WO2015156655A1 - 이동통신 시스템에서 단말의 핸드오버 방법 및 장치 - Google Patents
이동통신 시스템에서 단말의 핸드오버 방법 및 장치 Download PDFInfo
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- WO2015156655A1 WO2015156655A1 PCT/KR2015/003682 KR2015003682W WO2015156655A1 WO 2015156655 A1 WO2015156655 A1 WO 2015156655A1 KR 2015003682 W KR2015003682 W KR 2015003682W WO 2015156655 A1 WO2015156655 A1 WO 2015156655A1
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- packet
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- handover
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/02—Buffering or recovering information during reselection ; Modification of the traffic flow during hand-off
- H04W36/023—Buffering or recovering information during reselection
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/0005—Control or signalling for completing the hand-off
- H04W36/0011—Control or signalling for completing the hand-off for data sessions of end-to-end connection
- H04W36/0033—Control or signalling for completing the hand-off for data sessions of end-to-end connection with transfer of context information
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/02—Buffering or recovering information during reselection ; Modification of the traffic flow during hand-off
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/08—Reselecting an access point
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W74/00—Wireless channel access
- H04W74/08—Non-scheduled access, e.g. ALOHA
- H04W74/0833—Random access procedures, e.g. with 4-step access
- H04W74/0841—Random access procedures, e.g. with 4-step access with collision treatment
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/20—Manipulation of established connections
- H04W76/27—Transitions between radio resource control [RRC] states
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
Definitions
- Embodiments of the present disclosure relate to a method and an apparatus for a terminal to perform handover in a wireless mobile communication system. More specifically, the present invention relates to a method and an apparatus for maintaining a quality of service when a terminal hands over to another adjacent base station in a situation where a base station receives a service including a voice call.
- the LTE system is in the spotlight as the fourth generation mobile communication technology.
- the LTE system supports handover scenarios in various scenarios as well as handover support, which is a basic inter-cell mobility technology supported by previous generation communication technologies.
- a handover or handoff is a new data channel of a neighboring base station when the terminal in the state of receiving data from the base station moves out of the base station cell boundary to the neighboring base station service area. It is a function that is automatically tuned in to maintain the call state continuously.
- a base station providing a channel with which the terminal communicates before handover is called a source cell or a source base station
- a base station providing a channel with which the terminal communicates after completing handover is a target base station. It may be referred to as a station or a target cell. That is, the terminal performs handover while communicating through the source cell, and then communicates through the target cell.
- a handover event when a handover event occurs, data forwarding occurs for a terminal from a source base station to a target base station, and the target base station delivers the forwarded data to the terminal after the terminal accesses the target base station.
- a time required for transmitting and receiving a message is required until the data forwarded to the target base station is transmitted to the terminal, thereby reducing the user convenience.
- An embodiment of the present specification is proposed to solve the above-described problem, and an object of the present invention is to provide a method and apparatus for more quickly delivering data from a target base station to a terminal when the terminal performs handover. More specifically, when a terminal receiving data including a voice call moves to a neighbor base station and performs a handover, a method and apparatus for faster forwarding data forwarded to the neighbor base station for a terminal to the terminal are provided.
- a handover support method of a terminal in a base station of a mobile communication system comprises the steps of receiving a random access preamble (Random Access Preamble) from the terminal; Transmitting a packet stored for the terminal to the terminal; And receiving a handover complete message from the terminal, wherein the stored packet is transmitted to the terminal before receiving the handover complete message.
- a random access preamble Random Access Preamble
- a handover method in a terminal of a mobile communication system includes transmitting a random access preamble to a base station; Receiving a packet stored for the terminal from the base station; And transmitting a handover complete message to the base station, wherein the stored packet is transmitted to the terminal before the handover complete message is received by the base station.
- a base station supporting handover of a terminal includes a transceiver for transmitting and receiving a signal with the terminal; And controlling the transceiver, receiving a random access preamble from the terminal, transmitting a packet stored for the terminal to the terminal, and receiving a Handover Complete message from the terminal. And a controller for controlling the base station, wherein the stored packet is transmitted to the terminal before receiving the handover complete message.
- Terminal for handover in a mobile communication system includes a transceiver for transmitting and receiving a signal with a base station; And controlling the transceiver, transmitting a random access preamble to the base station, receiving a packet stored for the terminal from the base station, and transmitting a handover complete message to the base station. And a control unit for controlling the terminal, wherein the stored packet is started to be transmitted to the terminal before the handover completion message is received by the base station.
- a terminal receiving data performs a handover from a source base station to a target base station
- user convenience is increased by delivering data forwarded for the terminal from the target base station to the terminal more quickly.
- FIG. 1 is a diagram illustrating a structure of an LTE system according to an embodiment of the present specification.
- FIG. 2 is a diagram illustrating a radio protocol structure in an LTE system according to an embodiment of the present disclosure.
- FIG. 3 is a diagram illustrating a network configuration of a communication system according to an exemplary embodiment of the present specification.
- FIG. 4 is a diagram illustrating a procedure of random access according to one embodiment of the present specification.
- FIG. 5 is a diagram illustrating a handover process according to one embodiment of the present specification.
- FIG. 6 is a diagram illustrating a handover process according to another embodiment of the present specification.
- FIG. 7 is a diagram illustrating an operation of a target base station according to an embodiment of the present disclosure.
- FIG. 8 is a diagram illustrating a base station according to an embodiment of the present disclosure.
- FIG. 9 is a diagram illustrating a terminal according to an exemplary embodiment of the present specification.
- each block of the flowchart illustrations and combinations of flowchart illustrations may be performed by computer program instructions. Since these computer program instructions may be mounted on a processor of a general purpose computer, special purpose computer, or other programmable data processing equipment, those instructions executed through the processor of the computer or other programmable data processing equipment may be described in flow chart block (s). It creates a means to perform the functions. These computer program instructions may be stored in a computer usable or computer readable memory that can be directed to a computer or other programmable data processing equipment to implement functionality in a particular manner, and thus the computer usable or computer readable memory. It is also possible for the instructions stored in to produce an article of manufacture containing instruction means for performing the functions described in the flowchart block (s).
- Computer program instructions may also be mounted on a computer or other programmable data processing equipment, such that a series of operating steps may be performed on the computer or other programmable data processing equipment to create a computer-implemented process to create a computer or other programmable data. Instructions for performing the processing equipment may also provide steps for performing the functions described in the flowchart block (s).
- each block may represent a portion of a module, segment, or code that includes one or more executable instructions for executing a specified logical function (s).
- logical function e.g., a module, segment, or code that includes one or more executable instructions for executing a specified logical function (s).
- the functions noted in the blocks may occur out of order.
- the two blocks shown in succession may in fact be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending on the corresponding function.
- ' ⁇ part' used in the present embodiment refers to software or a hardware component such as an FPGA or an ASIC, and ' ⁇ part' performs certain roles.
- ' ⁇ ' is not meant to be limited to software or hardware.
- ' ⁇ Portion' may be configured to be in an addressable storage medium or may be configured to play one or more processors.
- ' ⁇ ' means components such as software components, object-oriented software components, class components, and task components, and processes, functions, properties, procedures, and the like. Subroutines, segments of program code, drivers, firmware, microcode, circuits, data, databases, data structures, tables, arrays, and variables.
- the functionality provided within the components and the 'parts' may be combined into a smaller number of components and the 'parts' or further separated into additional components and the 'parts'.
- the components and ' ⁇ ' may be implemented to play one or more CPUs in the device or secure multimedia card.
- the embodiment of the present specification will be described based on the LTE system, but it is obvious that the user terminal may be applied to another communication system capable of performing handover between a plurality of base stations.
- FIG. 1 is a diagram illustrating a structure of an LTE system according to an embodiment of the present specification.
- a radio access network of an LTE system includes a next-generation base station (Evolved Node B, ENB, Node B, Base Station, or base station) 105, 110, 115, and 120 and an MME 125. Management Entity) and S-GW (130, Serving-Gateway).
- the user equipment (hereinafter referred to as UE or terminal) 135 accesses an external network through the ENBs 105 to 120 and the S-GW 130.
- the ENBs 105 to 120 correspond to existing Node Bs of the UMTS system.
- the ENB is connected to the UE 135 by a radio channel and performs a more complicated role than the existing Node B.
- all user traffic including real-time services such as Voice over IP (VoIP) over the Internet protocol, is serviced through a shared channel, so information on the status of buffers, available transmit power, and channel status of UEs is available. It is necessary to have a device for scheduling the collection of this, ENB (105 ⁇ 120) is in charge.
- One ENB typically controls multiple cells.
- the LTE system uses orthogonal frequency division multiplexing (hereinafter, referred to as OFDM) in a 20 MHz bandwidth as a radio access technology.
- OFDM orthogonal frequency division multiplexing
- AMC adaptive modulation & coding
- the S-GW 130 is a device that provides a data bearer, and generates or removes a data bearer under the control of the MME 125.
- the MME is a device that is in charge of various control functions as well as mobility management function for the terminal and is connected to a plurality of base stations.
- FIG. 2 is a diagram illustrating a radio protocol structure in an LTE system according to an embodiment of the present disclosure.
- a wireless protocol of an LTE system includes packet data convergence protocols 205 and 240 (PDCP), radio link control 210 and 235 (RMC), and medium access control 215 and 230 (MAC) in a terminal and an ENB, respectively.
- PDCP packet data convergence protocols
- RMC radio link control 210 and 235
- MAC medium access control 215 and 230
- the PDCP (Packet Data Convergence Protocol) 205, 240 is responsible for operations such as IP header compression / restore, and the radio link control (hereinafter referred to as RLC) 210, 235 is a PDCP PDU (Packet Data Unit). ) To the appropriate size.
- RLC Radio Link control
- the MACs 215 and 230 are connected to several RLC layer devices configured in one terminal, and multiplex RLC PDUs to MAC PDUs and demultiplex RLC PDUs from MAC PDUs.
- the physical layers 220 and 225 channel-code and modulate higher layer data, make an OFDM symbol, and transmit it to a wireless channel, or demodulate, channel decode, and transmit the received OFDM symbol through a wireless channel to a higher layer.
- the physical layer uses HARQ (Hybrid ARQ) for additional error correction, and the receiving end transmits the reception of the packet transmitted by the transmitting end as 1 bit. This is called HARQ ACK / NACK information.
- Downlink HARQ ACK / NACK information for uplink transmission is transmitted through PHICH (Physical Hybrid-ARQ Indicator Channel) physical channel, and uplink HARQ ACK / NACK information for downlink transmission is PUCCH (Physical Uplink Control Channel) or PUSCH. (Physical Uplink Shared Channel) It may be transmitted through a physical channel.
- PHICH Physical Hybrid-ARQ Indicator Channel
- PUCCH Physical Uplink Control Channel
- PUSCH Physical Uplink Shared Channel
- FIG. 3 is a diagram illustrating a network configuration of a communication system according to an exemplary embodiment of the present specification.
- the communication system 300 includes a terminal 310, a source base station 340, and a target base station 370.
- the terminal 310 belongs to the coverage 350 of the source base station 340, performs communication through the source base station 340, moves in the movement direction 301, and moves away from the coverage 350 of the source base station 340. Enter coverage 380 of 370.
- the packet to be delivered to the terminal 310 may be forwarded to the target base station 370 and stored.
- the target base station 370 may store the forwarded packet and then deliver the stored packet to the terminal 310. Since the target base station 370 stores the packet and forwards the packet to the terminal 310, the target base station 370 may be expressed as buffering the packet. In addition, the target base station 370 may receive a packet to be delivered to the terminal 310 from the core network.
- the terminal 310 notifies the target base station 370 that the base station change is completed after the base station change is completed.
- the terminal 310 may set any one of the R bits of the PDCP header (CCA bit) to 1 and transmit a message including the PDCP header to the target base station 370.
- the target base station 370 receives the message including the PDCP header and analyzes the received PDCP header.
- the target base station 370 may determine that the base station change of the terminal 310 is completed when the CCA bit of the received PDCP header is 1.
- the determination may be performed to determine when to deliver the packet stored by the target base station 370 to the terminal 310.
- the buffered packet may be delivered to the terminal 310.
- the target base station 370 may also determine when to deliver the buffered packet according to the nature of the received packet. A process of determining a time point at which the target base station 370 delivers the packet stored in the terminal will be described later.
- FIG. 4 is a diagram illustrating a procedure of random access according to one embodiment of the present specification.
- the terminal 405 may perform random access to the base station 410.
- the random access procedure may include preamble transmission, random access response reception, message 3 transmission, and collision resolution. In some cases, the latter two steps may be omitted.
- the terminal when the random access is performed, the terminal is in the RRC_CONNECTED state, but is not uplink synchronized, and when it is necessary to transmit new uplink data or control information, the terminal is in the RRC_CONNECTED state, but is uplink synchronized.
- the UE If the UE is in the RRC_CONNECTED state, when the UE is in the RRC_CONNECTED state and handovers from the source cell to the target cell, the UE transitions from the RRC_IDLE state to the RRC_CONNECTED state ( For example, at least one of an initial connection or a tracking area update) and a case of re-entering the connection state after the radio link failure may be performed.
- the terminal of the embodiment may perform a handover process when handing over from the source cell to the target cell.
- the transmission resource (frequency resource and time resource) at any point in time Determine which preamble to transmit to the base station 410 through the ().
- the terminal 405 may transmit the preamble by applying the preamble transmission output calculated with reference to the current channel condition, for example, path loss. More specifically, the initial value of the preamble transmission power may be determined in consideration of the path loss. In addition, the terminal 405 may estimate the path loss by measuring the average value of the reference signal received power (RSRP) of the downlink. In addition, the UE may determine the power offset based on at least one of a desired Signal to Interference plus Noise Ratio (SINR), uplink interference measured in a time frequency slot allocated to the RACH preamble, a noise level, and a preamble type. .
- SINR Signal to Interference plus Noise Ratio
- the base station 410 receives the preamble transmitted by the terminal 405, generates a response (Random Access Response, RAR) message and transmits it to the terminal 405.
- the RAR message includes an uplink transmission timing adjustment command (Timing Advance, TA), a Temporary Cell Radio Network Temporary Identifier (C-RNTI), and information related to uplink transmission resources for transmitting message 3 (Uplink grant, UL). at least one of a grant) is included. More specifically, the RAR may be indicated by the RA-RNTI transmitted through the PDCCH.
- the terminal 405 may identify a time-frequency slot from which a preamble is detected based on a random access radio network temporary identifier (RA-RNTI). In addition, when the terminal 405 does not receive the RAR within the set time window, the terminal 405 may retransmit the preamble to the base station 410.
- RA-RNTI random access radio network temporary identifier
- the terminal 405 may transmit message 3 based on the information received from the RAR.
- the message 3 may include identifier information of the terminal 405. More specifically, message 3 is an uplink transmission scheduled for the first time on the PUSCH, and may use hybrid automatic repeat request (HARQ).
- the terminal 405 may use this message to deliver at least one of a random access procedure message such as an RRC connection request, a tracking area update, and a scheduling request.
- the message 3 may include at least one of a Temporary C-RNTI, a C-RNTI, and a 48-bit terminal identity allocated in the RAR.
- the base station 410 may transmit a contention cancellation message in response to the received message 3. This is often called conflict resolution.
- conflict resolution when a plurality of UEs transmit the same preamble by performing the contention elimination step, it is possible to distinguish a UE from which the preamble is recognized. If the base station 410 does not receive the preamble, the terminal 405 fails to receive the response message because it does not transmit a response message. The terminal 405 retransmits the preamble after a predetermined time passes, and performs a kind of uplink power output control by raising the transmission output by a predetermined value.
- the random access procedure may be initiated for various reasons. For example, random access may be initiated for a scheduling request or random access may be initiated for RRC connection establishment or RRC connection reestablishment. Alternatively, after performing the handover, random access may be initiated in the target cell.
- the terminal preferably initiates random access in the PCell. However, if the uplink transmission timing of the SCell is to be established as described above, the random access should be started in the corresponding SCell.
- the base station directly controls whether to perform the random access to the SCell. That is, the terminal does not arbitrarily initiate random access in the SCell, thereby controlling the random access load of the SCell to an appropriate level, and allows the terminal to perform random access at a desired time point.
- FIG. 5 is a diagram illustrating a handover process according to one embodiment of the present specification.
- a signal may be transmitted and received between the terminal 502 and the target base station 504, and the target base station 504 may include at least one of a MAC layer 506 and a PDCP layer 508.
- the terminal 502 may assume a situation in which the terminal is handed over from the source base station to the target base station 504.
- the target base station 504 may buffer data for the terminal forwarded from the source base station or the core network.
- the handover may exchange messages between the terminal 502 and the target base station 504.
- the terminal 502 may transmit a random access preamble for performing random access to the MAC layer 506.
- the random access preamble may be a dedicated preamble for a terminal.
- the MAC layer 506 may transmit a random access response message to the terminal 502. Content included in the message may be determined according to the contents disclosed in FIG. 4.
- the MAC layer 506 may transmit an RAR indicator to the PDCP layer 508.
- the RAR indicator may include information indicating that the RAR message is transmitted to the terminal 502.
- the target base station 504 may receive data forwarded for the terminal from step 510 to before step 525 from the source base station or the core network, and may buffer the received forwarded data.
- the PDCP layer 508 may transmit a data packet for the buffered terminal 502 to the terminal 502. More specifically, the target base station 504 may determine the terminal to which the packet is transmitted only through the random access preamble received in step 510.
- the terminal 502 may transmit an RRC Connection Reconfiguration Complete message to the MAC layer 506. By sending the message it can be determined that the handover is complete.
- FIG. 6 is a diagram illustrating a handover process according to another embodiment of the present specification.
- a signal may be transmitted and received between the terminal 602, the target base station 604, and the source base station 608.
- the target base station 604 may include at least one of a PHY / MAC / RCL layer 605 (hereinafter referred to as a MAC layer), a PDCP layer 606, and an RRC layer 607.
- the terminal 602 and the source base station 608 may also include one or more layers, but are represented by one node for convenience of description.
- the terminal 602 may transmit a measurement report (Measurement Report) to the source base station 608. More specifically, the terminal 602 is the strength of the signal transmitted by the source base station 608 and the target base station 604 May be measured and the measurement result may be transmitted to the source base station 608.
- a measurement report Measurement Report
- the source base station 608 may determine whether to hand over the terminal 602 based on the measurement report. For example, if the target base station 604 signal strength is stronger than the source base station 608 signal strength measured by the terminal 602, it may be determined to proceed with the handover. In addition, when the terminal 602 determines that it is easier to transmit and receive a signal with the target base station 604, the source base station 608 may determine that the terminal 602 is handed over to the target base station.
- the source base station 608 may forward a handover request message to the target base station 604 in step 620.
- the handover request message can be delivered to the RRC layer 607.
- the target base station 604 Upon receiving the handover request message, the target base station 604 allocates a context and a resource for the terminal 602 in step 625 and confirms a handover request including at least one of information about context allocation and resource allocation (Handover). Request Confirm) message may be delivered to the source base station 608.
- Handover context allocation and resource allocation
- At least one of the handover request message and the handover request confirmation message may be delivered in the form of an RRC message, for example.
- the source base station 608 includes a handover including information about the context allocation and resource allocation received from the target base station 604 and an instruction to change the base station to the target base station 604 to the terminal 602.
- a command (Handover Command) is transmitted to the terminal 602.
- the source base station 608 transmits the handover command to the terminal 602, and then transmits a packet to be transmitted to the terminal 602 among the packets received by the source base station 608 to the target base station 604. Send.
- the transmitted packet may be transmitted to the PDCP layer 606.
- the packet for the call becomes a packet to be delivered to the terminal 602.
- the packet of the download data is a packet to be delivered to the terminal 602.
- the forwarded packet may include another packet in Voice over LTE (VoLTE).
- the source base station 608 may initiate packet forwarding to the target base station 604 in response to receiving the Handover Request Confirm message.
- the target base station 604 may store the received packet. More specifically, the packet may be temporarily stored in order to deliver the received packet to the terminal 602, which may be referred to as packet buffering.
- the terminal 602 may transmit a random access preamble to the target base station 604 based on the received handover command. More specifically, the random access preamble may be a dedicated preamble and may be transmitted to the MAC layer 605 of the target base station 604. In an embodiment, the Random Access Preamble may be delivered through a common channel. In an embodiment, the target base station 604 may perform resource allocation for the terminal 602 after receiving the random access preamble.
- the target base station 604 may transmit a random access response corresponding to the random access preamble to the terminal 602.
- the random access response may include information that allows the terminal 602 to transmit and receive a signal with the target base station 604, such as resource allocation information for the terminal 602.
- the target base station 604 transmits an indicator for transmitting a packet for the terminal 602 buffered to the PDCP layer 606 in response to the received Random Access Preamble reception. ) Can be delivered.
- the target base station 604 may deliver the indicator from the MAC layer 605 to the PDCP layer 606 in response to a random access response. More specifically, the indicator may be delivered to the PDCP layer 606 after receiving the random access preamble.
- the PDCP layer 606 may transmit a message for notifying completion of handover to the RRC layer 607. More specifically, the message may include msgCqdcpRarId.
- the RRC layer 607 may transmit a message to the PDCP layer 606 to indicate completion of the handover. More specifically, the message may include a msgCpdCpControl message.
- the target base station 604 may deliver a packet buffered for the terminal 602 to the terminal 602. More specifically, data buffered in the PDCP layer 606 may be delivered to the terminal 602.
- the PDCP layer 606 may initiate an operation of delivering the buffered packet to the terminal 602 in response to the indicator received in step 655.
- the terminal 602 of the embodiment may receive the buffered data before transmitting the Handover Complete message. Accordingly, the terminal 602 may perform a preparation procedure for receiving the buffered data from the target base station 604 in response to at least one of random access preamble transmission or random access response reception. Also, the terminal 602 may receive a packet when the buffered packet is transmitted from the target base station 604 without a separate preparation procedure.
- the terminal 602 may transmit a message indicating completion of handover in response to the Random Access Response message. More specifically, the message for notifying completion of the handover may include a Handover Complete message, and an RRC connection reconfiguration procedure may be completed through such an operation.
- the target base station 604 may receive a random access preamble transmitted by the terminal 602, transmit a random access response corresponding thereto, and receive the random access preamble and random access. In response to the response transmission, the buffered packet transmission for the terminal 602 may be performed.
- the target base station 604 can transmit a packet buffered for the terminal 602 before receiving the Handover Complete message, and the terminal 602 can target the target before the Handover Complete message is sent to the target base station 604.
- a buffered packet may be received from the base station 604.
- the target base station 604 transmits the buffered packet for the terminal 605 to the terminal 602 before receiving the Handover Complete message, thereby reducing the delay of data transmission due to the handover, and thus latency. Can be reduced.
- FIG. 7 is a diagram illustrating an operation of a target base station according to an embodiment of the present disclosure.
- the target base station of the embodiment may transmit and receive a signal with at least one of a source base station and a terminal.
- the target base station may receive a Handover Request from the source base station.
- the handover request may include information of a terminal performing handover.
- the target base station may transmit a Handover Request Confirm message to the source base station. More specifically, the target base station may allocate a context and resources for the terminal and transmit a Handover Request Confirm message including at least one of the allocated information to the source base station.
- the target base station may receive and buffer the packet for the terminal forwarded from the source base station or the core network.
- the forwarded packet may be temporarily stored in a target base station.
- the target base station may receive a random access preamble from the terminal performing the handover.
- the random access preamble may be a dedicated preamble for the terminal.
- the Random Access Preamble may be delivered through a common channel.
- the target base station may perform resource allocation for the terminal after receiving the random access preamble.
- the target base station may transmit a random access response to the terminal in response to the received random access preamble.
- the random access response may include information that allows a terminal to transmit and receive a signal with a target base station, such as resource allocation information for the terminal.
- the target base station may determine whether there is a sound call related packet among the buffered packets. More specifically, the target base station may determine whether there is a packet related to VoLTE among the packets buffered for the terminal. According to an embodiment, the determining step may be performed after the forwarded packet is received in step 715. In addition, according to an embodiment, step 730 may be selectively performed, and if there is no determination according to the step 730, the process may proceed directly to step 735. According to an embodiment, if there is a voice call related packet among the buffered packets, the process proceeds to step 735, and if not, the process proceeds to step 745.
- the target message may transmit a random access response message and transmit a buffered packet to the terminal.
- a buffered packet may be transmitted to the terminal in response to the random access preamble reception.
- the base station may deliver the buffered packet to the terminal.
- the target base station may receive a Handover Complete message from the terminal.
- the latency of data transmission due to handover is long because the target base station starts transmitting the packet to the terminal before receiving the Handover Complete message. You can stop losing. More specifically, when the UE using the VoLTE service performs the handover, the user may feel a deterioration in service quality even with a short increase in latency. However, when the latency is reduced, user convenience may be improved.
- the target base station may receive a Handover Complete message from the terminal and, in response, may transmit a buffered packet for the terminal in operation 750.
- FIG. 8 is a diagram illustrating a base station according to an embodiment of the present disclosure.
- the base station 800 may include a transceiver 810 capable of transmitting and receiving signals with at least one of a terminal and another base station, at least one of data transmitted and received and data required for operation of the base station 800. It may include a base station controller 830 to control the storage unit 820 and the transceiver 810 and the storage unit 820 and to control the overall operation of the base station 800 that can store the. In an embodiment, the base station 800 may operate as at least one of the target base station and the source base station.
- the transceiver 810 may transmit and receive a signal with at least one of a terminal and another base station, and may include a transmitter for transmitting a signal and a receiver for receiving a signal.
- the base station controller 830 may receive a measurement report from the terminal and determine whether to handover based on the measurement report. It can also send and receive Handover Request and Handover Request Confirm.
- a handover command may be transmitted to the terminal, a packet for the terminal may be transmitted and received with another base station, and when a packet is received, buffering may be performed for the terminal.
- the UE may receive a random access preamble from the terminal, and may transmit a random access response to the terminal, and may transmit a buffered packet to the terminal regardless of whether or not a handover complete message is received from the terminal.
- a handover complete may be received from the terminal on which the handover is completed.
- the base station controller 830 may control one of the PHY / MAC / RLC layer, the PDCP layer, and the RRC layer. More specifically, when a random access preamble is received from the terminal as an RLC layer, an indicator indicating transmission of a buffered packet from the RLC layer to the PDCP layer may be transmitted in response to at least one of the received random access preamble and random access response. have. The PDCP layer may transmit the buffered data to the terminal based on the indicator.
- the base station controller 830 may control the operation of the base station 800 disclosed in the embodiments of the present disclosure.
- FIG. 9 is a diagram illustrating a terminal according to an exemplary embodiment of the present specification.
- the terminal 900 may include a transceiver 910 capable of transmitting and receiving a signal to and from a base station, a storage unit capable of storing at least one of data transmitted and received and data necessary for operation of the terminal 900.
- the terminal 920 may control the transceiver 910 and the storage 920, and may control the overall operation of the terminal 900.
- the transceiver 910 may transmit and receive a signal with a base station, and may include a transmitter for transmitting a signal and a receiver for receiving a signal.
- the terminal controller 930 may transmit a measurement report to the source base station based on at least one of the signals received from the source base station and the target base station, and may receive a corresponding handover command from the base station.
- the random access preamble may be transmitted to the target base station, and a random access response corresponding thereto may be received from the target base station.
- a packet forwarded and buffered to a target base station may be received from the target base station.
- a handover complete indicating the handover completion may be transmitted to the target base station.
- the UE may receive a forwarded packet according to the handover from the target base station before the Handcomer Complete message is received by the target base station.
- the terminal controller 930 may control the operation of the terminal disclosed in the embodiments of the present disclosure.
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Abstract
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Claims (16)
- 이동통신 시스템의 기지국에서 단말의 핸드오버 지원 방법에 있어서,단말로부터 랜덤 액세스 프리엠블(Random Access Preamble)을 수신하는 단계;상기 단말을 위해 저장된 패킷을 상기 단말에 전송하는 단계; 및상기 단말로부터 핸드오버 완료(Handover Complete) 메시지를 수신하는 단계를 포함하고,상기 저장된 패킷은 상기 핸드오버 완료 메시지를 수신하기 이전에 상기 단말로 전송 개시되는 핸드오버 지원 방법.
- 제1항에 있어서,상기 핸드오버 지원 방법은상기 수신한 랜덤 액세스 프리엠블에 대응하여 랜덤 액세스 응답(Random Access Response)을 상기 단말로 전송하는 단계를 더 포함하고,상기 저장된 패킷을 전송하는 단계는상기 수신된 랜덤 액세스 프리엠블 및 전송된 상기 랜덤 액세스 응답 중 적어도 하나에 대응하여 상기 단말을 위해 저장된 패킷을 상기 단말에 전송 개시하는 단계를 포함하는 것을 특징으로 하는 핸드오버 지원 방법.
- 제1항에 있어서,상기 저장된 패킷을 전송하는 단계는상기 랜덤 액세스 프리엠블 수신 및 상기 랜덤 액세스 응답 전송 중 적어도 하나에 대응하여 상기 기지국의 MAC (Medium Access Control) 레이어에서 상기 기지국의 PDCP(Packet Data Convergence Protocol) 레이어로 패킷 전송 개시를 지시하는 지시자를 전송하는 단계; 및상기 지시자를 기반으로 상기 PDCP 레이어가 상기 저장된 패킷을 상기 단말에 전송 개시하는 단계를 포함하는 것을 특징으로 하는 핸드오버 지원 방법.
- 제1항에 있어서,상기 저장된 패킷을 전송하는 단계는상기 저장된 패킷에 음성호 관련 패킷이 있는지 판단하는 단계; 및음성호 관련 패킷이 있는 경우, 상기 단말로부터 핸드오버 완료(Handover Complete) 메시지를 수신하기 이전에 상기 저장된 패킷을 상기 단말로 전송 개시하는 단계를 포함하는 것을 특징으로 하는 핸드오버 지원 방법.
- 이동통신 시스템의 단말에서 핸드오버 방법에 있어서,기지국에 랜덤 액세스 프리엠블(Random Access Preamble)을 전송하는 단계;상기 기지국으로부터 상기 단말을 위해 저장된 패킷을 수신하는 단계; 및상기 기지국으로 핸드오버 완료(Handover Complete) 메시지를 전송하는 단계를 포함하고,상기 저장된 패킷은 상기 핸드오버 완료 메시지가 상기 기지국에 수신되기 이전에 상기 단말로 전송 개시되는핸드오버 방법.
- 제5항에 있어서,상기 핸드오버 방법은상기 전송한 랜덤 액세스 프리엠블에 대응하여 랜덤 액세스 응답(Random Access Response)을 상기 기지국으로부터 수신하는 단계를 더 포함하고,상기 패킷을 수신하는 단계는상기 전송된 랜덤 액세스 프리엠블 및 상기 수신된 랜덤 액세스 응답 중 적어도 하나에 대응하여 상기 기지국이 전송 개시한 패킷을 수신하는 단계를 포함하는 것을 특징으로 하는 핸드오버 방법.
- 제5항에 있어서,상기 패킷을 수신하는 단계는상기 기지국의 PDCP(Packet Data Convergence Protocol) 레이어로부터 상기 PDCP 레이어가 상기 기지국의 MAC (Medium Access Control)레이어로부터 수신한 패킷 전송 개시를 지시하는 지시자를 기반으로 전송한 패킷을 수신하는 단계를 포함하는 것을 특징으로 하는 핸드오버 방법.
- 제5항에 있어서,상기 핸드오버 방법은상기 수신한 랜덤 액세스 응답에 대응하여 상기 기지국으로 핸드오버 완료(Handover Complete) 메시지를 전송하는 단계를 더 포함하고,상기 패킷을 수신하는 단계는상기 수신하는 패킷에 음성호 관련 패킷이 있는 경우, 상기 기지국에 핸드오버 완료 메시지가 수신되기 이전에 전송 개시된 패킷을 상기 기지국으로부터 수신하는 단계를 포함하는 것을 특징으로 하는 핸드오버 방법.
- 이동통신 시스템에서 단말의 핸드오버를 지원하는 기지국에 있어서,단말과 신호를 송수신 하는 송수신부; 및상기 송수신부를 제어하고, 상기 단말로부터 랜덤 액세스 프리엠블(Random Access Preamble)을 수신하고, 상기 단말을 위해 저장된 패킷을 상기 단말에 전송하고, 상기 단말로부터 핸드오버 완료(Handover Complete) 메시지를 수신하도록 상기 기지국을 제어하는 제어부를 포함하고,상기 저장된 패킷은 상기 핸드오버 완료 메시지를 수신하기 이전에 상기 단말로 전송 개시되는 기지국.
- 제9항에 있어서,상기 제어부는상기 수신한 랜덤 액세스 프리엠블에 대응하여 랜덤 액세스 응답(Random Access Response)을 상기 단말로 전송하고, 상기 수신된 랜덤 액세스 프리엠블 및 전송된 상기 랜덤 액세스 응답 중 적어도 하나에 대응하여 상기 단말을 위해 저장된 패킷을 상기 단말에 전송 개시하도록 상기 기지국을 제어하는 것을 특징으로 하는 기지국.
- 제9항에 있어서,상기 제어부는상기 랜덤 액세스 프리엠블 수신 및 상기 랜덤 액세스 응답 전송 중 적어도 하나에 대응하여 상기 기지국의 MAC (Medium Access Control) 레이어에서 상기 기지국의 PDCP(Packet Data Convergence Protocol) 레이어로 패킷 전송 개시를 지시하는 지시자를 전송하고, 상기 지시자를 기반으로 상기 PDCP 레이어가 상기 저장된 패킷을 상기 단말에 전송 개시하도록 상기 기지국을 제어하는 것을 특징으로 하는 기지국.
- 제9항에 있어서,상기 제어부는상기 저장된 패킷에 음성호 관련 패킷이 있는지 판단하고, 음성호 관련 패킷이 있는 경우, 상기 단말로부터 핸드오버 완료(Handover Complete) 메시지를 수신하기 이전에 상기 저장된 패킷을 상기 단말로 전송개시 하도록 상기 기지국을 제어하는 것을 특징으로 하는 기지국.
- 이동통신 시스템에서 핸드오버를 하는 단말에 있어서,기지국과 신호를 송수신하는 송수신부; 및상기 송수신부를 제어하고, 상기 기지국에 랜덤 액세스 프리엠블(Random Access Preamble)을 전송하고, 상기 기지국으로부터 상기 단말을 위해 저장된 패킷을 수신하고, 상기 기지국으로 핸드오버 완료(Handover Complete) 메시지를 전송하도록 상기 단말을 제어하는 제어부를 포함하고,상기 저장된 패킷은 상기 핸드오버 완료 메시지가 상기 기지국에 수신되기 이전에 상기 단말로 전송 개시되는 단말.
- 제13항에서,상기 제어부는상기 전송한 랜덤 액세스 프리엠블에 대응하여 랜덤 액세스 응답(Random Access Response)을 상기 기지국으로부터 수신하고, 상기 전송된 랜덤 액세스 프리엠블 및 상기 수신된 랜덤 액세스 응답 중 적어도 하나에 대응하여 상기 기지국이 전송 개시한 패킷을 수신하도록 상기 단말을 제어하는 것을 특징으로 하는 단말.
- 제13항에서,상기 제어부는상기 기지국의 PDCP(Packet Data Convergence Protocol) 레이어로부터 상기 PDCP 레이어가 상기 기지국의 MAC (Medium Access Control)레이어로부터 수신한 패킷 전송 개시를 지시하는 지시자를 기반으로 전송한 패킷을 수신하는 것을 특징으로 하는 단말.
- 제13항에서,상기 제어부는상기 수신한 랜덤 액세스 응답에 대응하여 상기 기지국으로 핸드오버 완료(Handover Complete) 메시지를 전송하고, 상기 수신하는 패킷에 음성호 관련 패킷이 있는 경우, 상기 기지국에 핸드오버 완료 메시지가 수신되기 이전에 전송 개시된 패킷을 상기 기지국으로부터 수신하는 것을 특징으로 하는 단말.
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JP2016561769A JP6657114B2 (ja) | 2014-04-11 | 2015-04-13 | 移動通信システムでの端末のハンドオーバー方法及び装置 |
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- 2015-04-13 WO PCT/KR2015/003682 patent/WO2015156655A1/ko active Application Filing
- 2015-04-13 EP EP15776399.6A patent/EP3131336B1/en active Active
- 2015-04-13 CN CN201580030082.7A patent/CN106416365B/zh active Active
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WO2014017838A1 (ko) * | 2012-07-24 | 2014-01-30 | 한국전자통신연구원 | 핸드오버 방법 및 그 장치 |
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See also references of EP3131336A4 * |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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EP3461178A4 (en) * | 2016-06-24 | 2019-03-27 | Huawei Technologies Co., Ltd. | PROGRAMMING METHOD, AND BASE STATION |
US10743225B2 (en) | 2016-06-24 | 2020-08-11 | Huawei Technologies Co., Ltd. | Scheduling method and base station |
US11109289B2 (en) | 2016-06-24 | 2021-08-31 | Huawei Technologies Co., Ltd. | Scheduling method and base station |
JP2019537326A (ja) * | 2016-10-11 | 2019-12-19 | 京セラ株式会社 | ユーザ機器装置が基地局からのmacメッセージを要求するための方法 |
US11122473B2 (en) | 2016-10-11 | 2021-09-14 | Kyocera Corporation | Methods for a user equipment device to request MAC messages from a base station |
US11632700B2 (en) | 2016-10-11 | 2023-04-18 | Kyocera Corporation | Methods for a user equipment device to request mac messages from a base station |
CN108112041A (zh) * | 2016-11-24 | 2018-06-01 | 中国移动通信有限公司研究院 | 一种切换方法、源基站、目标基站及终端 |
Also Published As
Publication number | Publication date |
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KR20150117897A (ko) | 2015-10-21 |
EP3131336A1 (en) | 2017-02-15 |
JP6657114B2 (ja) | 2020-03-04 |
US10524167B2 (en) | 2019-12-31 |
JP2017514382A (ja) | 2017-06-01 |
CN106416365B (zh) | 2020-07-28 |
CN106416365A (zh) | 2017-02-15 |
EP3131336A4 (en) | 2017-12-20 |
KR102220658B1 (ko) | 2021-02-26 |
US20170034748A1 (en) | 2017-02-02 |
EP3131336B1 (en) | 2020-06-03 |
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