JP2008187252A - Packet transmission control method, and base station - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a packet transmission control method that enables a hand-over destination base station to guarantee order of data transmission to a mobile station. <P>SOLUTION: The packet transmission control method according to the present invention includes a synchronism establishment notice packet transmission step wherein a hand-over destination base station (2-2)transmits a synchronism establishment notice packet to a hand-over origin base station (2-1) via an access router (3) when establishing synchronism of a radio channel with the mobile station (1); a packet transfer step wherein the hand-over origin base station (2-1) transfers the synchronism establishment notice packet received via the access router (3) to the hand-over destination base station (2-2) after transferring an untransmitted packet addressed to the mobile station (1) to the hand-over destination base station (2-2); and a packet transmission step wherein the hand-over destination base station (2-2) transmits a directly-delivered packet addressed to the mobile station (1) to the mobile station (1) when receiving the synchronism establishment notice packet after transmitting the transfer packet to the mobile station (1). <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a handover process in which a packet is transferred from a source base station to a destination base station in a mobile access network system, and in particular, control of the packet transmission order at a destination (handover destination) base station. It is about.

  In order to provide a means for a terminal (hereinafter referred to as a mobile station) to move while continuing communication, a mobile access network system uses a technique related to a handover method for changing a base station to which a mobile station is connected via a radio channel. For example, when executing a handover, a technique for avoiding data loss by transferring data (addressed to a mobile station that executes handover) from a source base station to a destination base station is disclosed in Patent Documents 1 to 3 below. 3.

  First, in the following Patent Document 1, a path from a source base station to a destination base station is set at the time of executing a handover, and a packet is transferred from the source base station to the destination base station. Data loss is prevented by switching the path from the source base station to the destination base station.

  Further, in the technique described in Patent Document 2 below, the source base station transmits information related to data that was last successfully transmitted to the mobile station before the start of handover to the destination base station and / or the exchange. Data that has not been transmitted to is transmitted to the destination base station. Then, by identifying the data to be transmitted first to the mobile station based on the information regarding the data that has been successfully transmitted, the movement-destination base station prevents data loss and order reversal.

  Further, in the technique described in Patent Document 3 below, the destination base station includes a port that receives data transferred from the source base station and a port that receives data directly from the exchange, from the source base station. Data received at the port to be transferred is transmitted to the mobile station, and data received at the port received from the exchange is temporarily stored in a buffer. Further, the destination base station has a timer for each mobile station for handover, and transmits data transferred from the source base station to the mobile station until the timer expires. By transmitting data received from the exchange and stored in the buffer to the mobile station, data loss and order reversal are prevented.

Special table 2002-501695 gazette JP 9-186704 A Japanese Patent Laid-Open No. 2004-235883

  However, the techniques described in Patent Documents 1 to 3 have problems to be solved as described below.

  First, in the handover method described in Patent Document 1, when the path is switched from the source base station to the destination base station in the exchange or access router that accommodates the base station, the destination base station When the order of data transferred from the source base station and the data transmitted directly from the exchange or access router to the destination base station is switched, there is a problem that the order of the data with respect to the mobile station cannot be guaranteed.

  Further, in the data order guarantee method between base stations described in Patent Documents 2 and 3 above, the data transfer completion timing from the source base station cannot be recognized by the destination base station, and therefore received directly from the exchange or the access router. There was a problem that the timing for transmitting data to the mobile station could not be optimized, and a delay occurred in data transmission.

  Further, a technique for guaranteeing the order of transmission data to the mobile station in the final destination base station in consideration of the case where the handover occurs again while the packet is being transferred from the source base station to the destination base station. It did not exist.

  The present invention has been made in view of the above, and in an exchange or access router that guarantees the transmission order of data to a mobile station at a handover destination base station and is connected to the movement source base station and the movement destination base station. An object of the present invention is to obtain a packet transmission control method and a base station that optimize path switching timing and realize high-speed handover.

  A packet transmission control method capable of guaranteeing the data transmission order in the final destination base station even when a handover occurs again during packet transfer from the source base station to the destination base station And to get a base station.

  In order to solve the above-described problems and achieve the object, the present invention provides a method in which a handover destination base station is transferred from a handover source base station when a handover is performed between base stations connected to a specific access router. A packet transmission control method for transmitting a forwarded packet and a direct packet directly received from an access router to a destination mobile station in a correct order, wherein the handover destination base station establishes a radio link with the mobile station that has performed the handover. A synchronization establishment notification packet transmitting step for transmitting a synchronization establishment notification packet indicating the fact to the handover source base station via the access router when the synchronization of the handover source base station is unsent to the mobile station. Is transferred as a transfer packet to the handover destination base station and then received via the access router. A packet transfer step of transferring the synchronization establishment notification packet to the handover destination base station, and the handover destination base station receives the synchronization establishment notification packet from the handover source base station after transmitting the transfer packet to the mobile station. A packet transmission step of transmitting a direct packet addressed to the mobile station to the mobile station.

  According to this invention, the completion of the packet transfer operation from the source base station to the destination base station (the last transferred user packet) can be recognized in the destination base station, and immediately after the packet transfer operation is completed, Since the transmission process of the downlink user packet received directly from the access router to the mobile station can be started, the transmission order of the downlink user packet to the mobile station can be guaranteed, and the delay related to the handover can be reduced. .

  Embodiments of a packet transmission control method according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment 1 FIG.
FIG. 1 is a diagram showing a configuration example of a first embodiment of a communication system including a wireless communication system (mobile access network) that realizes a packet transmission control method according to the present invention. This communication system includes a mobile access network 4 and a core network (CN) 5. The mobile access network 4 includes a mobile station (MS) 1, base stations (BS) 2-1 and 2-2, and an access router (AR) 3. The mobile access network 4 is connected to the core network 5 via the access router 3. In addition, the mobile station 1 is connected to each base station (base station 2-1 and base station 2-2) via a radio channel, and each base station, the access router 3 and the core network 5 are connected via IP (Internet Protocol). Is done.

  In the present embodiment, description will be made on the assumption that each device such as a base station and an access router is connected by IP, but it may be connected by ATM (Asynchronous Transfer Mode) or the like. In the example shown in FIG. 1, the access router 3 is connected to the two base stations 2-1 and 2-2. However, the number of base stations connectable to the access router AR3 is limited to this. It is not a thing. Also, the mobile station is not limited to one.

  FIG. 1 shows a state in which the mobile station 1 is connected to the base station 2-1, and data is transmitted / received to / from the core network 5 via the access router 3. In FIG. 1, the access router 3 divides the data (downlink data addressed to the mobile station 1) to the mobile station 1 received from the core network 5 into transfer frames in the mobile access network 4, and IP packets (reference numeral 6 in FIG. 1). To the base station 2-1. The base station 2-1 generates a transfer frame based on the IP packet received from the access router 3, divides the data received in this transfer frame into transfer units on the radio line, and transmits the data to the mobile station 1. On the other hand, when transmitting data (uplink data) to the core network 5, the mobile station 1 divides the data into units of transfer over a wireless channel and transmits the data to the base station 2-1. When the base station 2-1 receives the data divided into transfer units, it combines with the transfer frame in the mobile access network 4 to form an IP packet (corresponding to the reference numeral 7 in FIG. 1) to form an access router. 3 to send.

  FIG. 2 is a diagram showing a control sequence example when the mobile station 1 moves from the state shown in FIG. 1 and is handed over to the base station 2-2. 2 is a control sequence, and a dotted arrow represents a transmission state of a downlink user packet from the mobile access network 4 to the mobile station 1. 3 to 6 are diagrams for explaining the transmission and transfer operation of the downlink user packet at the time of executing the handover. Hereinafter, the handover operation in the present embodiment will be described with reference to FIGS.

  In the state shown in FIG. 1, the mobile station 1 periodically measures the channel quality state of the communicating base station 2-1 and the adjacent base station 2-2, for example, between the base station 2-2 and the base station 2-2. If the channel quality exceeds the channel quality with the base station 2-1, the handover is requested by transmitting a measurement result report message to the base station 2-1 (step S1). This measurement result report message includes information indicating that the channel quality measurement result with the base station 2-2 as the handover destination exceeds the channel quality measurement result with the base station 2-1. Receiving the measurement result report message, the base station 2-1 transmits a handover request message to the base station 2-2 that is the movement destination (step S2). The handover request message includes information for identifying the base station 2-1 that is the movement source, the IP address of the base station 2-1, and information for identifying the access router 3 to which the base station 2-1 is connected. And the IP address of the access router 3. Note that information for identifying the base station BS2-1 and the access router 3 may be substituted with the respective IP addresses.

  The base station 2-2 that has received the handover request message transmits a path addition request to the access router 3 (step S3), and the access router 3 that has received the path addition request sends a path to the base station 2-2. When the path addition processing is completed, a path addition response message is transmitted to the base station 2-2 (step S4). This path addition response message includes information related to the radio channel set up between the base station 2-2 and the mobile station 1. The base station 2-2 that has received the path addition response message transmits a handover request confirmation message to the base station 2-1 (step S5). Next, the base station 2-1 that has received the handover request confirmation message transmits a handover instruction message including information on the handover destination radio channel to the mobile station 1 (step S6). The mobile station 1 that has received the handover instruction message transmits a handover instruction confirmation message to the base station 2-1 (step S7), releases the line between the base station 2-1 and the base station 2 that is the handover destination. -2 is executed (base station switching process) (step S8).

  The base station 2-1 that has received the handover instruction confirmation message in step S 7 described above receives the handover destination base station 2-2 of the downlink user packet (untransmitted packet) that has not been acknowledged with the mobile station 1 at that time. The transfer to is started (step S9). Further, when downlink user packets addressed to the mobile station 1 are received from the access router 3 after the start of transfer, they are also transferred to the base station 2-2. Here, the base station 2-1 guarantees the order of arrival from the access router 3 and transfers the downlink user packet to the base station 2-2. That is, the downlink user packet is transferred in the order of arrival (see FIG. 3). FIG. 3 shows a state in which the base station 2-1 forwards a downlink user packet received from the access router 3 and destined for the mobile station 1 that has not been acknowledged (untransmitted packet) to the base station 2-2. Show. In FIG. 3, the base station 2-1 transfers untransmitted packets addressed to the mobile station 1 as transfer packets # 81 to # 83 according to the order of arrival from the access router 3. In parallel with this, downlink user packets # 62 and # 63 addressed to the mobile station 1 are sequentially transmitted from the access router 3 to the base station 2-1. The base station 2-2 holds (accumulates) the transfer packet received from the base station 2-1.

  On the other hand, when the base station switching process in step 8 is completed and the synchronization of the radio channel between the mobile station 1 and the base station 2-2 is established, the base station 2-2 notifies the fact to that effect. A packet (synchronization establishment notification packet) is transmitted to the accelerator router 3 (step S10). FIG. 4 shows a state in which the base station 2-2 that has established synchronization with the mobile station 1 transmits the synchronization establishment notification packet # 91 (packet with # 91) to the accelerator router 3. Yes. The synchronization establishment notification packet # 91 is generated as a layer 2 level signal packet, and includes only information indicating the transmission source base station 2-2 and information indicating the mobile station 1.

  The access router 3 that has received the synchronization establishment notification packet # 91, as shown in FIG. 5, transfers this synchronization establishment notification packet # 91 to the base station 2-1, and executes path switching until then. The transmission of the downlink user packet transmitted to 2-1 to the base station 2-2 is started (steps S11 and S12). FIG. 5 shows a state in which the access router 3 transmits the downlink user packet # 64 addressed to the mobile station 1 to the base station 2-2 after transferring the synchronization establishment notification packet # 91 to the base station 2-1. . The path switching performed by the access router 3 is performed based on the information indicating the handover destination base station 2-2 and the information indicating the mobile station 1 that has performed the handover included in the synchronization establishment notification packet. Specifically, the access router 3 determines that the mobile station 1 has moved under the base station 2-2, and transmits a path (transmission route) so as to transmit a packet addressed to the mobile station 1 to the base station 2-2. Switch.

  In addition, the mobile station 1 that has established radio synchronization with the handover destination base station 2-2 transmits a handover instruction response message to the base station 2-2 (step S13). Receiving the handover instruction response message, the base station 2-2 transmits a handover instruction response confirmation message to the mobile station 1 (step S14), transferred from the base station 2-1, and stored in the downlink user packet (transfer) Packet) to the mobile station 1 is started. Further, the transfer frame directly received from the access router 3 is buffered until transmission of the transfer packet received from the base station 2-1 to the mobile station 1 is completed.

  When the base station 2-1 receives the synchronization establishment notification packet # 91 transferred by the access router 3, the base station 2-1 buffers it, and as shown in FIG. After all of them are transferred to the base station 2-2, the buffered synchronization establishment notification packet is transmitted to the base station 2-2 (step S15). By receiving the synchronization establishment notification packet # 91, the base station 2-2 transfers all unsent packets addressed to the mobile station 1 (all transfer packets from the base station 2-1 arrive) ). Then, the base station 2-2 transmits the transfer packet (transfer packet # 86 in the example of FIG. 6) received immediately before the synchronization establishment notification packet # 91 to the mobile station 1, and then directly receives it from the access router 3, The ringed transfer frame (downlink user packet) is transmitted to the mobile station 1 in the same order as when it was received.

  After transmitting the synchronization establishment notification packet # 91 to the base station 2-2, the base station 2-1 transmits a path deletion request to the access router 3 (step S16). The access router 3 transmits a path deletion response to the received path deletion request to the base station 2-1 (step S17), and releases the path. As for the release (path deletion) of the path between the base station 2-1 and the access router 3, the base station 2-2 transmits the synchronization establishment notification packet # 91 to the access router 3 (that is, the above step S10). It is also possible that the base station 2-2 transmits a path deletion request to the access router 3, and the access router 3 executes the path deletion for the base station 2-1. After transmitting the synchronization establishment notification packet # 91 to the access router 3, the base station 2-2 transmits a path deletion notification to the base station 2-1, and the base station 2-1 that has received the path deletion notification accesses A path deletion request may be transmitted to the router 3 to delete the path.

  In step S10, the base station 2-2 may continue to periodically transmit the synchronization establishment notification packet in order to prevent the synchronization establishment notification packet from being lost or lost. For example, the synchronization establishment notification packet is periodically transmitted a predetermined number of times, or periodically until the synchronization establishment notification packet transferred by the base station 2-1 arrives. Thereby, the reliability of delivery of a synchronization establishment notification packet can be improved.

  As described above, in this embodiment, when handover is executed and the mobile station establishes synchronization between the handover destination base station and the radio channel, a packet (synchronization establishment notification packet) indicating that is transmitted to the access router. Upon receiving this packet, the access router starts to transmit the downlink user packet addressed to the mobile station that has performed the handover to the handover destination base station. Further, the access router transfers the received synchronization establishment notification packet to the handover source base station, and the handover source base station further transfers all downlink user packets that need to be transferred to the handover destination base station, and then further synchronizes establishment notification packet. Is transferred to the handover destination base station. Thereby, the handover destination base station uses the fact that the synchronization establishment notification packet is transferred to itself, and the downlink user packet transferred from the handover source base station and the downlink user packet directly transmitted from the access router. Order control can be performed. That is, the completion of the packet transfer operation from the source base station to the destination base station (the last transferred user packet) can be recognized by the destination base station, and immediately after the packet transfer operation is completed, it is directly from the access router. Since the transmission process of the received downlink user packet to the mobile station can be started, the transmission order of the downlink user packet to the mobile station can be guaranteed and the delay related to the handover can be reduced. Further, it is not necessary to assign sequence numbers for order control to the transfer packets and transfer frames.

  In addition, when the synchronization of the radio channel with the mobile station is established at the destination base station, the access router is notified of the completion of the synchronization establishment, that is, the data transmission / reception is possible with a layer 2 level signal. The access router can detect and execute path switching at the layer 2 level, and the path switching time can be shortened.

Embodiment 2. FIG.
Next, the packet transmission control method according to the second embodiment will be described. In the first embodiment described above, the packet transmission control method performed during the normal handover operation has been described. However, in this embodiment, a packet when a mobile station that is executing a handover further performs a handover to another base station is described. A transmission control method will be described. The configuration of a communication system including a mobile access network that implements the packet transmission control method of the present embodiment is the same as that of the communication system of the first embodiment.

  FIG. 7 is a diagram showing an example of a control sequence when a mobile station that is executing handover further executes handover. In FIG. 7, the same step number is assigned to the same process as the process of FIG. 2 described in the first embodiment. Therefore, description of these processes is omitted.

  8 to 12 are diagrams for explaining the packet transmission control method according to the second embodiment. FIG. 8 shows the same state as that shown in FIG. That is, the mobile station 1, the base stations 2-1 and 2-2, and the access router 3 constituting the mobile access network perform the operations described in the first embodiment, and the access router 3 switches the path (see FIG. 2) and the transfer of the synchronization establishment notification packet to the base station 2-1 (the process of step S12), the downlink user packet 6-3 addressed to the mobile station 1 is transmitted to the base station 2- The state at the time of transmission to 2 is shown.

  The mobile station 1 performs a handover from the base station 2-1 to the base station 2-2 and operates in the same manner as in the first embodiment until the state shown in FIG. 8 (that is, FIG. 5) is reached. In the following, the operation when the mobile station 1 performs handover to the base station 2-3 from the state of FIG. 8 will be described with reference to FIGS.

  Here, after the mobile station 1 connected to the base station 2-1 executes the handover to the base station 2-2, the state shown in FIG. 8 (that is, the access router 3 moves to the destination base station 2-2). Immediately after the path is switched, transfer packets # 83 to # 85 are being transferred from the source base station 2-1 to the base station 2-2, and the destination base of the downlink user packet addressed to the mobile station 1 The operation when it is determined that further handover to another base station (for example, base station 2-3) is necessary at the time when the transfer to the station 2-2 is not completed) will be described.

  In the state shown in FIG. 8 (the state after execution of step S12 in FIG. 7), the mobile station 1 performs the handover again to the base station 2-3, so that the destination base station 2- A measurement result report message is transmitted to 2 (step S18). The base station 2-2 that has received the measurement result report message performs the same operation as that during normal handover, that is, the same operation as step S2 described in the first embodiment, and the handover destination base station ( Here, the handover request message is transmitted to the base station 2-3 (step S19). Then, the base station 2-3 that has received the handover request message transmits a path addition request message to the access router 3 (step S20).

  The access router 3 that has received the path addition request message adds the path for the base station 2-3 to the path to the base station 2-1 and the base station 2-2, so that a total of three paths are required. A path addition response message is transmitted to 2-3 (step S21). When the path addition is completed, the base station 2-3 transmits a handover request confirmation message to the base station 2-2 (step S22), and the base station 2-2 instructs the handover to the base station 2-3. A message is transmitted to the mobile station 1 (step S23). At this stage, since the transfer of the downlink user packet (transfer packet addressed to the mobile station 1) from the base station 2-1 to the base station 2-2 by the first handover is not completed, the access router 3 The path between -1 remains set.

  The mobile station 1 that has received the handover instruction message transmits a handover instruction confirmation message to the base station 2-2 (step S24), and the base station 2-2 that has received the handover instruction confirmation message transfers it from the base station 2-1. The relay relay of the downlink user packet to the base station 2-3 is started, and the state shifts to the state shown in FIG. In the state shown in FIG. 9, when the base station 2-2 has received all the transfer packets at the time of the first handover from the base station 2-1, that is, the radio channel between the base station 2-2 and the mobile station 1. When the synchronization establishment notification packet # 91 transmitted to the access router 3 is received from the base station 2-1, when the synchronization in the base station 2-1 is established, the base station 2-2 continues the transfer packet received from the base station 2-1. Then, the downlink user packet (packet after packet # 64) received directly from the access router 3 and addressed to the mobile station 1 is transferred to the base station 2-3. At this time, the base station 2-2 does not transmit (transfer) the synchronization establishment notification packet # 91 to the base station 2-3. At the stage of receiving the synchronization establishment notification packet # 91 from the base station 2-1, the base station 2-2 deletes the path for requesting the release of the path between the base station 2-1 and the access router 3. A request message is transmitted to the access router 3 (step S16). When receiving the path deletion request message, the access router 3 releases the path to the base station 2-1, and transmits a path deletion response message to the base station 2-2 (step S17).

  On the other hand, the mobile station 1 and the base station 2-3 execute wireless line synchronization establishment processing. Then, as in the normal handover described in the first embodiment, the base station 2-3 accesses the synchronization establishment notification packet # 92 as a packet for notifying that when synchronization on the radio channel is established. It transmits to the router 3 (step S25). FIG. 10 shows a state immediately after step S25 is executed. When the access router 3 receives the synchronization establishment notification packet # 92 from the base station 2-3, the access router 3 transfers the synchronization establishment notification packet # 92 to the base station 2-2 and changes the transmission destination of the downlink user packet addressed to the mobile station 1. (Change so that the downlink user packet transmitted to the base station 2-2 is transmitted to the base station 2-3) is executed (steps S26 and S27), and the state shown in FIG. 11 is obtained. Thereafter, similarly to the first embodiment, the base station 2-2 transfers the downlink user packet transferred from the base station 2-1 and the downlink user packet directly received from the access router 3 to the base station 2-3. As shown in FIG. 12, the synchronization establishment notification packet # 92 is transmitted to the base station 2-3 after the transfer of all data is completed (step S28).

  In the base station 2-3, the transfer packets transmitted from the base station 2-2 are sequentially transmitted to the mobile station 1, and when the synchronization establishment notification packet # 92 is received, the untransmitted packet addressed to the mobile station 1 is transmitted to the base station 2-3. The station 2-2 recognizes that all the packets have been transferred (all the transfer packets from the base station 2-2 have arrived). Then, the downlink user packets received directly from the access router 3 and stored for the mobile station 1 are transmitted to the mobile station 1 in the same order as received from the access router 3. In addition, the base station 2-3 receives the synchronization establishment notification packet # 92 from the base station 2-2, and in order to release the path between the base station 2-2 and the access router 3, A path deletion request message is transmitted to 3 (step S29). Then, the access router 3 releases the path to the base station 2-2, sets only the path to the base station 2-3, and transmits a path deletion response message to the base station 2-3 (step). S30).

  When synchronization of the radio channel between the mobile station 1 and the base station 2-3 is established, a handover instruction response message and a handover instruction response confirmation message are exchanged between the mobile station 1 and the base station 2-3. (Steps S31 and S32).

  As described above, even if the handover occurs again while the first handover is executed and the downlink user packet is transferred to the handover destination base station, the same as in the first embodiment described above. A synchronization establishment notification packet indicating that synchronization on the radio link has been established is used, that is, the access router that has received the synchronization establishment notification packet transfers it to the handover source base station and sets the destination of the downlink user packet as the handover destination base. By switching to the station, in the first handover destination base station 2-2, the order control of the downlink user packet transferred from the handover source base station 2-1 and the downlink user packet transmitted from the access router 3 is performed. In addition, the second handover destination base station 2-3 also performs packet sequence control. It is possible. Further, the access router 3 can transmit data to a plurality of paths at high speed only by transmitting downlink data to a path where a packet for notifying establishment of synchronization, which is a layer 2 level signal, has arrived.

  Further, even when the mobile station further performs a handover before the data transfer from the source base station is completed, the data transfer that guarantees the lack of data and the order can be realized.

Embodiment 3 FIG.
Next, the packet transmission control method according to the third embodiment will be described. In the second embodiment described above, the packet transmission control method in the case where the mobile station that is executing the handover further performs a handover to another base station has been described. However, in this embodiment, the movement that is executing the handover is described. A packet transmission control method when a station switches back to a handover source base station and performs handover will be described. The configuration of the communication system including the mobile access network that implements the packet transmission control method of the present embodiment is the same as that of the communication system of the first embodiment.

  FIG. 13 is a diagram illustrating an example of a control sequence in a case where a mobile station that is executing handover switches back to the base station that is the handover source. In FIG. 13, the same step number is assigned to the same process as the process of FIG. 2 described in the first embodiment. Therefore, description of these processes is omitted.

  FIG. 14 is a diagram for explaining the packet transmission control method according to the third embodiment. However, the numbers (# 1, # 2,...) Given to each packet in FIG. 14 do not mean that a sequence number is given to each packet, but clarify the order and distinction of transfer packets. These numbers are not provided for actual packets.

  As shown in FIG. 13, the mobile station 1 performs handover from the base station 2-1 to the base station 2-2 until the state of FIG. 5 shown in the first embodiment is reached (from steps S1 to S14). ) Is the same operation as in the first embodiment. Further, FIG. 13 shows a control sequence when the mobile station 1 subsequently switches back to the base station 2-1, but this part is described in the control sequence described in the second embodiment (see FIG. 7). Because it is very similar, here we will focus on the differences.

  In the second embodiment, at the stage when the first handover is completely completed, that is, when the transmission of the transfer packet from the base station 2-1 to the base station 2-2 is completed, the base station 2-1 and the access router 3 In this embodiment, as shown in FIG. 13, the base station 2-2 receives a measurement result report message that the mobile station 1 transmits to activate the second handover, as shown in FIG. (Step S18) When it is recognized that the handover destination base station is the source base station 2-1 of the first handover, the transmission of the transfer packet from the base station 2-1 is completed, that is, the synchronization establishment notification packet # Even if 91 is received, a path deletion request message for requesting a path release between the base station 2-1 and the access router 3 is not transmitted (step S16 shown in FIG. 7 is not executed). Except for this operation, the same operation as in the second embodiment is performed on the control sequence.

  Next, the forwarding packet transmission operation and the packet order control operation will be described with reference to FIGS.

  For example, in the state where the first handover is executed and the transfer packet is transmitted from the base station 2-1 to the base station 2-2, the mobile station 1 switches back to the base station 2-1. At this point, the access router 3 has already switched the path to the base station 2-2 and has already transmitted the synchronization establishment notification packet # 91 to the base station 2-1 (handover destination). The synchronization establishment notification packet # 91 transmitted from the base station 2-2 has been transferred to the base station 2-1, but the transfer packet is transmitted from the base station 2-1 to the base station 2-2. The state is not completed (the state where the synchronization establishment notification packet # 91 has not yet been transferred from the base station 2-1 to the base station 2-2).

  Then, when the mobile station 1 performs handover in the form of switching back to the base station 2-1, and synchronization on the radio channel is established with the base station 2-1, the base station 2-1 executes The transmission of the transfer packet for the first handover to the base station 2-2 is stopped, and the synchronization establishment notification packet # 91 (synchronization establishment notification A) that has already been received is transmitted to the base station 2-2 ( Step S15a).

  In the example of FIG. 14, the base station 2-1 has received the downlink user packets # 1 to # 6 from the access router 3 at the time of the first handover, and the synchronization establishment notification packet # 91 indicating that it is the last after that. Receiving. Furthermore, a situation is shown in which synchronization with the mobile station 1 is established at the timing when the downlink user packets # 1 to # 3 in the received downlink user packets are transferred to the base station 2-2 as transfer packets. At this time, as described above, the base station 2-1 stops the transfer of the downlink user packets # 4 to # 6 that are scheduled to be transferred to the base station 2-2, and immediately sends the synchronization establishment notification packet # 91 to the base station 2-2. Transmit to station 2-2.

  In addition, the base station 2-1 holds downlink user packets # 4 to # 6 for which transfer has been stopped. Furthermore, the base station 2-1 transmits a synchronization establishment notification packet # 92 indicating that the synchronization between the mobile station 1 and the wireless line has been established to the access router 3 (step S15b in FIG. 13), and the access router 3 And the transmission destination of the downlink user packet is switched to the base station 2-1 (step S26).

  On the other hand, the base station 2-2 sequentially transmits the transfer packets received from the base station 2-1 with the first handover to the mobile station 1, and in the example of FIG. 14, transmits the downlink user packet # 1 to the mobile station. In this state, the mobile station 1 executes the second handover when the delivery confirmation is obtained. For this reason, the base station 2-2 retransmits the downlink user packet, which has not been completely transmitted to the mobile station 1 (the delivery has not been confirmed), to the base station 2-1. Further, subsequently, the downlink user packet directly received from the access router 3 and addressed to the mobile station 1 is transferred to the base station 2-1. Specifically, as shown in FIG. 14, downlink user packets # 2 and # 3 transferred from the base station 2-1 are retransmitted to the base station 2-1 in the order received, and then synchronization is established. The notification packet # 91 is retransmitted (step S41 in FIG. 13). Then, the downlink user packets # 7 to # 9 received directly from the access router 3 are transferred to the base station 2-1 in the order received. Finally, the synchronization establishment notification packet # 92 received from the base station 2-1 via the access router 3 is transferred to the base station 2-1 (steps S42 and S43), and the transfer operation is completed.

  When the base station 2-1 receives the synchronization establishment notification packet # 92 from the base station 2-2, the path deletion request message for requesting the release of the path between the base station 2-2 and the access router 3 Is transmitted to the access router 3 (step S44), and the access router 3 returns a path deletion response message to this (step S45).

  Here, the base station 2-1 that becomes the movement destination base station in the second handover performs the downlink user packet (not shown in FIG. 14) that was not transferred when the synchronization on the radio channel was established in the second handover. Downlink user packets # 4 to # 6) and is stored in the mobile station 1 by inserting the stored packet between the transfer packets transferred from the base station 2-2 in the second handover. Will be sent. The synchronization establishment notification packet # 91 is used as the insertion position of this accumulated packet. That is, in the second handover, the base station 2-1 sequentially transmits packets transferred from the base station 2-2 to the mobile station 1, but the base station 2-2 transmits to the access router 3 in the first handover. When the synchronization establishment notification packet # 91 is received, the subsequent packets (downlink user packets # 7 to # 9 in the example of FIG. 14) are temporarily accumulated, and the downlink users previously accumulated After transmitting the packets # 4 to # 6 to the mobile station 3, the transmission packet order is controlled by transmitting the downlink user packets # 7 to # 9 temporarily stored.

  As described above, in the present embodiment, when the first handover is executed and the downlink user packet is transferred to the handover destination base station, the handover to the original base station occurs. Even if synchronization is established on the wireless line, a synchronization establishment notification packet indicating that is transmitted to the accelerator router, and this is forwarded to itself to control the order of downlink user packets. It was. As a result, even when switching occurs during data transfer between base stations that have performed handover, the order of downlink user packets to be transmitted to the mobile station that has performed handover can be guaranteed, It is possible to suppress an increase in the transmission delay of the downlink user packet to the mobile station by reducing the number of packets retransmitted at the time of switching back. In addition, an increase in traffic can be prevented.

Embodiment 4 FIG.
Next, the packet transmission control method according to the fourth embodiment will be described. In the above-described third embodiment, in order to suppress the number of packets to be retransmitted when switching back, data transfer is stopped when the mobile station switches back to the handover source base station and synchronization on the radio channel is established. However, in this embodiment, at the time of packet transfer between base stations accompanying a handover, the base station stores the copy while transferring the packet, and stores it when a switchover type handover occurs. A packet transmission control method capable of suppressing unnecessary packet transfer by transmitting a downlink packet will be described with reference to FIG. The configuration of the communication system including the mobile access network that implements the packet transmission control method of the present embodiment is the same as that of the communication system of the first embodiment.

  When transfer by handover is required, the handover source base station forwards the downlink user packet received from the access router to the mobile station that executed the handover, and stores a copy of the transferred downlink user packet. Keep it. In the example shown in FIG. 15, downlink user packets # 1 to # 6 transmitted from the accelerator router 3 to the base station 2-1 are packets to be transferred. When these packets are transferred, the base station 2-1 , Keep a copy of it. The base station 2-2, which is the destination base station in the first handover, transmits to the mobile station 1 when the mobile station 1 executes a switchover type handover (a delivery confirmation has been obtained). After the synchronization establishment notification packet # 91 is repeatedly transmitted to the base station 2-1 by the number of user packets, the downlink user data # 7 to # 9 received directly from the access router 3 are transmitted (transferred). Then, after the transfer of the downlink user data # 7 to # 9 is completed, the synchronization establishment notification packet # 92 is transmitted to the base station 2-1.

  The base station 2-1 recognizes the number of downlink user packets that have been transmitted to the mobile station by confirming the number of synchronization establishment notification packets # 91 that have been transmitted, and stores them in the transfer operation associated with the first handover. It is determined which of the previously stored packets should be transmitted to the mobile station 1. The downlink user packets determined to be transmitted are transmitted to the mobile station 1 in the correct order, that is, in the accumulated order. Specifically, the base station 2-1 discards the downlink user packets in order from the oldest (accumulated first) as many as the number of synchronization establishment notification packets # 91 received from the base station 2-2, The remaining downlink user packets are transmitted to the mobile station 1 in the order in which they are stored. In the example shown in FIG. 15, downlink user packets # 1 and # 2 are transmitted from the base station 2-2 to the mobile station 1, and the delivery confirmation is also obtained. The synchronization establishment notification packet # 91 is transmitted twice before the downlink user packets # 7 to # 9 transferred to -1.

  In the example shown in FIG. 15, when the handover destination base station 2-2 transfers the downlink user packets # 7 to # 9 received directly from the access router 3 to the base station 2-1, these are copied. You may make it accumulate.

  As described above, in the present embodiment, the handover source base station that forwards the downlink user packet along with the occurrence of the handover stores a copy of the downlink user packet to be forwarded, and when a switchover occurs, The destination base station notifies the handover source base station of the number of transfer packets that have been transmitted to the mobile station by transmitting a synchronization establishment notification packet, so that the forwarded downlink user packet is not retransmitted. did. In addition, the handover source base station transmits necessary ones of the stored copies of the downlink user packet to the mobile station. As a result, even when the mobile station performs handover and switches back during data transfer between base stations, the order of downlink data packets to be transmitted to the mobile station can be guaranteed, and re-transfer at the time of switch back By eliminating the transmitted packets, it is possible to suppress an increase in transmission delay of the downlink user packet to the mobile station. In addition, an increase in traffic can be prevented.

  As described above, the packet transmission control method according to the present invention is useful for wireless communication, and is particularly suitable for controlling the transmission order and transmission timing of downlink user packets addressed to a mobile station that has performed handover.

It is a figure which shows the structural example of the communication system which implement | achieves the packet transmission control method concerning this invention. It is a figure which shows the example of a control sequence in case a mobile station hands over. It is a figure for demonstrating the transmission and transmission operation | movement of the downlink user packet at the time of handover execution. It is a figure for demonstrating the transmission and transmission operation | movement of the downlink user packet at the time of handover execution. It is a figure for demonstrating the transmission and transmission operation | movement of the downlink user packet at the time of handover execution. It is a figure for demonstrating the transmission and transmission operation | movement of the downlink user packet at the time of handover execution. It is a figure which shows the example of a control sequence in case the mobile station in which handover is performing further performs a handover. 6 is a diagram for explaining a packet transmission control method according to Embodiment 2. FIG. 6 is a diagram for explaining a packet transmission control method according to Embodiment 2. FIG. 6 is a diagram for explaining a packet transmission control method according to Embodiment 2. FIG. 6 is a diagram for explaining a packet transmission control method according to Embodiment 2. FIG. 6 is a diagram for explaining a packet transmission control method according to Embodiment 2. FIG. It is a figure which shows the example of a control sequence in case the mobile station in execution of handover switches back to the base station of a handover origin. 10 is a diagram for explaining a packet transmission control method according to Embodiment 3. FIG. FIG. 10 is a diagram for explaining a packet transmission control method according to a fourth embodiment.

Explanation of symbols

1 Mobile Station (MS)
2-1, 2-2, 2-3 Base Station (BS)
3 Access Router (AR)
4 Mobile Access Network 5 Core Network (CN)
6,7 packets

Claims (10)

When a handover is performed between base stations connected to a specific access router, the handover destination base station correctly transmits the forward packet transferred from the handover source base station and the direct packet received directly from the access router to the destination mobile station. A packet transmission control method for transmitting in order,
When the handover destination base station establishes radio link synchronization with the mobile station that has performed the handover, a synchronization establishment notification packet is transmitted to the handover source base station via the access router to indicate that fact. Sending step;
Packet transfer in which the handover source base station transfers an unsent packet addressed to the mobile station as a transfer packet to the handover destination base station, and then transfers the synchronization establishment notification packet received via the access router to the handover destination base station Steps,
Packet transmission for transmitting a direct packet addressed to the mobile station to the mobile station when the handover destination base station receives the synchronization establishment notification packet from the handover source base station after transmitting the transfer packet to the mobile station Steps,
A packet transmission control method comprising: In the packet transfer step, transfer unsent packets in the order received from the access router;
In the packet transmission step, the transfer packet is transmitted to the mobile station in the order received from the handover source base station until the synchronization establishment notification packet is received, and after receiving the synchronization establishment notification packet, the direct transmission packet is transmitted. The packet transmission control method according to claim 1, wherein the packet transmission is transmitted to the mobile station in the order received from the access router. In the synchronization establishment notification packet transmission step, the handover destination base station transmits a synchronization establishment notification packet over a predetermined number of times,
In the packet transfer step, the synchronization establishment notification packet received over a predetermined number of times is transferred to the handover destination base station,
3. The packet transmission control method according to claim 1, wherein, in the packet transmission step, after receiving at least one synchronization establishment notification packet, a direct transmission packet addressed to the mobile station is transmitted to the mobile station.   The packet transmission control method according to claim 1, 2, or 3, wherein a layer 2 level signal packet is used as the synchronization establishment notification packet. Before the handover destination base station (second base station) receives the synchronization establishment notification packet (first synchronization establishment notification packet) from the handover source base station (first base station), the mobile station If you execute the handover again,
When the re-handover destination base station (third base station) establishes radio link synchronization with the mobile station, a second synchronization establishment notification packet indicating that is sent via the access router to the second To the base station
The second base station first retransfers the transfer packet addressed to the mobile station received from the first base station to the third base station, and then from the first base station to the first base station. When the first synchronization establishment notification packet is received, an untransmitted packet addressed to the mobile station directly received from the access router is transferred to the third base station as a transfer packet, and finally, the second synchronization establishment notification is sent. Forward the packet to the third base station,
When the third base station transmits a transfer packet from the second base station to the mobile station and then receives the second synchronization establishment notification packet from the second base station, The packet transmission control method according to any one of claims 1 to 4, wherein a direct transmission packet addressed to the mobile station directly received from the access router is transmitted to the mobile station. Before the handover destination base station (second base station) receives the synchronization establishment notification packet (first synchronization establishment notification packet) from the handover source base station (first base station), the mobile station When executing the handover again and returning the connection destination to the first base station,
When the first base station establishes radio link synchronization with the mobile station, it first stops transferring untransmitted packets addressed to the mobile station to the second base station, Transferring the first synchronization establishment notification packet received via the access router while accumulating unsent packets to the second base station, and then establishing synchronization of the radio link with the mobile station A second synchronization establishment notification packet indicating the following is transmitted to the second base station via the access router,
When the second base station receives the first synchronization establishment notification packet from the first base station, the second base station is a transfer packet that has been received from the first base station before and has not yet moved. The untransmitted transfer packet not transmitted to the station and the first synchronization establishment notification packet are transferred to the first base station, and the untransmitted direct packet addressed to the mobile station is used as the transfer packet. After transferring to the base station, transfer the second synchronization establishment notification packet to the first base station,
The first base station transmits untransmitted transfer packets received from the second base station to the mobile station, and stores the untransmitted packets stored after receiving the first synchronization establishment notification packet. Transmitted to the mobile station, and then transmitted the transfer packet received from the second base station to the mobile station. Further, after receiving the second synchronization establishment notification packet, received directly from the access router 5. The packet transmission control method according to claim 1, wherein a direct transmission packet addressed to the mobile station is transmitted to the mobile station. In the packet transfer step, the first base station which is the handover source base station is the handover destination base station using the untransmitted packet as a transfer packet while copying and storing the untransmitted packets addressed to the mobile station. Forward to the second base station,
Before the second base station receives the synchronization establishment notification packet (first synchronization establishment notification packet) from the first base station, the mobile station executes a handover again to perform the first base station When returning the connection destination to
When the first base station establishes radio link synchronization with the mobile station, the first base station first stops transfer of unsent packets addressed to the mobile station to the second base station. The first synchronization establishment notification packet received via the access router is transferred to the second base station while accumulating unsent unsent packets, and further, synchronization of the radio channel is established with the mobile station A second synchronization establishment notification packet indicating that it has been transmitted to the second base station via the access router;
When the second base station receives the first synchronization establishment notification packet from the first base station, the second base station transmits the first synchronization establishment notification packet over the number of transfer packets transmitted to the mobile station. Continuously transmit to the first base station, and further transfer the untransmitted direct packet addressed to the mobile station as a transfer packet to the first base station, and then send the second synchronization establishment notification packet to the first base station Forward to
The first base station first discards the unsent packets that have been duplicated and accumulated by the number of the first synchronization establishment notification packets in order from the first accumulated packet, and the remaining unsent Transmitting the packet to the mobile station, then transmitting the transfer packet received from the second base station to the mobile station, and finally receiving the second synchronization establishment notification packet, the access router The packet transmission control method according to claim 1, wherein a direct transmission packet addressed directly to the mobile station is transmitted to the mobile station.   The base station which enables execution of processing of a handover source base station in the packet transmission control method according to any one of claims 1 to 7.   8. A base station capable of executing processing of a handover destination base station in the packet transmission control method according to any one of claims 1 to 7.   6. The base station according to claim 5, wherein the process of the re-handover destination base station can be executed.

Images