一机器类型通信网关MTC GW发送第一上行数据,所述第一上行数据用于所述第一MTC GW根据所述第一上行数据中的用户设备UE标识,确定UE处于所述第一基站的覆盖范围内,其中,所述第一上行数据包含:所述UE标识;所述UE与所 述基站未建立无线资源控制RRC连接;a sending unit, configured to send first uplink data to the first machine type communication gateway MTC GW, where the first uplink data is used by the first MTC GW to determine a UE according to the user equipment UE identifier in the first uplink data In the coverage of the first base station, where the first uplink data includes: the UE identifier; the UE and the The base station does not establish a radio resource control RRC connection;
    接收单元,用于接收所述第一MTC GW发送的所述UE的下行数据;a receiving unit, configured to receive downlink data of the UE sent by the first MTC GW;
    所述发送单元,还用于向所述UE发送第一寻呼paging消息,所述第一paging消息中包含所述UE的下行数据。The sending unit is further configured to send a first paging paging message to the UE, where the first paging message includes downlink data of the UE.
  23. 根据权利要求22所述的基站,其特征在于,The base station according to claim 22, characterized in that
    所述接收单元,还用于在所述发送单元向第一MTC GW发送第一上行数据之前,接收所述第一MTC GW发送的第二paging消息;所述第二paging消息包含:所述UE标识;The receiving unit is further configured to: before the transmitting unit sends the first uplink data to the first MTC GW, receive a second paging message sent by the first MTC GW; the second paging message includes: the UE Identification
    所述发送单元,还用于在所述第一基站覆盖范围内通过第三paging消息寻呼所述UE;The sending unit is further configured to page the UE by using a third paging message within the coverage of the first base station;
    所述接收单元,还用于接收所述UE返回的第二上行数据;所述第二上行数据用于通知所述第一基站所述UE被寻呼到;所述第二上行数据包含:所述UE标识和所述第一MTC GW的标识;The receiving unit is further configured to receive second uplink data returned by the UE; the second uplink data is used to notify the first base station that the UE is paged; and the second uplink data includes: Describe the UE identifier and the identifier of the first MTC GW;
    所述发送单元,具体用于根据所述第一MTC GW的标识向所述第一MTC GW发送第一上行数据。The sending unit is specifically configured to send the first uplink data to the first MTC GW according to the identifier of the first MTC GW.
  24. 根据权利要求23所述的基站,其特征在于,The base station according to claim 23, characterized in that
    所述接收单元,还用于在所述发送单元向第一机器类型通信网关MTC GW发送第一上行数据之前,接收所述UE发送的第二上行数据;The receiving unit is further configured to: before the sending unit sends the first uplink data to the first machine type communication gateway MTC GW, receive the second uplink data sent by the UE;
    其中,所述第二上行数据用于通知所述第一基站所述UE从第二基站的覆盖范围移动到所述第一基站覆盖范围,所述第二上行数据包含:所述UE标识。The second uplink data is used to notify the first base station that the UE moves from the coverage of the second base station to the coverage of the first base station, and the second uplink data includes: the UE identifier.
  25. 根据权利要求24所述的基站,其特征在于,所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识;The base station according to claim 24, wherein the second uplink data further includes: an identifier of the second MTC GW and a MAC; the first uplink data further includes: the MAC and the second MTC GW Identification
    所述发送单元,具体用于根据所述第一MTC GW标识向所述第一MTC GW发送所述第一上行数据,所述第一上行数据用于所述第一MTC GW根据所述MAC确定所述UE为合法UE。The sending unit is configured to send the first uplink data to the first MTC GW according to the first MTC GW identifier, where the first uplink data is used by the first MTC GW to determine according to the MAC The UE is a legal UE.
  26. 根据权利要求24所述的基站,其特征在于, The base station according to claim 24, characterized in that
    所述第二上行数据还包含:第二MTC GW的标识以及MAC;所述第一上行数据还包含:所述MAC以及所述第二MTC GW的标识,所述第一上行数据用于所述第一MTC GW从所述第二MTC GW处获得所述UE的密钥信息,并根据所述UE的密钥信息和所述MAC确定所述UE为合法UE。The second uplink data further includes: an identifier of the second MTC GW and the MAC; the first uplink data further includes: an identifier of the MAC and the second MTC GW, where the first uplink data is used by the The first MTC GW obtains key information of the UE from the second MTC GW, and determines that the UE is a legal UE according to the key information of the UE and the MAC.
  27. 根据权利要求24所述的基站,其特征在于,所述第二上行数据还包含:所述第二基站的标识以及MAC;所述第一上行数据还包含:所述第二基站的标识;The base station according to claim 24, wherein the second uplink data further includes: an identifier of the second base station and a MAC; the first uplink data further includes: an identifier of the second base station;
    所述发送单元,具体用于在所述接收单元接收所述UE发送的第二上行数据之后,根据所述第二基站的标识向所述第二基站发送请求消息;所述请求消息包含所述UE标识,所述请求消息用于请求所述第二基站根据所述UE标识查询所述第二基站中存储的与所述UE对应的密钥信息;The sending unit is configured to: after the receiving unit receives the second uplink data sent by the UE, send a request message to the second base station according to the identifier of the second base station; the request message includes the a UE identifier, where the request message is used to request the second base station to query, according to the UE identifier, key information corresponding to the UE stored in the second base station;
    所述接收单元,还用于接收所述第二基站发送的所述UE的密钥信息;The receiving unit is further configured to receive key information of the UE sent by the second base station;
    所述基站还包括:校验单元,The base station further includes: a verification unit,
    所述校验单元,用于用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。The check unit is configured to perform integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determine that the UE is a legal UE.
  28. 根据权利要求24所述的基站,其特征在于,所述第二上行数据还包含:所述第二基站的标识以及MAC;The base station according to claim 24, wherein the second uplink data further comprises: an identifier of the second base station and a MAC;
    所述发送单元,还用于在所述接收单元接收所述UE发送的第二上行数据之后,向所述第一MTC GW发送第一上行数据之前,根据所述第二基站的标识向所述第二基站发送请求消息以及向所述第二基站发送通知消息,通知所述第二基站释放所述第二基站内存储的所述UE的上下文信息;所述请求消息包含所述UE标识,所述请求消息用于请求所述第二基站根据所述UE标识查询所述第二基站中存储的与所述UE对应的密钥信息;The sending unit is further configured to: after the receiving unit receives the second uplink data sent by the UE, before sending the first uplink data to the first MTC GW, according to the identifier of the second base station, Transmitting, by the second base station, a request message, and sending a notification message to the second base station, to notify the second base station to release the context information of the UE stored in the second base station; the request message includes the UE identifier, where The request message is used to request the second base station to query, according to the UE identifier, key information corresponding to the UE stored in the second base station;
    所述接收单元,还用于接收所述第二基站发送的所述UE的密钥信息; The receiving unit is further configured to receive key information of the UE sent by the second base station;
    所述基站还包括:校验单元;The base station further includes: a check unit;
    所述校验单元,用于用所述UE的密钥信息对所述MAC进行完整性校验,如果所述完整性校验成功,则确定所述UE为合法UE。 The check unit is configured to perform integrity check on the MAC by using key information of the UE, and if the integrity check is successful, determine that the UE is a legal UE.
PCT/CN2016/075147 2016-03-01 2016-03-01 Data transmission method, device and system WO2017147779A1 (en)

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CN101198092A (en) * 2007-02-13 2008-06-11 华为技术有限公司 Method, system and device for transmitting data to user's set
CN102742337A (en) * 2010-11-02 2012-10-17 华为技术有限公司 Method, device and mobile terminal for data transmission
CN104396323A (en) * 2012-12-24 2015-03-04 华为技术有限公司 Paging processing method, device, and system
CN104823498A (en) * 2012-10-10 2015-08-05 Lg电子株式会社 Method for processing paging and method for relaying downlink data

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Publication number Priority date Publication date Assignee Title
CN101198092A (en) * 2007-02-13 2008-06-11 华为技术有限公司 Method, system and device for transmitting data to user's set
CN102742337A (en) * 2010-11-02 2012-10-17 华为技术有限公司 Method, device and mobile terminal for data transmission
CN104823498A (en) * 2012-10-10 2015-08-05 Lg电子株式会社 Method for processing paging and method for relaying downlink data
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