WO2018027947A1 - 一种数据处理方法以及相关设备 - Google Patents
一种数据处理方法以及相关设备 Download PDFInfo
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- WO2018027947A1 WO2018027947A1 PCT/CN2016/094983 CN2016094983W WO2018027947A1 WO 2018027947 A1 WO2018027947 A1 WO 2018027947A1 CN 2016094983 W CN2016094983 W CN 2016094983W WO 2018027947 A1 WO2018027947 A1 WO 2018027947A1
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- base station
- core network
- network device
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- downlink data
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Definitions
- the present application relates to the field of communications, and in particular, to a data processing method and related devices.
- LTE Long Term Evolution
- the NB-IoT does not include a packet data convergence protocol layer (English name: Packet Data Convergence Protocol, PDCP for short), the NB-IoT cannot transmit data on the control plane, thereby causing the terminal to access the target base station. After that, the terminal cannot completely receive the downlink data that was not completed before the handover.
- PDCP Packet Data Convergence Protocol
- the embodiment of the present application provides a data processing method and related equipment, which are used to effectively ensure that a terminal can completely receive downlink data that is not completely received before or before reselection after accessing the target base station, that is, effectively ensure that the terminal is downlinked. The data is not lost, thus ensuring the mobility of the terminal in the connected state.
- the embodiment of the present application provides a data processing method, including: a core network device acquiring a first indication message used to indicate that a terminal completes a cell change or the terminal completes cell reselection; and then the core network device sends the downlink data to the The terminal completes the cell change or completes the target base station connected after the cell reselection.
- the core network device after confirming that the terminal completes cell reselection or completes cell change, the core network device sends downlink data to the target base station, which can effectively ensure downlink data after cell change or cell reselection. It is not lost, and thus the continuity of the terminal in the mobile state is ensured.
- the core network device may perform data processing in the following manners to implement downlink data loss:
- the core network device saves the downlink data sent to the source base station and starts a first timer after the downlink data is saved, where the source base station completes the cell change or completes the cell reselection before the terminal completes the cell reselection.
- the connected base station; the core network device can obtain the first indication message within a timeout period of the first timer.
- the core network device saves the downlink data sent to the source base station, and after the terminal establishes a connection with the target base station, sends the saved downlink data to the target base station, thereby Effectively ensure that the downlink data is not lost, thereby ensuring the continuity of the terminal in the mobile state.
- the core network device After the first timer expires, the core network device still does not obtain the first indication message, and the core network device deletes the saved downlink data.
- the core network device deletes the saved downlink data when the first indication message is not obtained, which can effectively reduce the storage burden.
- the core network device receives the feedback information for indicating that the terminal receives the downlink data. If the feedback information indicates that the terminal has completely received the downlink data, the core network device deletes the downlink data. The information indicates that the terminal does not completely receive the downlink data, and triggers the core network device to send the downlink data to the target base station.
- the core network device performs a specific operation according to the specific situation that the terminal receives the downlink data, which is beneficial to improving the storage burden and work efficiency of the core network device.
- the first indication message that is obtained by the core network device may be a message such as an initial UE message or a path switch Path Switch.
- the core network device can obtain the first indication message by using various signalings, which can effectively improve the compatibility and efficiency of the core network device.
- the core network device before the core network obtains the first indication message, receives an indication message indicating that the terminal will perform cell reselection or the terminal will perform cell change. And then the core network device stops sending the downlink data to the source base station, and starts a second timer, where the downlink data is downlink data sent by the core network device to the source base station; and then, the core network device is in the first The second indicator does not time out to obtain the first indication message.
- the core network device after the core network device receives the indication signaling that indicates that the terminal performs cell reselection or the terminal performs cell change, the core network device suspends downlink data. Then, after the terminal establishes a connection with the target base station, the downlink data is sent to the target base station, which can effectively ensure that the downlink data is not lost, thereby ensuring the continuity of the terminal in the mobile state.
- the core network device After the second timer expires, the core network device still fails to obtain the first indication message, that is, the terminal may fail to connect to the target base station, and the core network device starts to resume sending downlink to the source base station. data.
- the core network device may be specifically operated according to a specific situation, which is beneficial to improving the working efficiency of the core network device.
- the first indication message may be a UL NAS Transport or other S1-AP message for the uplink non-access stratum message, which is not limited herein.
- the core network device can obtain the first indication message by using various signalings, which can effectively improve the compatibility and efficiency of the core network device.
- the core network device before acquiring the first indication message, receives indication signaling for indicating that the terminal performs cell reselection or the terminal performs cell change; The core network device starts to send the downlink data to the target base station, and keeps transmitting the downlink data to the source base station, and starts a third timer, where the downlink data is downlink data sent by the core network device to the source base station; and then the core The network device obtains the first indication message within a timeout period of the third timer; and finally, if the core network device acquires the first indication message within a timeout period of the third timer, the core network device sends the first indication message to the target The base station transmits downlink data and stops transmitting the downlink data to the source base station.
- the core network device may adopt a manner of simultaneously transmitting downlink data to the source base station and the target base station, and may effectively ensure that the downlink data is not lost, thereby ensuring continuity of the terminal in a mobile state.
- the core network device stops sending the downlink data to the target base station.
- the core network device may be specifically operated according to a specific situation, which is beneficial to improving the working efficiency of the core network device.
- the first indication message is a UL NAS Transport or other S1-AP message.
- the core network device can obtain the first indication message by using various signalings, which can effectively improve the compatibility and efficiency of the core network device.
- the core network device may be a mobility management network element (English name: Mobile Managenment Entity, MME for short)
- the core network device may also be other physical devices, and specific physical devices, which are not limited herein.
- the embodiment of the present application provides a data processing method, including: obtaining, by the source base station corresponding to the source serving cell where the terminal is located before completing the cell reselection or before the terminal completes the cell change, the method is used to instruct the terminal to start executing. a cell change or a second indication message that the terminal starts to perform cell reselection; the source base station then sends the downlink data to the target base station corresponding to the target serving cell after the cell completes the cell reselection or the cell change, so that the target base station The downlink data is sent to the terminal.
- data transmission between the source base station and the target base station may effectively ensure that the downlink data is not lost, thereby ensuring continuity of the terminal in a mobile state.
- the source base station when the second indication message indicates that the terminal completes cell reselection, receives a data transmission indication message or a radio link failure indication message sent by the target base station; and then the source base station reaches the target The base station sends a first request message; finally, the source base station receives the second response message fed back by the target base station as the second indication message.
- the first request message is a handover request message
- the first response message is a handover confirmation message.
- the first request message and the first response message may both be X2-AP messages.
- the source base station sends the downlink data to the switch request message after receiving the handover request message.
- Target base station The downlink data is data that the source base station does not receive the acknowledgment, or may be data that has not been sent.
- the first request message is a handover request message, and a cell may be used in the handover request to send the downlink data to the target base station, where the downlink data is not received by the source base station, or may not be sent. Going out of the data.
- the second request message and the second response message may also be other types of messages, which are not limited herein.
- the source base station when the second indication message indicates that the terminal starts performing cell change, the source base station sends a second request message to the target base station; finally, the source base station receives the second response message fed back by the target base station as The second indication message.
- the second request message is a handover request message
- the second response message is a handover confirmation message.
- the second request message is a handover request message
- the second response message is a handover confirmation message.
- the second request message and the second response message may both be X2-AP messages.
- the second request message is a handover request message, where the cell is used to indicate whether downlink data is sent to the target base station, if yes, the source base station sends the downlink data to the handover request message after receiving the handover request message.
- Target base station The downlink data is data that the source base station does not receive the acknowledgment, or may be data that has not been sent.
- the second request message is a handover request message, and a cell may be used in the handover request to send the downlink data to the target base station, where the downlink data is not received by the source base station, or may not be sent. Going out of the data.
- the second request message and the second response message may also be other types of messages, which are not limited herein.
- the specific indication message of the source base station adopts a specific operation, which can effectively improve the working efficiency of the source base station.
- the source base station sends the downlink data to the target base station through an interconnection interface X2 between the base stations.
- the source base station receives the downlink data sent by the core network device before sending the downlink data to the target base station.
- the data is transmitted between the base stations, only the data is transmitted, and the signaling is not forwarded. Therefore, when the core network device sends the NAS information to the base station, it needs to indicate to the source base station whether the data is transmitted or the signaling.
- the second indication message is an uplink direct transmission message UL Information Transfer or another unlimited resource control RRC message.
- the specific message format is not limited here.
- the core network device connected to the target base station is the same core network device.
- the core network device connected to the target base station by the source base station may be different.
- the embodiment of the present application provides a data processing method, including: obtaining a source core network device And a third indication message for indicating that the terminal is about to change the serving cell or the target core network device to send downlink data, where the source core network device is a core network connected to the source base station where the terminal establishes a connection before cell reselection or cell change a device, the target core network device is a core network device connected to the target base station to which the terminal is connected after the cell reselection or the cell change; and then the source core network device sends the downlink data to the target core network device, so that The target core network device sends the downlink data to the target base station.
- the core network device after confirming that the terminal is about to change the serving cell or the target core network device to request to send downlink data, the core network device sends the downlink data to the target core network device, and the target core network device The downlink data is sent to the target base station, which can effectively ensure that downlink data is not lost after cell change or cell reselection, thereby ensuring continuity of the terminal in a mobile state.
- the core network device may perform data processing in the following manners to implement downlink data loss:
- the source core network device saves the downlink data and starts a first timer, where the downlink data is downlink data sent by the source core network device by using the source base station; if the first timer expires If the source core network device does not obtain the first indication message, the source core network device deletes the downlink data; if the first timer does not time out and the source core network device obtains the first indication message, the source is triggered.
- the core network device sends the downlink data to the target core network device.
- the core network device after confirming that the terminal is about to change the serving cell or the target core network device to request to send downlink data, the core network device sends the downlink data to the target core network device, and the target core network device The downlink data is sent to the target base station, which can effectively ensure that downlink data is not lost after cell change or cell reselection, thereby ensuring continuity of the terminal in a mobile state.
- the source core network device receives the first one sent by the target core network device to instruct the source core network device to create a data transmission channel. Requesting the information, and the first request information is sent by the target core network device after receiving the first indication information of the target base station connected to the target core network device, where the first indication information is used to indicate that the target core network device needs to The source core network device obtains the downlink data; then the source core network device sends a first response message for creating a data transmission channel to the target core network device; Finally, the source core network device sends the downlink data to the target core network device.
- the first request information may be a create data forwarding tunnel request
- the first response message may be a create data forwarding tunnel response.
- the specific signaling format is not limited here.
- the core network device after confirming that the terminal is about to change the serving cell or the target core network device to request to send downlink data, the core network device sends the downlink data to the target core network device, and the target core network device The downlink data is sent to the target base station, which can effectively ensure that downlink data is not lost after cell change or cell reselection, thereby ensuring continuity of the terminal in a mobile state.
- the source core network device receives a second sent by the target core network device to instruct the source core network device to create a data transmission channel. Requesting information, the second request information is sent by the target core network device after receiving the first indication information; and then the source core network device sends a second response message for creating a data transmission channel to the target core network device, where the second The response message carries the downlink data.
- the second request information may be a create data forwarding tunnel request for creating a data forwarding tunnel request
- the second response message may be a create data forwarding tunnel response for creating a data forwarding tunnel response.
- the specific signaling format is not limited here.
- the core network device after confirming that the terminal is about to change the serving cell or the target core network device to request to send downlink data, the core network device sends the downlink data to the target core network device, and the target core network device The downlink data is sent to the target base station, which can effectively ensure that downlink data is not lost after cell change or cell reselection, thereby ensuring continuity of the terminal in a mobile state.
- the source core network device receives third request information that is sent by the target core network and is used to request the downlink data, the third request.
- the third request information is sent by the target core network device after receiving the first indication information, and then the source core network device sends a third response message to the target core network device, where the third response message carries the downlink data. .
- the third request information may be a context and a data request Context and Data Request
- the third response message may be a context and a data response Context and Data Response. specific
- the signaling form is not limited here.
- the core network device after confirming that the terminal is about to change the serving cell or the target core network device to request to send downlink data, the core network device sends the downlink data to the target core network device, and the target core network device The downlink data is sent to the target base station, which can effectively ensure that downlink data is not lost after cell change or cell reselection, thereby ensuring continuity of the terminal in a mobile state.
- the source core network device receives the handover request sent by the source base station connected to the source core network device, where the handover request includes information about the target core network device. And then the source core network device sends a data allocation request to the target core network device according to the information of the target core network device; and then the source core network device receives the data allocation response fed back by the target core network device as the first indication information.
- the data distribution response is sent after the target core network device receives the handover response fed back by the target base station; secondly, the source core network device sends a message to the target core network device to indicate that the target core network device creates a data transmission channel. And the source core network device receives the fourth response message of the data transmission channel that is fed back by the target core network device. Finally, the source core network device sends the downlink data to the target core network device.
- the data allocation request may be a Forward Relocation Request
- the data request response may be a Forward Relocation Response
- the fourth request information may be a Create Indirect Data Forwarding Tunnel Request
- the fourth The response message can be a Create Indirect data forwarding tunnel response for creating an indirect data forwarding tunnel response.
- the specific signaling format is not limited here.
- the core network device after confirming that the terminal is about to change the serving cell or the target core network device to request to send downlink data, the core network device sends the downlink data to the target core network device, and the target core network device The downlink data is sent to the target base station, which can effectively ensure that downlink data is not lost after cell change or cell reselection, thereby ensuring continuity of the terminal in a mobile state.
- the source core network device receives the handover request sent by the source base station connected to the source core network device, where the handover request includes information about the target core network device. And then the source core network device according to the target core network device information Sending a data allocation request to the target core network device; and then the source core network device receives the data allocation response fed back by the target core network device as the first indication information, where the data allocation response receives the target at the target core network device And transmitting, by the source core network device, the target core network device, to send the fifth request information, where the fifth request information is used to request the downlink data; and finally, the source core network device sends the downlink data device to the target core network device. And sending a fifth response message, where the fifth response message carries the downlink data.
- the data allocation request may be a forward relocation request
- the data allocation response may be a Forward Relocation Response
- the fifth request information may be a context and a data request Context and Data Request, where the fifth response message is Context and data response Context and Data Response.
- the specific signaling format is not limited here.
- the source core network device after confirming that the terminal is about to change the serving cell or the target core network device to request to send downlink data, the source core network device sends the downlink data to the target core network device, where the target core network device is Sending the downlink data to the target base station can effectively ensure that downlink data is not lost after cell change or cell reselection, thereby ensuring continuity of the terminal in a mobile state.
- the source core network device may further receive feedback information for indicating that the terminal receives the downlink data. If the feedback information indicates that the terminal has completely received the downlink data, the source core network device deletes the downlink data. If the feedback information indicates that the terminal does not completely receive the downlink data, triggering the source core network device to send the downlink data to the target core network device.
- the source core network device after confirming that the terminal is about to change the serving cell or the target core network device to request to send downlink data, the source core network device sends the downlink data to the target core network device, where the target core network device is Sending the downlink data to the target base station can effectively ensure that downlink data is not lost after cell change or cell reselection, thereby ensuring continuity of the terminal in a mobile state.
- the source core network device receives indication signaling for indicating that the terminal performs cell reselection or the terminal performs cell change; then the source core network device stops sending downlink data to the source base station, The second timer is started. The source core network device obtains the first indication message after the second timer does not time out.
- the indication signaling is an uplink non-access layer transmission message UL NAS Transport or other base. Uplink messages between the station and the core network.
- the specific signaling format is not limited here.
- the source core network device after confirming that the terminal is about to change the serving cell or the target core network device to request to send downlink data, the source core network device sends the downlink data to the target core network device, where the target core network device is Sending the downlink data to the target base station can effectively ensure that downlink data is not lost after cell change or cell reselection, thereby ensuring continuity of the terminal in a mobile state.
- the source core network device sends the downlink data to the source base station.
- the source core network device receives the sixth request information that is sent by the target core network device and indicates that the source core network device creates a data transmission channel, where the sixth request information is that the target core network device receives the target base station.
- the second indication information is used to indicate that the terminal completes cell reselection or the terminal completes the cell change, and the target core network device needs to obtain the downlink data from the source core network device; and then the source core The network device sends a sixth response message for creating a data transmission channel to the target core network device.
- the source core network device sends the downlink data to the target core network device.
- the sixth request information may be an Create Indirect Data Forwarding Tunnel Request
- the sixth response message may be a Create Indirect Data Forwarding Tunnel Response.
- the specific signaling format is not limited here.
- the source core network device after confirming that the terminal is about to change the serving cell or the target core network device to request to send downlink data, the source core network device sends the downlink data to the target core network device, where the target core network device is Sending the downlink data to the target base station can effectively ensure that downlink data is not lost after cell change or cell reselection, thereby ensuring continuity of the terminal in a mobile state.
- the source core network device receives the seventh request information that is sent by the target core network device for requesting downlink data from the source core network device, where the seventh request information is that the target core network device is receiving the second After the indication information is sent, the source core network device sends a seventh response message for creating a data transmission channel to the target core network device, where the seventh response message carries the downlink data.
- the seventh request information may be a context and a data request Context and Data Request
- the seventh response message can be a context and data response Context and Data Response.
- the source core network device after confirming that the terminal is about to change the serving cell or the target core network device to request to send downlink data, the source core network device sends the downlink data to the target core network device, where the target core network device is Sending the downlink data to the target base station can effectively ensure that downlink data is not lost after cell change or cell reselection, thereby ensuring continuity of the terminal in a mobile state.
- the source core network device after the source core network device receives the indication signaling that indicates that the terminal performs cell reselection or the terminal performs cell change, the source core network device starts to use the target base station to The terminal sends the downlink data, and starts to send the downlink data to the terminal by the source base station, and starts a third timer. If the source core network device obtains the first indication message within a timeout period of the third timer, The source core network device stops sending the downlink data to the terminal through the source base station; if the source core network device does not obtain the first indication message after the third timer expires, the source core network device stops passing The target base station sends the downlink data to the terminal.
- the source core network device after confirming that the terminal is about to change the serving cell or the target core network device to request to send downlink data, the source core network device sends the downlink data to the target core network device, where the target core network device is Sending the downlink data to the target base station can effectively ensure that downlink data is not lost after cell change or cell reselection, thereby ensuring continuity of the terminal in a mobile state.
- the source core network device and the target core network device may both be mobile MMEs.
- the source core network device and the target core network device may also be other physical devices, and specific physical devices, which are not limited herein.
- the embodiment of the present application provides a data processing method, including: the source base station corresponding to the source serving cell where the terminal is located before the cell reselection or the cell change is used to instruct the terminal to perform cell change or the terminal completes the cell. Reselecting the second indication message; the source base station sends the downlink data to the terminal to complete the cell reselection or the target base station corresponding to the target serving cell after the terminal completes the cell change, so that the target base station sends the downlink data to the The terminal.
- data transmission between the source base station and the target base station may effectively ensure that the downlink data is not lost, thereby ensuring continuity of the terminal in a mobile state.
- the source Receiving, by the base station, a cell reselection or cell change indication message or a radio link failure indication message sent by the target base station; then, the source base station sends a first request message to the target base station; and finally, the source base station receives the second response fed back by the target base station.
- the message serves as the second indication message.
- the first request message is a handover request message
- the first response message is a handover confirmation message.
- the first request message and the first response message may both be X2-AP messages.
- the source base station sends the downlink data to the handover acknowledgement message.
- Target base station The downlink data is data that the source base station does not receive the acknowledgment, or may be data that has not been sent.
- the first request message is a handover request message, and a cell may be used in the handover request to send the downlink data to the target base station, where the downlink data is not received by the source base station, or may not be sent. Going out of the data.
- the second request message and the second response message may also be other types of messages, which are not limited herein.
- the source base station when the second indication message indicates that the terminal starts performing cell change, the source base station sends a second request message to the target base station; finally, the source base station receives the second response message fed back by the target base station as The second indication message.
- the second request message is a handover request message
- the second response message is a handover confirmation message.
- the second request message is a handover request message
- the second response message is a handover confirmation message.
- the second request message and the second response message may both be X2-AP messages.
- the second request message is a handover request message, where the cell is used to indicate whether downlink data is sent to the target base station, if yes, the source base station sends the downlink data to the handover request message after receiving the handover request message.
- Target base station The downlink data is data that the source base station does not receive the acknowledgment, or may be data that has not been sent.
- the second request message is a handover request message, and a cell may be used in the handover request to send the downlink data to the target base station, where the downlink data is not received by the source base station, or may not be sent. Going out of the data.
- the second request message and the second response message may also be other types of messages, which are not limited herein.
- the specific indication message of the source base station adopts a specific operation, which can effectively improve the working efficiency of the source base station.
- the source base station passes the downlink number through the interconnection interface X2 between the base stations. It is sent to the target base station.
- the source base station receives the downlink data sent by the core network device before sending the downlink data to the target base station.
- the data is transmitted between the base stations, only the data is transmitted, and the signaling is not forwarded. Therefore, when the core network device sends the NAS information to the base station, it needs to indicate to the source base station whether the data is transmitted or the signaling.
- the second indication message is an uplink direct transmission message UL Information Transfer or another unlimited resource control RRC message.
- the specific message format is not limited here.
- the embodiment of the present application provides a cell acquisition method, including: when a terminal is in a connection state with a current source serving cell, the terminal acquires a first quality parameter of the current source serving cell; if the first quality parameter is low At the first preset threshold, the terminal acquires a measurement cell set; then the terminal performs measurement on each measurement cell in the measurement cell set to obtain a second quality parameter set; finally, the terminal according to the second preset threshold or according to the usage
- the second quality parameter is calculated according to the cell reselection rule, and the target serving cell corresponding to the second quality parameter is determined from the second quality parameter set.
- the terminal determines the target serving cell by itself, reduces the measurement energy consumption in the connected state, and saves power consumption of the terminal.
- the measurement cell set includes: a cell in which the quality parameter measured by the terminal in the idle state exceeds a preset value, and the terminal selects a cell in which the quality parameter obtained in the idle state is ranked, and the terminal can be connected.
- the selection range of the cell is measured in a centralized manner, thereby saving the measurement times of the terminal and saving power consumption of the terminal.
- the terminal reports the information of the target cell to the source base station corresponding to the current source serving cell by using the uplink direct transmission message.
- the information of the target cell may include an identifier ID of the target serving cell or an index value of the target serving cell.
- the source base station may determine a target base station; and then the source base station sends a handover to the target base station. a request message; the source base station receives a handover response message fed back by the target base station; and the terminal receives information that the source base station transmits the target cell by using an RRC connection release message or a downlink direct transmission message.
- the terminal establishes a completion message through an RRC connection, and the RRC reconfiguration is completed.
- the uplink direct transmission message sends the cell change confirmation message to the target base station in at least one manner.
- the terminal When the terminal establishes a connection with the target base station, the terminal may indicate the reason for establishing the connection to the target base station by using corresponding signaling, where the connection may be performed by the terminal for cell reselection or by the terminal.
- the cell change may also be that the connection between the terminal and the network is interrupted, and the connection needs to be re-connected.
- the specific reason is not limited herein.
- the signaling used in the same terminal can also be various, and is not limited herein.
- the terminal when the terminal performs random access with the target base station, the terminal may acquire the configuration of the non-anchor carrier through specific dedicated signaling or system broadcast.
- the dedicated signaling may be a message such as an RRC Connection Reconfiguration or an RRC Connection release
- the system message may be a system message such as an SIB1 or an SIB2, and the specific situation is not limited herein.
- the configuration of the random access resource includes: duration of the random access resource, start time of the random access resource, carrier offset of the random access resource, number of subcarriers of the random access resource, and random access resource message
- the subcarrier starting position of 3 the maximum number of preamble attempts, the number of repetitions of each preamble, the number of corresponding NPDCCH repetitions of the random access response, the start position of the downlink control channel search space corresponding to the random access response, and random access Information such as the offset of the corresponding downlink control channel is responded to.
- the configuration of the non-anchor carrier corresponds to the control information of the random access response, and may include a corresponding NPDCCH repetition number of the random access response, a downlink control channel search space start position corresponding to the random access response, and a random access response corresponding to the random access response.
- Information such as the offset of the downlink control channel, and the specific case is not limited herein.
- the embodiment of the present application provides a core network device, where the core network device has the function of implementing the core network device in the foregoing method.
- This function can be implemented in hardware or in hardware by executing the corresponding software.
- the hardware or software includes one or more modules corresponding to the functions described above.
- the core network device includes:
- a receiving module configured to obtain a first indication message, where the first indication message is used to indicate that the terminal completes a cell change or the terminal completes cell reselection;
- a sending module configured to send the downlink data to the target base station, where the target base station is a base station that is connected after the cell completes the cell change or completes the cell reselection.
- the core network device includes:
- Transceiver processor, bus
- the transceiver is coupled to the processor via the bus;
- the transceiver performs the following steps: acquiring a first indication message, the first indication message is used to indicate that the terminal completes the cell change or the terminal completes the cell reselection, and sends the downlink data to the target base station, where the target base station completes the cell for the terminal The base station connected after the cell reselection is changed or completed.
- an embodiment of the present application provides a base station, where the base station has a function of implementing a base station in the foregoing method.
- This function can be implemented in hardware or in hardware by executing the corresponding software.
- the hardware or software includes one or more modules corresponding to the functions described above.
- the base station includes:
- the receiving module is configured to obtain a second indication message, where the second indication message is used to indicate that the terminal starts performing cell change or the terminal starts to perform cell reselection, where the source base station is before the terminal completes cell reselection or the terminal is in complete a base station corresponding to the source serving cell where the cell is changed;
- the sending module is configured to send the downlink data to the target base station, so that the target base station sends the downlink data to the terminal, where the target base station is a base station corresponding to the target serving cell after the cell reselection or the cell change is completed.
- the base station includes:
- Transceiver processor, bus
- the transceiver is coupled to the processor via the bus;
- the transceiver performs the following steps: acquiring a second indication message, the second indication message is used to indicate that the terminal starts performing cell change or the terminal starts to perform cell reselection, and the source base station is before the terminal completes cell reselection or the terminal a base station corresponding to the source serving cell where the terminal is located before completing the cell change; transmitting downlink data to the target base station, so that the target base station sends the downlink data to the terminal, where the target base station completes cell reselection or cell for the terminal The base station corresponding to the target serving cell after the change.
- an embodiment of the present application provides a computer storage medium, where the program storage code is stored in the computer storage medium, and the program code is used to indicate that the method of the foregoing first aspect is performed.
- the embodiment of the present application has the following advantages: after confirming that the terminal completes cell reselection or completes cell change, the core network device sends downlink data to the target base station, which can effectively ensure downlink data. It is not lost after cell change or cell reselection, thereby ensuring the continuity of the terminal in the mobile state.
- FIG. 1 is a schematic diagram of a framework of a network system in an embodiment of the present application.
- FIG. 2 is a schematic diagram of an embodiment of a data processing method in an embodiment of the present application.
- FIG. 3 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 4 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 5 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 6 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 7 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 8 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 9 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 10 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 11 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 12 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 13 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 14 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 15 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- 16 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 17 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 18 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 19 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 20 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 21 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 22 is a schematic diagram of another embodiment of a data processing method according to an embodiment of the present application.
- FIG. 23 is a schematic diagram of an embodiment of a method for acquiring a cell according to an embodiment of the present application.
- FIG. 24 is a schematic diagram of an embodiment of a core network device according to an embodiment of the present application.
- FIG. 25 is a schematic diagram of another embodiment of a core network device according to an embodiment of the present application.
- FIG. 26 is a schematic diagram of an embodiment of a base station according to an embodiment of the present application.
- FIG. 27 is a schematic diagram of another embodiment of a base station in an embodiment of the present application.
- the network terminal system includes a base station, a terminal, and a core network device.
- the network system may have multiple base stations, multiple core network devices, and multiple terminals.
- the data is transmitted between the base station and the core network device through the S1 interface, and the data is transmitted between the base station and the base station through the X2 interface, and the terminal performs data transmission through the base station and the core network device.
- the terminal may perform cell reselection in an idle state, or may perform cell change in a connected state. In both cases, the terminal needs to perform data interaction between the base station corresponding to the source serving cell and the core network to become a target service.
- the base station corresponding to the cell performs data interaction with the core network.
- the 3GPP standard is based on cellular networks.
- this type of IoT is called narrowband Internet of Things.
- NB-IoT is mainly aimed at low-mobility terminals and applications, and only realizes the idle state mobility function, but the demand for mobile Internet of Things is also an important requirement, so it is necessary to solve the problem of connection state mobility.
- the handover procedure of LTE is usually applied to the NB-IoT.
- the NB-IoT does not include a packet data convergence protocol layer (English name: Packet Data Convergence Protocol, PDCP for short), the NB-IoT cannot transmit data on the control plane, thereby causing the terminal to access the target base station. After that, the terminal cannot completely receive the downlink data that was not completed before the handover.
- PDCP Packet Data Convergence Protocol
- the embodiment of the present application provides the following technical solution: the core network device acquires a first indication message for instructing the terminal to complete the cell change or the terminal completes the cell reselection; the core network device completes the cell by using the terminal downlink data. The target base station connected after changing or completing the cell reselection is sent to the terminal.
- FIG. 2 to FIG. 12 are data processing methods when the terminal performs cell reselection
- FIG. 13 to FIG. 22 are data processing methods when the terminal performs cell change.
- the terminal performs cell reselection, and the core network device performs data transmission, and the source base station shares a core network device with the target base station.
- the core network device saves downlink data and starts a first timer.
- the core network device When the core network device sends downlink data to the source base station, the downlink data to be sent is saved, and the first timer is started.
- the running time of the first timer is preset, and the specific duration is not limited herein.
- the core network device may be an MME or other core network device, such as an SGW.
- the specific form is not limited herein, as long as the data can be effectively ensured.
- the MME is taken as an example, and the duration of the first timer is 10 seconds. If the downlink data sent by the MME to the source base station is data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5, the MME saves the five data packets, and starts the first timer. .
- the MME may send the packet 1 to start the timer 1, send the packet 2, start the timer 2, and so on, and the values of the timers may be the same or different; Start a timer after each packet.
- the specific use form is not limited.
- the target base station sends a first indication message to the core network device, where the first indication message is used to indicate that the terminal completes cell reselection.
- the terminal performs cell reselection. After the terminal connects to the target base station successfully, the target base station sends a first indication message to the core network device to notify the core network device that the terminal has completed cell reselection.
- the terminal may further carry the connection between the terminal and the target base station, such as an RRC connection setup request or an RRC connection re-establishment request.
- the connection is due to cell reselection. It can also indicate that the current connection is caused by a network interruption and needs to reconnect data. It can also indicate the current connection.
- the reason for the connection is the cell change. The specific reason is not limited here. Specifically, since there are two data transmission schemes in the NB-IOT, one is based on the control plane transmission scheme, and the other is based on the user plane transmission scheme.
- the RRC connection setup request may be initiated, and the cell reselection or other cause value is carried.
- the base station After receiving the connection request, the base station sends an RRC connection setup message to the terminal, and the terminal replies to the RRC connection establishment. Complete the message to the base station.
- the terminal may send an RRC connection re-establishment request carrying area reselection or other reason value.
- the base station After receiving the connection establishment request, the base station sends an RRC connection re-establishment message to the terminal, and the terminal returns an RRC connection re-establishment completion message to the base station.
- the base station After the base station establishes an RRC connection with the terminal, the base station sends an initial UE message or a path switch message to the core network device, and the message also carries the cause value of the connection establishment. Then the core network knows the reason for the specific connection.
- the terminal may notify the NAS layer, and the NAS layer makes a decision to resume the connection.
- the terminal sends an RRC connection setup request to the target base station, and carries a cause value indicating that the connection is established this time because an acknowledgement message or other reason needs to be received from the core network side.
- the target base station may send this message to the core network through the initial UE message. The core network thus knows why the connection was established.
- the terminal carries the cause value as the MT when sending the RRC connection setup request, and adds a cell to the service request message when the RRC connection setup request is sent, indicating the reason for the establishment, and then using the base station.
- the initial UE message is sent to the core network. The core network thus knows why the connection was established.
- the terminal initiates a tracking area update process.
- the terminal when the terminal performs random access with the target base station, the terminal can obtain the configuration of the non-anchor carrier through specific dedicated signaling or system broadcast.
- the dedicated signaling may be a message such as an RRC Connection Reconfiguration or an RRC Connection release
- the system message may be a system message such as an SIB1 or an SIB2, and the specific situation is not limited herein.
- the configuration of the random access resource includes: duration of the random access resource, start time of the random access resource, carrier offset of the random access resource, number of subcarriers of the random access resource, and random access resource message 3 subcarrier starting position, maximum preamble attempt times, number of repetitions per preamble, random access The number of corresponding NPDCCH repetitions of the response, the downlink control channel search space start position corresponding to the random access response, and the offset of the downlink control channel corresponding to the random access response.
- the configuration of the non-anchor carrier corresponds to the control information of the random access response, and may include a corresponding NPDCCH repetition number of the random access response, a downlink control channel search space start position corresponding to the random access response, and a random access response corresponding to the random access response.
- Information such as the offset of the downlink control channel, and the specific case is not limited herein.
- the first indication message may be a message such as an Initial UE Message or a Path Switch sent by the target base station to the core network device.
- the specific message format is not limited here.
- the target base station does not send the first indication message to the core network device after the first timer expires, it indicates that the terminal fails to connect to the target base station or the terminal is running in the first timer. If the cell reselection is not performed, the core network device may delete the saved downlink data. For example, if the MME does not receive the message sent by the target base station indicating that the terminal has completed cell reselection after the MME saves the five data packets, the MME deletes the five data packets.
- the core network device sends the downlink data to the target base station.
- the core network device sends the saved downlink data to the target base station.
- the terminal in the process of establishing a connection between the terminal and the target base station, may also feed back the situation of receiving downlink data.
- the feedback that the terminal receives the downlink data may be as follows. For example, if the terminal has not completely received the downlink data, the feedback information is sent; if the terminal has completely received the downlink data, the feedback information is not sent. . Of course, the reverse is also true. If the terminal has not completely received the downlink data, no feedback information is sent; if the terminal has completely received the downlink data, the feedback information is sent.
- the feedback information may be carried in the RRC connection setup request signaling or the RRC connection setup complete signaling, and after receiving the feedback information, the target base station may further carry the feedback information in the initialization sent to the core network device.
- the core network device In the terminal information Initial UE Message or the data path switching Path Switch, the core network device is notified, and the terminal has completely received the downlink data or the terminal has not completely received the downlink data. If the feedback information indicates that the terminal has completely received the downlink data, the core network device may delete the downlink data; if the feedback information indicates that the terminal has not completely received the downlink data, the core network device The downlink data is further sent to the terminal by the target base station. Specific feedback methods and counter The way to send information is not limited here.
- the terminal can determine whether the five data packets are received by the terminal, and if the terminal completely receives the data of the data packet 1, the data packet 2, the data packet 3, the data packet 4, and the data packet 5 The packet can be sent back to the core network device by the target base station, and the terminal network has completely received the five data packets, and the core network device does not need to send the five data to the terminal through the target base station. If the terminal determines that it only receives three data packets: data packet 1, data packet 2, and data packet 3, the terminal may feed back to the core network device through the target base station that the terminal does not completely receive five data packets.
- the terminal may delete the received data packet 1, the data packet 2, and the data packet 3, and then re-receive the core network device to send the data packet 1, the data packet 2, and the data packet 3 to the terminal through the target base station.
- the core network device sends only one data packet and the terminal does not receive the complete packet, it feeds back to the network side, and deletes the complete NAS packet that is not received, and the MME retransmits the NAS packet through the target base station.
- the UE knows that the NAS packet can know which packet is received according to the sequence number of each data, and can feed back the packet sequence number during feedback, and can also feedback that several NAS packets are accepted in this connection, and the specific form is not limited.
- the target base station sends the downlink data to the terminal.
- the target base station forwards the downlink data to the terminal.
- the terminal determines how the terminal transmits uplink data to the core network device through the target base station. After the terminal establishes a connection with the target base station, the terminal starts transmitting to the target base station from the first unreceived source base station to send an acknowledgment received data packet; when the terminal starts to establish a connection with the target base station, the source base station The data packets that have been received in order can be sent to the core network device. At the same time, the terminal may also indicate whether the uplink data is NAS signaling or NAS data when transmitting uplink data. And when the terminal sends data, it can also send the NAS Count of the uplink data packet.
- the base station can forward the correctly received but out-of-order data packet and sequence number to the target base station, and the terminal The NAS packet corresponding to the NAS count value that is not confirmed to be received may be transmitted to the target base station.
- the core network device saves the downlink data of the terminal, so that the terminal is in the terminal. After the source base station is handed over to the target base station, the core network device sends the saved downlink data to the terminal again, so that no downlink data is lost during the reselection process, thereby ensuring data continuity.
- the terminal performs cell reselection, and the core network device performs data transmission, and the source base station and the target base station connect different core network devices.
- the source core network device saves downlink data and starts a first timer.
- the source core network device When the source core network device sends downlink data to the terminal through the source base station, the downlink data to be sent is saved, and the first timer is started.
- the running time of the first timer is preset, and the specific duration is not limited herein.
- the core network device may be an MME or another core network device, such as an SGW.
- the specific form is not limited herein, as long as the effective guaranteed data can be not lost.
- the MME is taken as an example, and the duration of the first timer is 10 seconds.
- the downlink data sent by the source MME to the source base station is data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5, and the MME saves the five data packets. And start the first timer.
- the target base station sends a first instruction to the target core network device.
- Establishing a connection with the target base station in the terminal, the information of the source base station, and the source of the RRC connection establishment request, the RRC connection re-establishment request, the RRC connection establishment completion, the RRC re-establishment completion message, and the source are established in the connection establishment message.
- Information such as the core network device, such as GUTI.
- the target base station forwards the content carrying the relevant information to the target core network device.
- the message sent by the target base station to the target core network device can be regarded as the first instruction, and the instruction can indicate whether the core network performs data acquisition. If the data needs to be acquired, the target core network device needs to be requested from the source core network device.
- the downlink data can be regarded as the first instruction, and the instruction can indicate whether the core network performs data acquisition. If the data needs to be acquired, the target core network device needs to be requested from the source core network device. The downlink data.
- the target base station may send the initial UE Massage to the target core network device, and the initial UE Massage carries a field or a cell to indicate that the target core network device needs to request the downlink data from the source core network device.
- the Initial UE massage can be used as the first instruction.
- the target base station may send an Initial UE Massage to the target MME, and carry a field 1100 for the target MME to request the data packet 1, the data packet 2, and the data to the source MME. Five packets of packet 3, packet 4 and packet 5.
- the target core network device sends a request for creating a data transmission channel to the source core network device.
- the target core network device sends a request to create a data transmission channel to the source core network device.
- the request for creating a data transmission channel may be a create data forwarding tunnel request, and specific signaling is not limited herein.
- the source core network device sends a response to create a data transmission channel to the target core network device.
- the source core network device After receiving the request for the creation of the data transmission channel by the target core network device, the source core network device sends a response to the target core network device to create a data transmission channel response, which is used to indicate that the source core network device agrees to establish The data transmission channel.
- the response of the created data transmission channel may be a create data forwarding tunnel response, and specific signaling is not limited herein.
- the source core network device sends downlink data to the target core network device.
- the source core network device After the data transmission channel is established, the source core network device sends downlink data to the target core network device. For example, the source MME sends five data packets: data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5 to the target MME.
- the target core network device sends downlink data to the target base station.
- the target core network device After receiving the downlink data sent by the source core network device, the target core network device forwards the downlink data to the target base station. For example, in this embodiment, the target MME sends five data packets of data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5 to the target base station.
- the target base station sends downlink data to the terminal.
- the target base station After receiving the downlink data sent by the target core network device, the target base station sends the downlink data to the terminal.
- the source core network device saves the downlink data of the terminal, so that after the terminal is handed over to the target base station by the source base station, the source core network device resends the saved downlink data to the target core network device. And then sent to the terminal through the target base station, so as to ensure the reselection process There will be no downlink data loss, which will ensure the continuity of the data.
- the terminal performs cell reselection, and the core network device performs data transmission, and the source base station and the target base station connect different core network devices.
- Steps 401 to 403 are the same as steps 301 to 303, and are not described herein again.
- the source core network device sends a response to the target core network device to create a data transmission channel and carries the downlink data.
- the source core network device After receiving the request for the creation of the data transmission channel by the target core network device, the source core network device sends a response to the target core network device to create a data transmission channel response, which is used to indicate that the source core network device agrees to establish
- the data transmission channel carries the downlink data in the create data transmission channel response.
- the response of the created data transmission channel may be a create data forwarding tunnel response, and specific signaling is not limited herein.
- Steps 405 to 406 are the same as steps 306 to 307, and are not described herein again.
- the source core network device saves the downlink data of the terminal, so that after the terminal is handed over to the target base station by the source base station, the source core network device resends the saved downlink data to the target core network device. Then, the target base station is sent to the terminal, so that no downlink data is lost during the reselection process, thereby ensuring data continuity.
- the terminal performs cell reselection, and the core network device performs data transmission, and the source base station and the target base station connect different core network devices.
- Steps 501 to 502 are the same as steps 301 to 302, and are not described herein again.
- the target core network device sends a context information and a data request to the source core network device.
- the target core network device may directly connect to the source core network.
- the device sends context information and a data request message.
- the context information and the data request message may be Context and Data Request, and specific signaling is not limited herein.
- the source core network device sends the context information and the data response to the target core network device and carries the downlink data.
- the source core network device sends the context information and the data request cancellation message to the target core network device. After the information, the source core network device feeds back a context information and a data response to the target core network device, to indicate that the source core network device agrees to send the context information and the downlink data, and carries the context information and the data response.
- the downlink data and the context information are the context information and the data request cancellation message.
- the context information and the data response may be Context and Data Response, and specific signaling is not limited herein.
- Steps 505 to 506 are the same as steps 306 to 307, and are not described herein again.
- the source core network device saves the downlink data of the terminal, so that after the terminal is handed over to the target base station by the source base station, the source core network device resends the saved downlink data to the target core network device. Then, the target base station is sent to the terminal, so that no downlink data is lost during the reselection process, thereby ensuring data continuity.
- the terminal performs cell reselection, and the core network device performs data transmission, and the source base station and the target base station are connected to the same core network device.
- the terminal sends indication signaling to the source base station, where the indication signaling is used to indicate that the terminal is about to perform cell reselection.
- the terminal sends the indication signaling to the source base station before the cell reselection, and the indication signaling is used to notify the source base station that the terminal is about to perform cell reselection.
- the indication signaling carries information such as a cell reselection indication, an S-TMSI, and a target base station.
- the information may be appended to the RRC message, such as an RRC connection setup request, an RRC connection re-establishment request, or may be attached to a NAS message, such as UL Information Transfer.
- the MME is taken as an example. That is, the notification message of the NAS layer may be carried in the RRC signaling, or a field may be added to the RRC message to notify the cell to reselect.
- the source base station sends a notification message to the core network device, where the notification message is used to indicate that the terminal is about to perform cell reselection.
- the source base station After receiving the indication signaling sent by the terminal, the source base station needs to send a notification message to the core network device to notify the core network device that the terminal is about to perform cell reselection.
- the notification message may be UL NAS Transport signaling or other S1-AP messages.
- the message of the NAS layer may be used to notify the core network in the S1-AP message, or a field may be directly added to the S1-AP message or signaling to indicate the core network. Specific signaling is not limited here.
- the core network device stops sending downlink data to the source base station and starts a second timer.
- the core network device After the core network device learns that the terminal is about to perform cell reselection, the core network device starts a second timer, and the core network device stops sending downlink data to the source base station.
- the running time of the first timer is preset, and the specific duration is not limited herein.
- the MME stops sending five data packets of data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5 to the source base station.
- the target base station sends a first indication message to the core network device, where the first indication message is used to indicate that the terminal completes cell reselection.
- the target base station After the terminal connects to the target base station, the target base station sends a first indication message to the core network device to notify the core network device that the terminal has completed cell reselection.
- the first indication message may be a message such as an Initial UE Message or a Path Switch sent by the target base station to the core network device.
- the specific message format is not limited here.
- the target base station does not send the first indication message to the core network device after the second timer expires, it indicates that the terminal fails to connect to the target base station. At this time, the terminal will resume transmitting downlink data to the source base station. For example, after the MME does not receive the message sent by the target base station indicating that the terminal has completed cell reselection after the second timer expires, the MME will restart sending the data packet 1 to the source base station, the data packet. 2. Five packets of data packet 3, data packet 4, and data packet 5.
- the core network device sends downlink data to the target base station.
- the core network device After receiving the first indication information, the core network device sends the untransmitted downlink data to the target base station.
- the target base station sends downlink data to the terminal.
- the target base station forwards the downlink data to the terminal.
- the source core network device receives a message that the terminal is about to perform cell reselection. After that, the source core network device will suspend sending downlink data to the source base station, so after the terminal is handed over to the target base station by the source base station, the source core network device retransmits the downlink data to the target core network device and then through the target base station. It is sent to the terminal, which ensures that no downlink data will be lost during the reselection process, thus ensuring the continuity of the data.
- the terminal performs cell reselection, and the core network device performs data transmission, and the source base station and the target base station connect different core network devices.
- Step 701 is the same as step 601, and details are not described herein again.
- the source base station sends a notification message to the source core network device, where the notification message is used to indicate that the terminal is about to perform cell reselection.
- the source base station After receiving the indication signaling sent by the terminal, the source base station needs to send a notification message to the source core network device to notify the source core network device that the terminal is about to perform cell reselection.
- the notification message may be a UL NAS Transport signaling or an S1-AP message. Specific signaling is not limited here.
- the source core network device stops sending downlink data to the source base station and starts a second timer.
- the source core network device After the source core network device learns that the terminal is about to perform cell reselection, the source core network device starts a second timer, and the source core network device stops sending downlink data to the source base station.
- the running time of the first timer is preset, and the specific duration is not limited herein.
- the source MME stops sending five data packets of data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5 to the source base station.
- the target base station sends a notification instruction to the target core network device, where the notification instruction is used to indicate that the terminal has completed cell reselection and notifies the target core network device to request data from the source core network device.
- the target base station After the terminal establishes a connection with the target base station, the target base station sends the notification instruction to the target core network device, where the notification instruction is used to indicate that the terminal has completed cell reselection and notifies the target core network device that the source needs to be sent to the source network device.
- the core network device requests the downlink data.
- the target base station may send the initial UE Massage to the target core network device, and the initial UE Massage carries a field or a cell to indicate that the target core network device needs to request the downlink data from the source core network device.
- the Initial UE massage can be used as the first instruction.
- the target base station may send an Initial UE Massage to the target MME, and carry a field 1100 for the target MME in the Initial UE massage.
- the data packet 1, the data packet 2, the data packet 3, the data packet 4, and the data packet 5 need to be requested from the source MME.
- the target core network device sends a request for creating a data transmission channel to the source core network device.
- the target core network device sends a request to create a data transmission channel to the source core network device.
- the request for creating a data transmission channel may be a create data forwarding tunnel request, and specific signaling is not limited herein.
- the source core network device sends a response to create a data transmission channel to the target core network device.
- the source core network device After receiving the request for the creation of the data transmission channel by the target core network device, the source core network device sends a response to the target core network device to create a data transmission channel response, which is used to indicate that the source core network device agrees to establish The data transmission channel.
- the response of the created data transmission channel may be a create data forwarding tunnel response, and specific signaling is not limited herein.
- the source core network device sends downlink data to the target core network device.
- the source core network device After the data transmission channel is established, the source core network device sends downlink data to the target core network device. For example, the source MME sends five data packets: data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5 to the target MME.
- the source core network device forwards data to the target core network device, the last packet indication may be performed, or the end forwarding data indication may be ended.
- the target core network device After receiving the target base station indication information, the target core network device sends a path switch indication to the S-gw, indicating that the target MME forwards data for the UE.
- the target core network device sends downlink data to the target base station.
- the target core network device After receiving the downlink data sent by the source core network device, the target core network device forwards the downlink data to the target base station. For example, in this embodiment, the target MME sends five data packets of data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5 to the target base station.
- the target base station sends downlink data to the terminal.
- the target base station After receiving the downlink data sent by the target core network device, the target base station sends the downlink data to the terminal.
- the target base station after the terminal establishes a connection with the target base station, the target base station sends an initial UE message or a path switch to the target core network device, and the target core network device obtains the information of the source MME and the source base station by using the indication information forwarded by the terminal by the base station, and the target core.
- Network devices can be set to the source core network A message is sent to indicate that the terminal has established a connection with the target core network device, triggering the source core network device to send a setup data channel or transmit a data request, and the target core network device replies with a response message. The source core network device then forwards the data to the target core network device.
- the terminal After the terminal establishes a connection with the target base station, the terminal starts transmitting to the target base station from the first unreceived source base station to send an acknowledgment received data packet; when the terminal starts to establish a connection with the target base station, the source base station The data packets that have been received in order can be sent to the core network device.
- the source core network device after receiving the message that the terminal is about to perform cell reselection, the source core network device pauses to send downlink data to the source base station, so that after the terminal is switched by the source base station to the target base station, The source core network device retransmits the downlink data to the target core network device and then sends the downlink data to the terminal through the target base station, so that downlink data is not lost during the reselection process, thereby ensuring data continuity.
- the terminal performs cell reselection, and the core network device performs data transmission, and the source base station and the target base station connect different core network devices.
- Steps 801 to 805 are the same as steps 701 to 705, and are not described herein again.
- the source core network device sends a response to the target core network device to create a data transmission channel and carries the downlink data.
- the source core network device After receiving the request for the creation of the data transmission channel by the target core network device, the source core network device sends a response to the target core network device to create a data transmission channel response, which is used to indicate that the source core network device agrees to establish
- the data transmission channel carries the downlink data in the create data transmission channel response.
- the response of the created data transmission channel may be a create data forwarding tunnel response, and specific signaling is not limited herein.
- Steps 807 to 808 are the same as steps 708 to 709, and are not described herein again.
- the source core network device after receiving the message that the terminal is about to perform cell reselection, the source core network device pauses to send downlink data to the source base station, so that after the terminal is switched by the source base station to the target base station, The source core network device retransmits the downlink data to the target core network device and then sends the downlink data to the terminal through the target base station, so that downlink data is not lost during the reselection process, thereby ensuring data continuity.
- the terminal performs cell reselection, and the core network device performs data transmission, and the source base station and the target base station connect different core network devices.
- Steps 901 to 904 are the same as steps 701 to 704, and are not described herein again.
- the target core network device sends a context information and a data request to the source core network device.
- the target core network device may directly connect to the source core network.
- the device sends context information and a data request message.
- the context information and the data request message may be Context and Data Request, and specific signaling is not limited herein.
- the source core network device sends the context information and the data response to the target core network device and carries the downlink data.
- the source core network device After receiving the context information and the data request message, the source core network device sends a context information and a data response to the target core network device to indicate that the source core network device agrees.
- the context information and the downlink data are sent, and the downlink data and the context information are carried in the context information and the data response.
- the context information and the data response may be Context and Data Response, and specific signaling is not limited herein.
- Steps 907 to 908 are the same as steps 708 to 709, and are not described herein again.
- the source core network device after receiving the message that the terminal is about to perform cell reselection, the source core network device pauses to send downlink data to the source base station, so that after the terminal is switched by the source base station to the target base station, The source core network device retransmits the downlink data to the target core network device and then sends the downlink data to the terminal through the target base station, so that downlink data is not lost during the reselection process, thereby ensuring data continuity.
- the core network device When the terminal performs cell reselection, the core network device performs data transmission, and the source base station and the target base station are connected to the same core network device.
- Steps 1001 to 1002 are the same as steps 601 to 602, and are not described herein again.
- the core network device sends downlink data to the source base station, and sends downlink data to the target base station, and starts a third timer.
- the core network device can start the third timer, and the core network device can send the downlink data to the target base station through the S1 interface, and maintain the downlink network device to send the downlink data to the source base station through the S1 interface.
- the source base station sends downlink data to the terminal, and the target base station sends downlink data to the terminal.
- the target base station After receiving the downlink data sent by the core network device, the target base station may send the downlink data to the terminal after establishing a connection with the terminal; and the source base station may keep the connection with the terminal.
- the downlink data is sent to the terminal.
- the core network device uses the above manner to transmit data, if the terminal has received the NAS PDU but the source base station does not receive the acknowledgement information fed back by the terminal, then if the target base station sends the NAS PDU again, The terminal received two NAS PDUs. Since the NAS PDU has no sequence number, the terminal can resolve the NAS PDU through the NAS count at the NAS layer, that is, when the same NAS count is found, the data packet corresponding to the NAS count is deleted.
- the target base station sends a first indication message to the core network device, where the first indication message indicates that the terminal completes cell reselection.
- the target base station After the terminal connects to the target base station, the target base station sends a first indication message to the core network device to notify the core network device that the terminal has completed cell reselection.
- the first indication message may be a message such as an Initial UE Message or a Path Switch sent by the target base station to the core network device.
- the specific message format is not limited here.
- the target base station if the target base station does not send the first indication message to the core network device after the third timer expires, it indicates that the terminal fails to connect to the target base station.
- the core network device may stop transmitting the downlink data to the target base station while maintaining the action of the core network device transmitting downlink data to the source base station.
- the core network device stops sending downlink data to the source base station.
- the core network device After the core network device learns that the terminal has completed cell reselection, the core network device stops transmitting the downlink data to the source base station.
- the source base station if the source base station further has uplink data sent by the terminal, the source base station continues to send the sequentially received data to the core network device, and other out-of-order and unacknowledged data packets are discarded.
- the terminal After the terminal establishes a connection with the target base station, the terminal will transmit the first unreceived data to the target base station. If duplicate packets appear, they are handed over to the NAS layer for processing.
- the core network device after receiving the message that the terminal is about to perform cell reselection, the core network device sends the downlink data to the source base station and the downlink data to the target base station, so that the reselection process can be ensured. There will be no downlink data loss, which will ensure the continuity of the data.
- the core network device When the terminal performs cell reselection, the core network device performs data transmission, and the source base station and the target base station connect different core network devices.
- Steps 1101 to 1102 are the same as steps 701 to 702, and are not described herein again.
- the source core network device sends downlink data to the source base station, and the target core network device sends downlink data to the target base station, and starts a third timer.
- the terminal sends the indication information to the source core network device by the source base station, where the indication information includes the information of the target core network device and the target base station, including the specific ID, the cell identifier, etc., and the source core network device finds the target core network device according to the information, and Sending a data channel request and indicating the reason, after receiving the message, the target core network device sends the message to the target base station to indicate a cell reselection or a change request. If the target base station decides to agree, the corresponding configuration information is carried in the response message and sent to the response message.
- the target core network device After the target core network device receives the message of the target base station, the target core network device replies with the establishment of the data channel request acknowledgement, and forwards the information sent by the target base station to the source core network, and sends the information to the terminal. After receiving the target core network device acknowledgement message, the source core network device forwards the downlink data to the target core network device.
- the source core network device may directly send a data transmission request, and the target core network sends a response message, where the response information may directly carry the relevant configuration information of the target base station to the terminal, where the source core network device receives the response information by using the GTP-protocol. After that, the data is directly transmitted by signaling.
- the target core network device after receiving the data, starts a third timer, and after receiving the information sent by the terminal through the target base station in the third timer, the target core network device notifies the source core network device to stop sending data to the source base station. If the third timer expires and the target core network device has not received the connection establishment information of the terminal, the target core network device stops transmitting data to the target base station, and the target base station deletes the related data.
- the source base station sends downlink data to the terminal, and the target base station sends downlink data to the terminal.
- the target base station may send the downlink data to the terminal after establishing a connection with the terminal; and the source base station may keep the connection with the terminal.
- the downlink data is sent to the terminal.
- the source core network device uses the above manner to transmit data, if the terminal The NAS PDU has been received but the source base station has not received or decrypted the acknowledgement information fed back by the terminal. If the target base station sends the NAS PDU again, the terminal receives two NAS PDUs. Since the NAS PDU has no sequence number, the terminal can resolve the NAS PDU through the NAS count at the NAS layer, that is, when the same NAS count is found, the data packet corresponding to the NAS count is deleted. Duplicate packets appear on the core network side, and the solution is the same.
- the target base station sends a notification instruction to the target core network device, and after obtaining the signaling, the target core network device learns that the terminal has completed cell reselection.
- the target base station After the terminal connects to the target base station, the target base station sends a first indication message to the target core network device to notify the target core network device that the terminal has completed cell reselection.
- the notification command may be a message such as an Initial UE Message or a Path Switch sent by the target base station to the target core network device.
- the specific message format is not limited here.
- the target core network device sends a notification message to the source core network device, where the notification message is used to indicate that the terminal has completed cell reselection.
- the target core network device After the target core network device learns that the terminal has completed cell reselection, the target core network device sends a notification message to the source core network device indicating that the terminal has completed cell reselection.
- the target base station does not send the notification command to the target core network device after the third timer expires, it indicates that the terminal fails to connect to the target base station.
- the target core network device does not send the notification message to the source core network device, so that the source core network device can stop sending the downlink data to the target base station, and maintain the source core network device to send downlink data to the source base station. Actions.
- the source core network device stops sending downlink data to the source base station, and sends downlink data to the target base station.
- the source core network device After the source core network device learns that the terminal has completed cell reselection, the source core network device stops transmitting the downlink data to the source base station, and stops sending downlink data to the target base station.
- the source base station if the source base station further has uplink data sent by the terminal, the source base station continues to send the sequentially received data to the core network device, and other out-of-order and unacknowledged data packets are discarded. At the same time, after the terminal establishes a connection with the target base station, the terminal will transmit the first unreceived data to the target base station.
- the source core network device receives a message that the terminal is about to perform cell reselection. After that, the source core network device will send downlink data to the source base station and downlink data to the target base station, so that downlink data will not be lost during the reselection process, thereby ensuring data continuity.
- the terminal performs cell reselection, and data transmission is performed by the base station side.
- the target base station sends indication information to the source base station, where the indication information is used to indicate that the terminal completes cell reselection.
- the target base station After the terminal establishes a connection with the target base station, the target base station receives information about the source base station sent by the terminal, and the target base station may send the indication to the source base station by using an X2 interface according to the information of the source base station.
- the terminal completes the indication information of the cell reselection.
- the specific message may be a cell reselection indication, and a field indication is added to the RLF indication, and the specific message is not limited.
- the source base station sends a handover request to the target base station.
- the source base station After the source base station learns that the terminal completes cell reselection, the source base station sends a handover request or other X2 message to the target base station.
- the target base station sends a handover confirmation message to the source base station.
- the target base station may send a handover confirmation message or other X2 message to the source base station.
- the handover signal is used as a connection signaling between the target base station and the source base station between the target base station and the source base station.
- the source base station sends downlink data to the target base station.
- the source base station transmits downlink data to the target base station through an X2 interface between the base stations.
- the target base station and the source base station may add a cell to the handover request for forwarding data, and the cell name may be data forwarding.
- the cell name may be DL data forwarding; or the source base station sends a handover request to the target base station
- a handover request is added, a cell for indicating that data is to be sent to the target core network device is added to the handover request, and after receiving the handover confirmation message sent by the target base station, the source base station sends another Transmitting data signaling to the target base station, where the signaling includes that the cell may be a data forwarding for NAS PDU; or the target base station establishes an X2 bearer corresponding to the SRB1, and establishes a new E-RAB corresponding to an EPS bearer, And a tunnel for carrying the data
- the target base station is built in the tunnel After the completion, the corresponding tunnel address is sent to the source base station, so that the source base station forwards the data to the target base station through the tunnel.
- the source base station can send downlink data to the target base station in multiple manners, which is not limited herein.
- the source base station performs the last packet indication to the target base station after completing the forwarding of the data, or ends the transmission of the data indication.
- the target base station may first send the data sent by the source base station to the terminal or the core network, and then send new data obtained from the core network or the terminal to avoid out-of-order situations.
- the target base station sends downlink data to the terminal.
- the target base station sends downlink data acquired by the source base station to the terminal.
- the target base station ensures that the data acquired from the source base station can be sequentially transmitted, and after the target base station acquires the data from the source base station, performs signaling interaction with the target core network device to receive downlink data, or the target base station first. After the downlink data acquired from the source base station is sent, the downlink data sent by the target core network device is received.
- the specific method is not limited herein.
- data transmission between the source base station and the target base station ensures that no downlink data is lost during the reselection process, thereby ensuring data continuity.
- the terminal performs cell change, and the core network device performs data transmission, and the source base station and the target base station are connected to the same core network device.
- the core network device saves downlink data and starts a first timer.
- the core network device When the core network device sends downlink data to the terminal through the source base station, the downlink data to be sent is saved, and the first timer is started.
- the running time of the first timer is preset, and the specific duration is not limited herein.
- the core network device may be an MME or another core network device, such as an SGW.
- the specific form is not limited herein, as long as the effective guaranteed data can be not lost.
- the MME is taken as an example, and the duration of the first timer is 10 seconds.
- the downlink data sent by the MME to the source base station is data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5, and the MME saves the five data packets, and The first timer is started.
- the target base station sends a first indication message to the core network device, where the first indication message is used to indicate that the terminal completes the cell change.
- the target base station After the terminal connects to the target base station, the target base station sends a first indication message to the core network device to notify the core network device that the terminal has completed the cell change.
- the terminal may further carry the reason for the terminal to connect with the target base station, for example, may indicate that the current connection is caused by the cell reselection, and may also indicate that the current connection is caused. If the network is interrupted, the data needs to be reconnected. The reason for the current connection is the cell change. The specific reason is not limited here. Specifically, since there are two data transmission schemes in the NB-IOT, one is based on the control plane transmission scheme, and the other is based on the user plane transmission scheme.
- the RRC connection setup request may be initiated, and the cell reselection or other cause value is carried.
- the base station After receiving the connection request, the base station sends an RRC connection setup message to the terminal, and the terminal replies to the RRC connection establishment. Complete the message to the base station.
- the terminal may send an RRC connection re-establishment request carrying area reselection or other reason value.
- the base station After receiving the connection establishment request, the base station sends an RRC connection re-establishment message to the terminal, and the terminal returns an RRC connection re-establishment completion message to the base station.
- the base station After the base station establishes an RRC connection with the terminal, the base station sends an initial UE message or a path switch message to the core network device, and the message also carries the cause value of the connection establishment. Then the core network knows the reason for the specific connection.
- the terminal may notify the NAS layer, and the NAS layer makes a decision to resume the connection.
- the terminal sends an RRC connection setup request to the target base station, and carries a cause value indicating that the connection is established this time because an acknowledgement message or other reason needs to be received from the core network side.
- the target base station may send this message to the core network through the initial UE message. The core network thus knows why the connection was established.
- the terminal carries the cause value as the MT when sending the RRC connection setup request, and adds a cell to the service request message when the RRC connection setup request is sent, indicating the reason for the establishment, and then using the base station.
- the initial UE message is sent to the core network. The core network thus knows why the connection was established.
- the terminal initiates a tracking area update process.
- the terminal when the terminal performs random access with the target base station, the terminal can obtain the configuration of the non-anchor carrier through specific dedicated signaling or system broadcast.
- the dedicated signaling may be a message such as an RRC Connection Reconfiguration or an RRC Connection release
- the system message may be a system message such as an SIB1 or an SIB2, and the specific situation is not limited herein.
- the configuration of the access resource includes: the duration of the random access resource, the start time of the random access resource, the carrier offset of the random access resource, the number of subcarriers of the random access resource, and the random access resource message 3
- the starting position of the subcarrier, the maximum number of preamble attempts, the number of repetitions of each preamble, the number of corresponding NPDCCH repetitions of the random access response, the starting position of the downlink control channel search space corresponding to the random access response, and the random access response Corresponding information such as the offset of the downlink control channel.
- the configuration of the non-anchor carrier corresponds to the control information of the random access response, and may include a corresponding NPDCCH repetition number of the random access response, a downlink control channel search space start position corresponding to the random access response, and a random access response corresponding to the random access response.
- Information such as the offset of the downlink control channel, and the specific case is not limited herein.
- the first indication message may be a message such as an Initial UE Message or a Path Switch sent by the target base station to the core network device.
- the specific message format is not limited here.
- the target base station does not send the first indication message to the core network device after the first timer expires, it indicates that the terminal fails to connect to the target base station or the terminal is running in the first timer. If the cell reselection is not performed, the core network device may delete the saved downlink data. For example, if the MME does not receive the message sent by the target base station indicating that the terminal has completed cell reselection after the MME saves the five data packets, the MME deletes the five data packets.
- the core network device sends the downlink data to the target base station.
- the core network device sends the saved downlink data to the target base station.
- the terminal in the process of establishing a connection between the terminal and the target base station, may also feed back the situation of receiving downlink data.
- the feedback that the terminal receives the downlink data may be as follows. For example, if the terminal has not completely received the downlink data, the feedback information is sent; if the terminal has completely received the downlink data, the feedback information is not sent. . Of course, the reverse is also true. If the terminal has not completely received the downlink data, no feedback information is sent; if the terminal has completely received the downlink data, the feedback information is sent.
- the feedback information may be carried in the RRC connection setup request signaling or the RRC connection setup complete signaling, and after receiving the feedback information, the target base station may further carry the feedback information in the initialization sent to the core network device.
- the core network device In the terminal information Initial UE Message or the data path switching Path Switch, the core network device is notified, and the terminal has completely received the downlink data or the terminal has not completely received the downlink data. If the feedback information refers to If the terminal has completely received the downlink data, the core network device may delete the downlink data; if the feedback information indicates that the terminal has not completely received the downlink data, the core network device passes the downlink data again.
- the target base station sends the downlink data to the terminal.
- the specific feedback method and the way to send feedback information are not limited here.
- the terminal can determine whether the five data packets are received by the terminal, and if the terminal completely receives the data of the data packet 1, the data packet 2, the data packet 3, the data packet 4, and the data packet 5 The packet can be sent back to the core network device by the target base station, and the terminal network has completely received the five data packets, and the core network device does not need to send the five data to the terminal through the target base station. If the terminal determines that it only receives three data packets: data packet 1, data packet 2, and data packet 3, the terminal may feed back to the core network device through the target base station that the terminal does not completely receive five data packets.
- the terminal can delete the received data packet 1, the data packet 2, and the data packet 3, and then re-receive the core network device to send the data packet 1, the data packet 2, and the data packet 3 to the terminal through the target base station.
- the core network device sends only one NAS packet and the terminal does not receive the complete packet, it feeds back to the core network device, and deletes the intact NAS packet, and the core network device retransmits the NAS packet through the target base station.
- the terminal knows that the NAS packet can know which packet is received according to the sequence number of each data, and can feed back the packet sequence number during feedback, and can also feedback that several NAS packets are accepted in this connection, and the specific form is not limited.
- the target base station sends the downlink data to the terminal.
- the target base station forwards the downlink data to the terminal.
- the core network device saves the downlink data of the terminal, so that the terminal is in the terminal. After the source base station is handed over to the target base station, the core network device sends the saved downlink data to the terminal again, so that no downlink data is lost during the reselection process, thereby ensuring data continuity.
- the terminal performs cell change, and the core network device performs data transmission, and the source base station and the target base station are connected to different core network devices.
- Step 1401 is the same as step 1301, and details are not described herein again.
- the source base station sends a handover request to the source core network device, where the handover request includes information about the target base station and information of the target core network device.
- the source base station After the source base station performs the handover decision, the source base station sends a handover request to the source core network device, where the handover request includes information about the target base station and information of the target core network device.
- the handover request may be the HO Required signaling, and may also have other signaling representations.
- the specific signaling is not limited herein.
- the source core network device sends a data allocation request to the target core network device.
- the source core network device After receiving the handover request, the source core network device sends a data allocation request to the target core network device according to the information of the target core network device.
- the data allocation request may be a Forward Relocation Request signaling, or may be other signaling, which is not limited herein.
- the target core network device sends a handover request to the target base station.
- the target core network device After receiving the data allocation request, the target core network device sends a handover request to the target base station.
- the handover request may be the HO Required signaling, or may be represented by other signaling, and the specific signaling is not limited herein.
- the target base station sends a handover response to the target core network device.
- the target base station feeds back a handover response to the target core network device.
- the handover response may be an HO response information, or may be represented by other signaling, and specific signaling is not limited herein.
- the target core network device sends a data allocation response to the source core network device.
- the target core network device After the target core network device receives the handover response fed back by the target base station, the target core network device feeds back a data allocation response to the source core network device.
- the data allocation response may be Forward Relocation Response signaling, or may be other signaling, which is not limited herein.
- the source core network device sends a handover command to the source base station.
- the source core network device After receiving the data distribution response fed back by the target core network device, the source core network device notifies the source base station that the source base station can perform the handover.
- the handover command may be the HO command signaling or other signaling, which is not limited herein.
- the source core network device sends a request for creating a data transmission channel to the target core network device.
- the source core network device sends a request to create a data transmission channel to the target core network device.
- the request for creating a data transmission channel may be a Create Indirect data forwarding tunnel request, and specific signaling is not limited herein.
- the target core network device sends a response to create a data transmission channel to the source core network device.
- the target core network device After receiving the request for the creation of the data transmission channel by the source core network device, the target core network device feeds back a creation data transmission channel response to the source core network device to indicate that the target core network device agrees to establish The data transmission channel.
- the response of the created data transmission channel may be a Create Indirect data forwarding tunnel response, and specific signaling is not limited herein.
- the source core network device sends downlink data to the target core network device.
- the source core network device After the data transmission channel is established, the source core network device sends downlink data to the target core network device. For example, the source MME sends five data packets: data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5 to the target MME.
- the target core network device sends downlink data to the target base station.
- the target core network device After receiving the downlink data sent by the source core network device, the target core network device forwards the downlink data to the target base station. For example, in this embodiment, the target MME sends five data packets of data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5 to the target base station.
- the target base station sends downlink data to the terminal.
- the target base station After receiving the downlink data sent by the target core network device, the target base station sends the downlink data to the terminal.
- the terminal can also determine how the terminal is sent to the core network through the target base station. Upstream data of the device. After the terminal establishes a connection with the target base station, the terminal starts transmitting to the target base station from the first unreceived source base station to send an acknowledgment received data packet; when the terminal starts to establish a connection with the target base station, the source base station The data packets that have been received in order can be sent to the core network device.
- the source core network device saves the downlink data of the terminal, so that after the terminal is handed over to the target base station by the source base station, the source core network device resends the saved downlink data to the target core network device. Then, the target base station is sent to the terminal, so that no downlink data is lost during the reselection process, thereby ensuring data continuity.
- the terminal performs cell change, and the core network device performs data transmission, and the source base station and the target base station are connected to different core network devices.
- Steps 1501 to 1507 are the same as steps 1401 to 1407, and are not described herein again.
- the target core network device sends a context information and a data request to the source core network device.
- the target core network device may directly connect to the source core network.
- the device sends context information and a data request message.
- the context information and the data request message may be Context and Data Request, and specific signaling is not limited herein.
- the source core network device sends the context information and the data response to the target core network device and carries the downlink data.
- the source core network device After receiving the context information and the data request message, the source core network device sends a context information and a data response to the target core network device to indicate that the source core network device agrees.
- the context information and the downlink data are sent, and the downlink data and the context information are carried in the context information and the data response.
- the context information and the data response may be Context and Data Response, and specific signaling is not limited herein.
- Steps 1510 to 1511 are the same as steps 1411 to 1412, and are not described herein again.
- the source core network device saves the downlink data of the terminal, so that after the terminal is handed over to the target base station by the source base station, the source core network device resends the saved downlink data to the target core network device. And then sent to the terminal through the target base station, so as to ensure the reselection process There will be no downlink data loss, which will ensure the continuity of the data.
- the terminal performs cell change, and the core network device performs data transmission, and the source base station and the target base station are connected to the same core network device.
- the source base station sends a notification message to the core network device, where the notification message is used to indicate that the terminal is about to perform cell change.
- the source base station After the source base station performs the handover decision, the source base station sends a notification message to the core network device to notify the core network device that the terminal is about to perform cell change.
- the source base station may send an S1-AP message to notify the core network device, and the signaling name may be an HO indication or other signaling, which is not limited herein.
- the core network device stops sending downlink data to the source base station and starts a second timer.
- the core network device After the core network device learns that the terminal is about to perform cell change, the core network device starts a second timer, and the core network device stops sending downlink data to the source base station.
- the running time of the first timer is preset, and the specific duration is not limited herein.
- the MME stops sending five data packets of data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5 to the source base station.
- the target base station sends a first indication message to the core network device, where the first indication message is used to indicate that the terminal completes the cell change.
- the target base station After the terminal connects to the target base station, the target base station sends a first indication message to the core network device to notify the core network device that the terminal has completed the cell change.
- the first indication message may be a message such as an Initial UE Message or a Path Switch sent by the target base station to the core network device.
- the specific message format is not limited here.
- the target base station does not send the first indication message to the core network device after the second timer expires, it indicates that the terminal fails to connect to the target base station. At this time, the terminal will resume transmitting downlink data to the source base station. For example, after the MME does not receive the message sent by the target base station indicating that the terminal has completed cell reselection after the second timer expires, the MME will restart sending the data packet 1 to the source base station, the data packet. 2. Five packets of data packet 3, data packet 4, and data packet 5.
- the core network device sends downlink data to the target base station.
- the core network device After receiving the first indication information, the core network device sends the unsent downlink data to the destination. Standard base station.
- the target base station sends downlink data to the terminal.
- the target base station forwards the downlink data to the terminal.
- the source core network device after receiving the message that the terminal is about to perform cell change, the source core network device will suspend sending downlink data to the source base station, so that after the terminal is handed over to the target base station by the source base station, The source core network device retransmits the downlink data to the target core network device and then sends the downlink data to the terminal through the target base station, so that no downlink data is lost during the reselection process, thereby ensuring data continuity.
- the terminal performs cell change, and the core network device performs data transmission, and the source base station and the target base station are connected to different core network devices.
- the source base station sends a notification message to the source core network device, where the notification message is used to indicate that the terminal is about to perform cell change.
- the source base station After the source base station performs the change decision, the source base station sends a notification message to the source core network device to notify the source core network device that the terminal is about to perform cell change.
- the source base station may send an S1-AP message, for example, the UL NAS Transport notifies the source core network device, and the signaling name may be an HO indication or other signaling, which is not limited herein.
- the source core network device stops sending downlink data to the source base station and starts a second timer.
- the source core network device After the source core network device learns that the terminal is about to perform cell change, the source core network device starts a second timer, and the source core network device stops sending downlink data to the source base station.
- the running time of the first timer is preset, and the specific duration is not limited herein.
- the source MME stops sending five data packets of data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5 to the source base station.
- the target base station sends a notification instruction to the target core network device, where the notification instruction is used to indicate the
- the terminal has completed the cell change and notifies the target core network device to request data from the source core network device.
- the target base station After the terminal establishes a connection with the target base station, the target base station sends the notification instruction to the target core network device, where the notification instruction is used to indicate that the terminal has completed the cell change and notifies the target core network device that the source core needs to be sent to the source core.
- the network device requests the downlink data.
- the target base station may send the initial UE Massage to the target core network device, and the initial UE Massage carries a field or a cell to indicate that the target core network device needs to request the downlink data from the source core network device.
- the Initial UE massage can be used as the first instruction.
- the target base station may send an Initial UE Massage to the target MME, and carry a field 1100 for the target MME to request the data packet 1, the data packet 2, and the data to the source MME. Five packets of packet 3, packet 4 and packet 5.
- the target core network device sends a request for creating a data transmission channel to the source core network device.
- the target core network device sends a request to create a data transmission channel to the source core network device.
- the request for creating a data transmission channel may be a create data forwarding tunnel request, and specific signaling is not limited herein.
- the source core network device sends a response to create a data transmission channel to the target core network device.
- the source core network device After receiving the request for the creation of the data transmission channel by the target core network device, the source core network device sends a response to the target core network device to create a data transmission channel response, which is used to indicate that the source core network device agrees to establish The data transmission channel.
- the response of the created data transmission channel may be a create data forwarding tunnel response, and specific signaling is not limited herein.
- the source core network device sends downlink data to the target core network device.
- the source core network device After the data transmission channel is established, the source core network device sends downlink data to the target core network device. For example, the source MME sends five data packets: data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5 to the target MME.
- the target core network device sends downlink data to the target base station.
- the target core network device After receiving the downlink data sent by the source core network device, the target core network device forwards the downlink data to the target base station. For example, in this embodiment, the target MME sends five data packets of data packet 1, data packet 2, data packet 3, data packet 4, and data packet 5 to the target base station.
- the target base station sends downlink data to the terminal.
- the target base station After receiving the downlink data sent by the target core network device, the target base station sends the downlink data to the terminal.
- the target core network device may first send a cell change completion indication, and then trigger the source core network device to send a create data channel or send data and a context request message, and receive response information of the target core network device. Data can be sent in the request or sent after receiving the response.
- the source core network device after receiving the message that the terminal is about to perform cell change, the source core network device will suspend sending downlink data to the source base station, so that after the terminal is handed over to the target base station by the source base station, The source core network device retransmits the downlink data to the target core network device and then sends the downlink data to the terminal through the target base station, so that no downlink data is lost during the reselection process, thereby ensuring data continuity.
- the terminal performs cell change, data transmission is performed by the core network device, and the source base station and the target base station are connected to different core network devices.
- Steps 1801 to 1804 are the same as steps 1701 to 1704, and are not described herein again.
- the source core network device sends a response to the target core network device to create a data transmission channel and carries the downlink data.
- the source core network device After receiving the request for the creation of the data transmission channel by the target core network device, the source core network device sends a response to the target core network device to create a data transmission channel response, which is used to indicate that the source core network device agrees to establish
- the data transmission channel carries the downlink data in the create data transmission channel response.
- the response of the created data transmission channel may be a create data forwarding tunnel response, and specific signaling is not limited herein.
- Step 1806 to step 1807 are the same as steps 1707 to 1708, and are not described herein again.
- the source core network device receives a message that the terminal is about to perform a cell change. After that, the source core network device will suspend sending downlink data to the source base station, so after the terminal is handed over to the target base station by the source base station, the source core network device retransmits the downlink data to the target core network device and then through the target base station. It is sent to the terminal, which ensures that no downlink data will be lost during the reselection process, thus ensuring the continuity of the data.
- the terminal performs cell change, and the core network device performs data transmission, and the source base station and the target base station are connected to different core network devices.
- Steps 1901 to 1903 are the same as steps 1701 to 1703, and are not described herein again.
- the target core network device sends a context information and a data request to the source core network device.
- the target core network device may directly connect to the source core network.
- the device sends context information and a data request message.
- the context information and the data request message may be Context and Data Request, and specific signaling is not limited herein.
- the source core network device sends the context information and the data response to the target core network device and carries the downlink data.
- the source core network device After receiving the context information and the data request message, the source core network device sends a context information and a data response to the target core network device to indicate that the source core network device agrees.
- the context information and the downlink data are sent, and the downlink data and the context information are carried in the context information and the data response.
- the context information and the data response may be Context and Data Response, and specific signaling is not limited herein.
- Steps 1906 to 1907 are the same as steps 1707 to 1708, and are not described herein again.
- the source core network device after receiving the message that the terminal is about to perform cell change, the source core network device will suspend sending downlink data to the source base station, so that after the terminal is handed over to the target base station by the source base station, The source core network device retransmits the downlink data to the target core network device and then sends the downlink data to the terminal through the target base station, so that no downlink data is lost during the reselection process, thereby ensuring data continuity.
- the terminal performs cell change, and the core network device performs data transmission, and the source base station and the target base station are connected to the same core network device.
- Step 2001 is the same as step 1601, and details are not described herein again.
- the core network device sends downlink data to the source base station, and sends downlink data to the target base station, and starts a third timer.
- the core network device may start a third timer, and the core network device may send downlink data to the target base station by using the S1 interface. And maintaining the core network device to send downlink data to the source base station through the S1 interface.
- the source base station sends downlink data to the terminal
- the target base station sends downlink data to the terminal.
- the target base station After receiving the downlink data sent by the core network device, the target base station may send the downlink data to the terminal after establishing a connection with the terminal; and the source base station may keep the connection with the terminal.
- the downlink data is sent to the terminal.
- the core network device uses the above manner to transmit data, if the terminal has received the NAS PDU but the source base station does not receive the acknowledgement information fed back by the terminal, then if the target base station sends the NAS PDU again, The terminal received two NAS PDUs. Since the NAS PDU has no sequence number, the terminal can resolve the NAS PDU through the NAS count at the NAS layer, that is, when the same NAS count is found, the data packet corresponding to the NAS count is deleted.
- the target base station sends a first indication message to the core network device, where the first indication message indicates that the terminal completes the cell change.
- the target base station After the terminal connects to the target base station, the target base station sends a first indication message to the core network device to notify the core network device that the terminal has completed the cell change.
- the first indication message may be a message such as an Initial UE Message or a Path Switch sent by the target base station to the core network device.
- the specific message format is not limited here.
- the target base station if the target base station does not send the first indication message to the core network device after the third timer expires, it indicates that the terminal fails to connect to the target base station.
- the core network device may stop transmitting the downlink data to the target base station while maintaining the action of the core network device transmitting downlink data to the source base station.
- the core network device stops sending downlink data to the source base station.
- the core network device After the core network device learns that the terminal has completed the cell change, the core network device stops sending the downlink data to the source base station.
- the source base station if the source base station further has uplink data sent by the terminal, the source base station continues to send the sequentially received data to the core network device, and other out-of-order and unacknowledged data packets are discarded. At the same time, after the terminal establishes a connection with the target base station, the terminal will transmit the first unreceived data to the target base station.
- the core network device after receiving the message that the terminal is about to perform the cell change, the core network device sends the downlink data to the source base station and the downlink data to the target base station, so that the reselection process is not guaranteed. Downstream data will be lost, thus ensuring the continuity of the data.
- the terminal performs cell change, data transmission is performed by the core network device, and the source base station and the target base station are connected to different core network devices.
- Step 2101 is the same as step 1701, and details are not described herein again.
- the source core network device sends downlink data to the source base station, and sends downlink data to the target base station, and starts a third timer.
- the source core network device may start a third timer, and the source core network device may use the S1 interface to the target base station. Sending downlink data, and maintaining the source core network device to send downlink data to the source base station through the S1 interface.
- the source base station sends downlink data to the terminal, and the target base station sends downlink data to the terminal.
- the target base station may send the downlink data to the terminal after establishing a connection with the terminal; and the source base station may keep the connection with the terminal.
- the downlink data is sent to the terminal.
- the source core network device uses the above manner to transmit data, if the terminal has received the NAS PDU but the source base station does not receive the acknowledgement information fed back by the terminal, then if the target base station sends the NAS PDU again, That is, the terminal has received two NAS PDUs. Since the NAS PDU has no sequence number, the terminal can resolve the NAS PDU through the NAS count at the NAS layer, that is, when the same NAS count is found, the data packet corresponding to the NAS count is deleted.
- the target base station sends a notification instruction to the target core network device, where the notification instruction is used to indicate that the terminal has completed the cell change.
- the target base station After the terminal connects to the target base station, the target base station sends a first indication message to the target core network device to notify the target core network device that the terminal has completed the cell change.
- the notification command may be a message such as an Initial UE Message or a Path Switch sent by the target base station to the target core network device.
- the specific message format is not limited here.
- the target core network device sends a notification message to the source core network device, where the notification message is used to indicate that the terminal has completed the cell change.
- the target core network device After the target core network device learns that the terminal has completed the cell change, the target core network device sends a notification message to the source core network device indicating that the terminal has completed the cell change.
- the target base station does not send the notification command to the target core network device after the third timer expires, it indicates that the terminal fails to connect to the target base station.
- the target core network device does not send the notification message to the source core network device, so that the source core network device can stop sending the downlink data to the target base station, and maintain the source core network device to send downlink data to the source base station. Actions.
- the source core network device stops sending downlink data to the source base station, and stops sending downlink data to the target base station.
- the source core network device After the source core network device learns that the terminal has completed the cell change, the source core network device stops transmitting the downlink data to the source base station, and stops sending downlink data to the target base station.
- the source base station if the source base station further has uplink data sent by the terminal, the source base station continues to send the sequentially received data to the core network device, and other out-of-order and unacknowledged data packets are discarded. At the same time, after the terminal establishes a connection with the target base station, the terminal will transmit the first unreceived data to the target base station.
- the source core network device after receiving the message that the terminal is about to perform cell change, the source core network device sends the downlink data to the source base station and the downlink data to the target base station, so that the reselection process can be guaranteed. There will be no downlink data loss, which will ensure the continuity of the data.
- the terminal performs cell change, and data transmission is performed by the base station side.
- the source base station sends a handover request to the target base station.
- the source base station After the source base station completes the handover decision, the source base station sends a handover request to the target base station.
- the target base station sends a handover confirmation message to the source base station.
- the target base station may send a handover confirmation message to the source base station.
- the handover signal will be used between the target base station and the source base station.
- the source base station sends downlink data to the target base station.
- the source base station transmits downlink data to the target base station through an X2 interface between the base stations.
- the target base station and the source base station may add a cell to the handover request for forwarding data, and the cell name may be data forwarding.
- the cell name may be DL data forwarding; or the source base station sends a handover request to the target base station
- a handover request is added, a cell for indicating that data is to be sent to the target core network device is added to the handover request, and after receiving the handover confirmation message sent by the target base station, the source base station sends another Transmitting data signaling to the target base station, where the signaling includes that the cell may be a data forwarding for NAS PDU; or the target base station establishes an X2 bearer corresponding to the SRB1, and establishes a new E-RAB corresponding to an EPS bearer, And a tunnel for carrying the data
- the target base station After the tunnel is established, the target base station sends the corresponding tunnel address to the source base station, so that the source base station forwards the data to the target base station through the tunnel.
- the source base station can send downlink data to the target base station in multiple manners, which is not limited herein.
- the target base station sends downlink data to the terminal.
- the target base station sends downlink data acquired by the source base station to the terminal.
- the target base station ensures that the data acquired from the source base station can be sequentially transmitted, and after the target base station acquires the data from the source base station, performs signaling interaction with the target core network device to receive downlink data, or the target base station first. After the downlink data acquired from the source base station is sent, the downlink data sent by the target core network device is received.
- the specific method is not limited herein.
- data transmission between the source base station and the target base station ensures that no downlink data is lost during the reselection process, thereby ensuring data continuity.
- the embodiment of the present application provides a method for acquiring a cell, including:
- the terminal When the terminal is in a connected state with the current source serving cell, the terminal acquires a first quality parameter of the current source serving cell.
- the terminal When the terminal is in a connected state with the current source serving cell, the terminal may acquire the first quality parameter of the current source serving cell in real time.
- the first quality parameter may be a reference signal receiving quality or a reference signal receiving power, and the specific criterion is not limited herein.
- the terminal when the terminal is in a connected state with the current source service, that is, when the terminal has data or signaling interaction between the base station corresponding to the current source serving cell, the terminal may obtain the reference signal of the current source serving cell.
- the received power or reference signal reception quality determines a first quality parameter of the current source serving cell.
- the terminal determines whether the first quality parameter is lower than the first preset threshold. If yes, step 2303 to step 2305 are performed. If not, step 2306 is performed.
- the terminal determines whether the first quality parameter is lower than the first preset threshold. If the terminal is lower than the first preset threshold, the terminal performs step 2303 to step 2305. Not lower than the first preset threshold, the terminal performs step 2306.
- the terminal in the connection state may be preset with a threshold for determining whether the quality parameter of the current source serving cell satisfies the service of the terminal in the current source serving cell, and the terminal acquires the current source serving cell. The quality parameter is then compared to the threshold.
- the terminal acquires a measurement cell set.
- the terminal determines the cell that it can measure and generates a set of measurement cells.
- the terminal may use, as a measurement cell, a cell whose quality parameter is greater than or equal to a preset threshold, and may be used as a measurement cell in the preset time period of the terminal;
- the cell in the cell list in the broadcast message sent by the base station connected to the terminal may be used as the measurement cell or the cell list.
- the cell related to the IF point information is used as the measurement cell.
- the specific mode is not limited herein, as long as the terminal can obtain a suitable measurement cell set.
- the terminal obtains the broadcast message, which may be obtained in the idle state or in the connected state, which is not limited herein.
- the terminal measures 20 cells in an idle state, wherein the quality parameters of the cell A, the cell B, and the cell C are greater than a preset threshold 80; and the cell connected by the terminal in the last 2 days has a cell D, a cell E, and a cell F.
- the cell whose quality parameter is greater than 80 measured by the terminal in the last 2 days has a cell G, a cell H; the cell in the cell list in the broadcast message sent by the terminal received by the terminal has a cell A to a cell H; the terminal receives Sent to the base station
- the cell related to the frequency point information in the broadcast message includes cell B, cell C, cell D, and cell E.
- the set of measurement cells determined by the terminal includes at least one of the cell A to the cell H.
- the number of measurement cells of the measurement cell set determined by the terminal is less than the number of cells in the cell list or the number of cells related to the frequency information
- the terminal performs measurement on each measurement cell in the measurement cell set to obtain a second quality parameter set.
- the terminal performs measurement on each measurement cell in the measurement cell set one by one to obtain a second quality parameter of each measurement cell, and generates a second quality parameter set by using each of the second quality parameters.
- the terminal can measure each measurement cell in the following manners:
- a possible implementation manner is: the terminal uses the at least one measurement mode of the same frequency measurement, the inter-frequency measurement, and the different system measurement to measure the reference signal received power of the measurement cell to obtain the second quality parameter;
- the terminal uses the at least one measurement mode of the same frequency measurement, the inter-frequency measurement, and the different system measurement to measure the reference signal reception quality of the measurement cell to obtain the second quality parameter.
- the terminal determines a target serving cell according to the second quality parameter set.
- the terminal determines the target serving cell from the set of measured cells according to each second quality parameter in the second quality parameter set.
- the terminal may use the measured cell whose second quality parameter is greater than the preset threshold as the target serving cell or the terminal that selects the best measured cell of the second quality parameter as the target serving cell.
- the measurement cell set determined by the terminal includes a cell A, a cell B, a cell D, and a cell E.
- the second quality parameter of the cell A is 87, and the second quality parameter of the cell B is 85.
- the second quality parameter is 75, the second quality parameter of the cell E is 81, and the preset threshold is 85.
- the terminal may use the cell A and the cell B as the target serving cell or the cell A as the target serving cell.
- the terminal After measuring the measurement cell and the serving cell, the terminal obtains the first quality parameter and the second quality parameter, and may also determine the target cell according to a cell reselection rule, such as a ranking mechanism or a priority mechanism. For example, each cell or a frequency-related cell may add a compensation value or an offset according to a specific supported service when the cell is reselected, and the compensation value or the offset may be related to each cell or each frequency point.
- the default value set by the cell and the terminal is set in advance, or the terminal may obtain the compensation value or the offset by receiving the system message broadcasted by the base station, or the terminal may also obtain the compensation value or offset by receiving the dedicated signaling. the amount.
- the terminal may preferentially select a cell supporting the target service when the terminal performs the target service and performs cell reselection.
- the cell A supports the SC-PTM service
- the compensation value or the offset value of the SC-PTM service is broadcasted in the system broadcast.
- the UE uses the ranking mechanism when performing cell reselection, and the UE adds when calculating the cell.
- the compensation value or offset is such that the terminal can select the cell A.
- the terminal supporting the SC-PTM if the current cell does not support the SC-PTM service, even if the current serving cell signal quality or level does not trigger measurement or reselection, a certain cell or frequency is known through system broadcast or other means. If the point supports SC-PTM, the measurement is triggered, the ranking is performed and reselected, or the target cell or the cell of the frequency point is directly measured, and if the threshold requirement is met, the reselection is performed.
- a UE supporting the SC-PTM if the system broadcasts or otherwise knows that a certain cell or frequency point supports the SC-PTM, trigger the measurement and use the cell reselection rule to perform cell reselection, or directly measure the The cell of the target cell or frequency point is reselected to the cell if the threshold satisfies the reselection or the camping threshold. Or find a cell that supports the service and reselect it to the cell.
- the terminal sends the information of the target serving cell to the base station.
- the terminal After determining the target serving cell, the terminal sends the index or ID of the target serving cell to the base station to which the terminal is currently connected. For example, in this embodiment, the terminal may send the index or cell ID of the cell A to the base station, or the terminal may send the index or cell ID of the cell A and the cell B to the base station.
- the terminal does not trigger measurement.
- the terminal maintains the connection of the current source serving cell and does not perform cell measurement.
- the terminal itself determines the target serving cell, and no longer reports information such as measurement data to the base station, thereby reducing power consumption of the terminal.
- the data processing method in the embodiment of the present application is described above.
- the base station and the core network device in the embodiment of the present application are described below.
- an embodiment of a core network device in the embodiment of the present application includes:
- the receiving module 2401 is configured to obtain a first indication message, where the first indication message is used to indicate the end Ending the cell change or completing the cell reselection by the terminal;
- the sending module 2402 is configured to send downlink data to the target base station, where the target base station is a base station that is connected after the terminal completes the cell change or completes the cell reselection.
- the core network device further includes a processing module 2403, where the processing module 2403 is configured to save the downlink data and start a first timer, where the downlink data is downlink data sent by the core network device to the source base station, the source.
- the base station is a base station that is connected before the cell completes the cell change or completes cell reselection;
- the receiving module 2401 is further configured to obtain the first indication message after the first timer does not time out.
- the processing module 2403 is further configured to delete the saved downlink data if the first timer expires and the receiving module does not obtain the first indication message.
- the receiving module 2401 is further configured to receive feedback information of the terminal, in combination with the foregoing embodiment.
- the processing module 2403 is further configured to: if the feedback information indicates that the terminal has completely received the downlink data, delete the downlink data; if the feedback information indicates that the terminal does not completely receive the downlink data, trigger the downlink data to be sent to The target base station.
- the receiving module 2401 is further configured to receive indication signaling, where the indication signaling is used to indicate that the terminal performs cell reselection or the terminal performs cell change;
- the processing module 2403 is further configured to stop sending the downlink data to the source base station, and start a second timer, where the downlink data is downlink data sent by the core network device to the source base station;
- the receiving module 2401 is further configured to acquire the first indication message when the second timer does not time out.
- the processing module 2403 is further configured to resume to send downlink data to the source base station if the second timer expires and the receiving module does not obtain the first indication message.
- the receiving module 2401 is further configured to receive the indication signaling, in combination with the foregoing embodiment.
- the sending module 2402 is further configured to start sending the downlink data to the target base station, and keep sending the downlink data to the source base station, where the downlink data is downlink data sent by the core network device to the source base station;
- the processing module 2403 is further configured to start a third timer.
- the receiving module 2401 is further configured to acquire the first indication message when the third timer does not time out;
- the sending module 2402 is further configured to send downlink data to the target base station and stop to the source base station. Send the downlink data.
- the processing module 2403 is further configured to delete the saved downlink data if the first timer expires and the receiving module does not obtain the first indication message.
- the receiving module 2401 is further configured to receive feedback information of the terminal, in combination with the foregoing embodiment.
- the processing module 2403 is further configured to: if the feedback information indicates that the terminal has completely received the downlink data, delete the downlink data; if the feedback information indicates that the terminal does not completely receive the downlink data, trigger the downlink data to be sent to The target base station.
- the processing module 2403 is further configured to stop sending the downlink data to the target base station if the first indication message is not obtained after the third timer expires.
- server in FIG. 24 can also be used to perform any step performed by the core network device of any one of FIG. 1 to FIG. 22, and implement any function that can be implemented by the core network device of any one of FIG. 1 to FIG. .
- the sending module 2402 after receiving the message indicating that the terminal completes cell reselection or cell change, the sending module 2402 sends the downlink data to the target base station, which can effectively ensure that the terminal accesses the target base station after receiving the message. It can completely receive the downlink data that is not completely received before the handover or before the reselection, that is, effectively ensure that the downlink data of the terminal is not lost, thereby ensuring the mobility of the terminal in the connected state.
- another embodiment of the core network device in the embodiment of the present application includes:
- the transceiver 2501 and the processor 2502; the transceiver 2501 and the processor 2502 are connected to each other through a bus 2503;
- the bus 2503 may be a peripheral component interconnect (PCI) bus or an extended industry standard architecture (EISA) bus.
- PCI peripheral component interconnect
- EISA extended industry standard architecture
- the bus can be divided into an address bus, a data bus, a control bus, and the like. For ease of representation, only one thick line is shown in Figure 25, but it does not mean that there is only one bus or one type of bus.
- the processor 2502 may be a central processing unit (CPU), a network processor (NP) or a combination of a CPU and an NP.
- CPU central processing unit
- NP network processor
- the processor 2502 may further include a hardware chip.
- the above hardware chip may be an application-specific integrated circuit (ASIC), a programmable logic device. (programmable logic device, PLD for short) or a combination thereof.
- the PLD may be a complex programmable logic device (CPLD), a field-programmable gate array (FPGA), a general array logic (GAL) or any combination.
- the core network device may further include a memory 2504 for storing downlink data.
- the memory 2504 may include a volatile memory, such as a random access memory (random-access memory).
- the memory may also include a non-volatile memory such as a flash memory, a hard disk drive (HDD) or a solid-state drive (SSD).
- the memory 2504 may also include a combination of the above types of memories.
- the memory 2504 can also be used to store program instructions, and the processor 2502 can call the program instructions stored in the memory 2504, and can perform one or more steps in the embodiment shown in any one of FIG. 1 to FIG. Or an optional implementation manner, the function of implementing the behavior of the core network device in the foregoing method.
- the transceiver 2501 corresponds to the receiving module 2401 and the sending module 2402 in the core network device, and the transceiver 2501 performs the steps of performing core data transmission and signaling in the core network device in the foregoing embodiment.
- the processor 2502 corresponding to the processing module 2403 in the core network device, executes the steps performed by the core network device processing module 2403 in the foregoing embodiment.
- the transceiver 2501 after receiving the message indicating that the terminal completes the cell reselection or the cell change, the transceiver 2501 sends the downlink data to the target base station, which can effectively ensure that the terminal accesses the target base station. It can completely receive the downlink data that is not completely received before the handover or before the reselection, that is, effectively ensure that the downlink data of the terminal is not lost, thereby ensuring the mobility of the terminal in the connected state.
- an embodiment of a base station in this embodiment of the present application includes:
- the receiving module 2601 is configured to obtain a second indication message, where the second indication message is used to indicate that the terminal starts to perform a cell change, or the terminal starts to perform cell reselection, where the source base station is before the terminal performs cell reselection or the terminal is in the terminal Completing the base station corresponding to the source serving cell where the cell change is completed;
- the sending module 2602 is configured to send downlink data to the target base station, so that the target base station will The downlink data is sent to the terminal, where the target base station is a base station corresponding to the target serving cell after the cell completes cell reselection or cell change.
- the second indication message indicates that the terminal completes cell reselection
- the receiving module 2601 is further configured to receive a data transmission indication message or a radio link failure indication message sent by the target base station;
- the sending module 2602 is further configured to send a first request message to the target base station;
- the receiving module 2601 is further configured to receive the first response message fed back by the target base station as the second indication message.
- the second indication message indicates that the terminal starts performing cell change
- the sending module 2602 is further configured to send a second request message to the target base station;
- the receiving module 2601 is further configured to receive a second response message fed back by the target base station as the second indication message.
- the sending module 2602 is further configured to send the downlink data to the target base station by using an interconnection interface X2 between the base stations.
- the base station in FIG. 26 may also be used to perform any of the steps performed by the base station of any of FIGS. 1 through 22 to implement any of the functions that the base station of any of FIGS. 1 through 22 can implement.
- the sending module 2602 after receiving the message indicating that the terminal completes cell reselection or cell change, the sending module 2602 sends the downlink data to the target base station, which can effectively ensure that the terminal accesses the target base station. It can completely receive the downlink data that is not completely received before the handover or before the reselection, that is, effectively ensure that the downlink data of the terminal is not lost, thereby ensuring the mobility of the terminal in the connected state.
- another embodiment of a base station in this embodiment of the present application includes:
- transceiver 2701 and a processor 2702 are connected to each other by a bus 2703;
- the bus 2703 may be a PCI bus or an EISA bus or the like.
- the bus can be divided into an address bus, a data bus, a control bus, and the like. For ease of representation, only one thick line is shown in Figure 27, but it does not mean that there is only one bus or one type of bus.
- the processor 2702 can be a CPU, an NP or a combination of a CPU and an NP.
- the processor 2702 may further include a hardware chip.
- the above hardware chip may be an ASIC, a PLD, or a combination thereof.
- the above PLD may be a CPLD, an FPGA, a GAL, or any combination thereof.
- the base station may further include a memory 2704; the memory 2704 may include a volatile memory such as a RAM; the memory may also include a non-volatile memory such as a flash. A flash memory, HDD or SSD; the memory 2704 may also include a combination of the above types of memories.
- the memory 2704 can also be used to store program instructions, and the processor 2702 can call the program instructions stored in the memory 2704 to perform one or more steps in the embodiment shown in any one of FIG. 1 to FIG. Or an optional implementation thereof, the function of implementing the behavior of the base station in the above method.
- the transceiver 2701 performs the steps of the base station transmitting and receiving data in the steps in the foregoing embodiments.
- the processor 2702 performs the steps of the base station processing data in the steps in the above embodiments.
- the transceiver 2701 after receiving the message indicating that the terminal completes the cell reselection or the cell replacement, the transceiver 2701 sends the downlink data to the target base station, which can effectively ensure that the terminal accesses the target base station. It can completely receive the downlink data that is not completely received before the handover or before the reselection, that is, effectively ensure that the downlink data of the terminal is not lost, thereby ensuring the mobility of the terminal in the connected state.
- the disclosed system, apparatus, and method 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 mutual coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or unit, and may be in an electrical, mechanical or other form.
- 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 application may be integrated into one processing unit, or each unit may exist physically 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 a software functional unit.
- the integrated unit if implemented in the form of a software functional unit and sold or used as a standalone product, may be stored in a computer readable storage medium.
- a computer readable storage medium A number of instructions are included to cause a computer device (which may be a personal computer, server, or network device, etc.) to perform all or part of the steps of the methods described in various embodiments of the present application.
- 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. .
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Abstract
Description
Claims (44)
- 一种数据处理方法,其特征在于,所述方法应用于窄带物联网,包括:核心网设备获取第一指示消息,所述第一指示消息用于指示终端完成小区变更或所述终端完成小区重选;核心网设备将下行数据发送给目标基站,所述目标基站为所述终端完成小区变更或完成小区重选之后连接的基站。
- 根据权利要求1所述的方法,其特征在于,核心网设备获取第一指示消息之前,所述方法还包括:所述核心网设备保存所述下行数据并启动第一定时器,所述下行数据为所述核心网设备向源基站发送的下行数据,所述源基站为所述终端完成小区切换或完成小区重选之前连接的基站;核心网设备获取第一指示消息包括:在所述第一定时器运行期间,所述核心网设备获取所述第一指示消息。
- 根据权利要求2所述的方法,其特征在于,所述核心网设备保存所述下行数据并启动第一定时器之后,所述方法还包括:若所述第一定时器超时且所述核心网设备未获取到所述第一指示消息,则所述核心网设备将保存的所述下行数据删除。
- 根据权利要求2所述的方法,其特征在于,所述核心网设备将下行数据发送给目标基站之前,所述方法还包括:所述核心网设备接收所述终端的反馈信息;若所述反馈信息指示所述终端未完整接收所述下行数据,则触发所述核心网设备将所述下行数据发送给所述目标基站。
- 根据权利要求1至4中任一项所述的方法,所述第一指示消息可以是初始终端上下文消息Initial UE Message或路径转换信息Path Switch等消息。
- 根据权利要求1所述的方法,其特征在于,核心网设备获取第一指示消息之前,所述方法还包括:所述核心网设备接收指示信令,所述指示信令用于指示所述终端将执行小区重选或所述终端将执行小区变更;所述核心网设备停止向所述源基站发送所述下行数据,并启动第二定时 器,所述下行数据为所述核心网设备向所述源基站发送的下行数据;核心网设备获取第一指示消息包括:在所述第二定时器运行期间内,所述核心网设备获取所述第一指示消息。
- 根据权利要求6所述的方法,其特征在于,所述核心网设备停止向所述源基站发送所述下行数据,并启动第二定时器之后,所述方法还包括:若所述第二定时器超时且所述核心网设备未获取到所述第一指示消息,则所述核心网设备开始恢复向所述源基站发送下行数据。
- 根据权利要求1所述的方法,其特征在于,核心网设备获取第一指示消息之前,所述方法还包括:所述核心网设备接收所述指示信令;所述核心网设备开始向所述目标基站发送所述下行数据,并保持向所述源基站发送所述下行数据,并启动第三定时器,所述下行数据为所述核心网设备向源基站发送的下行数据;核心网设备获取第一指示消息包括:在所述第三定时器运行期间内,所述核心网设备获取所述第一指示消息;核心网设备将下行数据发送给目标基站包括:所述核心网设备向所述目标基站发送下行数据并停止向所述源基站发送所述下行数据。
- 根据权利要求8所述的方法,其特征在于,所述核心网设备开始向所述目标基站发送所述下行数据,并保持向所述源基站发送所述下行数据,并启动第三定时器之后,所述方法还包括:若所述核心网设备在所述第三定时器超时后未获取到所述第一指示消息,则所述核心网设备停止向所述目标基站发送所述下行数据。
- 根据权利要求1所述的方法,其特征在于,所述核心网设备为移动性管理网元MME。
- 根据权利要求6至8中任一项所述的方法,所述第一指示消息为上行非接入层消息传输UL NAS Transport或其他S1-AP消息。
- 一种数据处理方法,其特征在于,所述方法应用于窄带物联网,包括:源基站获取第二指示消息,所述第二指示消息用于指示终端开始执行小区 切换或所述终端开始执行小区重选,所述源基站为所述终端在完成小区重选之前或所述终端在完成小区切换前所处的源服务小区对应的基站;所述源基站将下行数据发送给目标基站,以使得所述目标基站将所述下行数据发送给所述终端,所述目标基站为所述终端完成小区重选或小区切换后所述的目标服务小区对应的基站。
- 根据权利要求12所述的方法,其特征在于,所述第二指示消息指示所述终端完成小区重选;源基站获取第二指示消息包括:所述源基站接收所述目标基站发送的小区重选或小区变更指示或无线链路失败指示消息;所述源基站向所述目标基站发送第一请求消息;所述源基站接收所述目标基站反馈的第一响应消息作为所述第二指示消息。
- 根据权利要求13所述的方法,其特征在于,所述第一请求消息为切换请求消息,所述第一响应消息为切换确认消息。
- 根据权利要求13所述的方法,其特征在于,所述第一请求消息为互连接口应用协议X2-AP消息,所述第一响应消息为X2-AP消息。
- 根据权利要求12所述的方法,其特征在于,所述第二指示消息指示所述终端开始执行小区变更;源基站获取第二指示消息包括:所述源基站向所述目标基站发送第二请求消息;所述源基站接收所述目标基站反馈的第二响应消息作为所述第二指示消息。
- 根据权利要求16所述的方法,其特征在于,所述第二请求消息为切换请求消息,所述第二响应消息为切换确认消息。
- 根据权利要求16所述的方法,其特征在于,所述第二请求消息为X2-AP消息,所述第二响应消息为X2-AP消息。
- 根据权利要求12至18中任一项所述的方法,其特征在于,所述源基站将下行数据发送给所述目标基站包括:所述源基站通过基站之间的互连接口X2将所述下行数据发送给所述目标基站。
- 根据权利要求12至18中任一项所述的方法,其特征在于,所述下行数据为所述终端未反馈确认接收消息的下行非接入层数据NAS PDU或所述源基站未发送的所述终端的下行NAS PDU,所述下行数据由所述核心网设备发送给所述源基站时。
- 根据权利要求12至18中任一项所述的方法,所述第二指示消息为上行直传消息UL Information Transfer或其他无限资源控制RRC消息。
- 一种核心网设备,其特征在于,所述核心网设备应用于窄带物联网,包括:接收模块,用于获取第一指示消息,所述第一指示消息用于指示终端完成小区变更或所述终端完成小区重选;发送模块,用于将下行数据发送给目标基站,所述目标基站为所述终端完成小区变更或完成小区重选之后连接的基站。
- 根据权利要求22所述的核心网设备,其特征在于,所述核心网设备还包括:处理模块,用于保存所述下行数据并启动第一定时器,所述下行数据为所述核心网设备向源基站发送的下行数据,所述源基站为所述终端完成小区切换或完成小区重选之前连接的基站;所述接收模块,还用于在所述第一定时器运行期间,获取到所述第一指示消息。
- 根据权利要求23所述的核心网设备,其特征在于,所述处理模块,还用于若所述第一定时器超时且所述接收模块未获取到所述第一指示消息,则将保存的所述下行数据删除。
- 根据权利要求23所述的核心网设备,其特征在于,所述接收模块,还用于接收所述终端的反馈信息;所述处理模块,还用于若所述反馈信息指示所述终端未完整接收所述下行数据,则触发将所述下行数据发送给所述目标基站。
- 根据权利要求22至25中任一项所述的核心网设备,其特征在于,所述第一指示消息可以是初始终端上下文消息Initial UE Message或路径转换信 息Path Switch等消息。
- 根据权利要求22所述的核心网设备,其特征在于,所述接收模块,还用于接收指示信令,所述指示信令用于指示所述终端将执行小区重选或所述终端将执行小区变更;所述处理模块,还用于停止向所述源基站发送所述下行数据,并启动第二定时器,所述下行数据为所述核心网设备向所述源基站发送的下行数据;所述接收模块,还用于在所述第二定时器运行基站,获取所述第一指示消息。
- 根据权利要求27所述的核心网设备,其特征在于,所述处理模块,还用于若所述第二定时器超时且所述接收模块未获取到所述第一指示消息,则开始恢复向所述源基站发送下行数据。
- 根据权利要求22所述的核心网设备,其特征在于,所述接收模块,还用于接收所述指示信令;所述发送模块,还用于开始向所述目标基站发送所述下行数据,并保持向所述源基站发送所述下行数据,所述下行数据为所述核心网设备向源基站发送的下行数据;所述处理模块,还用于启动第三定时器;所述接收模块,还用于在所述第三定时器运行期间,获取所述第一指示消息;所述发送模块,还用于向所述目标基站发送下行数据并停止向所述源基站发送所述下行数据。
- 根据权利要求29所述的核心网设备,其特征在于,所述处理模块,还用于若在所述第三定时器超时后未获取到所述第一指示消息,则停止向所述目标基站发送所述下行数据。
- 根据权利要求22所述的核心网设备,其特征在于,所述核心网设备为MME。
- 根据权利要求27至29中任一项所述的核心网设备,其特征在于,所述第一指示消息为UL NAS Transport或其他S1-AP消息。
- 一种基站,其特征在于,所述基站应用于窄带物联网,包括:接收模块,用于获取第二指示消息,所述第二指示消息用于指示终端开始执行小区切换或所述终端开始执行小区重选,所述源基站为所述终端在完成小区重选之前或所述终端在完成小区切换前所处的源服务小区对应的基站;发送模块,用于将下行数据发送给目标基站,以使得所述目标基站将所述下行数据发送给所述终端,所述目标基站为所述终端完成小区重选或小区切换后所述的目标服务小区对应的基站。
- 根据权利要求33所述的基站,其特征在于,所述第二指示消息指示所述终端完成小区重选;所述接收模块,还用于接收所述目标基站发送的数据传输指示消息或无线链路失败指示消息;所述发送模块,还用于向所述目标基站发送第一请求消息;所述接收模块,还用于接收所述目标基站反馈的第一响应消息作为所述第二指示消息。
- 根据权利要求34所述的基站,其特征在于,所述第一请求消息为切换请求消息,所述第一响应消息为切换确认消息。
- 根据权利要求34所述的基站,其特征在于,所述第一请求消息为互连接口应用协议X2-AP消息,所述第一响应消息为X2-AP消息。
- 根据权利要求33所述的基站,其特征在于,所述第二指示消息指示所述终端开始执行小区变更;所述发送模块,还用于向所述目标基站发送第二请求消息;所述接收模块,还用于接收所述目标基站反馈的第二响应消息作为所述第二指示消息。
- 根据权利要求37所述的基站,其特征在于,所述第二请求消息为切换请求消息,所述第二响应消息为切换确认消息。
- 根据权利要求37所述的基站,其特征在于,所述第二请求消息为X2-AP消息,所述第二响应消息为X2-AP消息。
- 根据权利要求33至39中任一项所述的基站,其特征在于,所述发送模块,还用于通过基站之间的互连接口X2将所述下行数据发送给所述目标基站。
- 根据权利要求33至39中任一项所述的基站,其特征在于,所述下行数据为所述终端未反馈确认接收消息的下行NAS PDU或所述源基站未发送的所述终端的下行NAS PDU。
- 根据权利要求33至39中任一项所述的基站,其特征在于,所述第二指示消息为UL Information Transfer或其他RRC消息。
- 一种核心网设备,其特征在于,包括:收发器,处理器,总线;所述收发器与所述处理器通过所述总线相连;所述收发器,执行如下步骤:获取第一指示消息,所述第一指示消息用于指示终端完成小区变更或所述终端完成小区重选;将下行数据发送给目标基站,所述目标基站为所述终端完成小区变更或完成小区重选之后连接的基站。
- 一种基站,其特征在于,包括:收发器,处理器,总线;所述收发器与所述处理器通过所述总线相连;所述收发器,执行如下步骤:获取第二指示消息,所述第二指示消息用于指示终端开始执行小区切换或所述终端开始执行小区重选,所述源基站为所述终端在完成小区重选之前或所述终端在完成小区切换前所处的源服务小区对应的基站;将下行数据发送给目标基站,以使得所述目标基站将所述下行数据发送给所述终端,所述目标基站为所述终端完成小区重选或小区切换后所述的目标服务小区对应的基站。
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US20190191338A1 (en) | 2019-06-20 |
CN109565728A (zh) | 2019-04-02 |
KR20190034629A (ko) | 2019-04-02 |
KR20200140941A (ko) | 2020-12-16 |
CN111314973B (zh) | 2021-12-14 |
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