JP2014232925A - Exchange selection method, communication control device, and exchange - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an exchange selection method capable of selecting another exchange even in the case where an exchange such as MSC is not available, during CS Fallback in Inter-RATPS-HO, a communication control device and an exchange.SOLUTION: An available MSC 200 transmits IMSI and G-CNID of a mobile station 400 to an RNC 100 in the case of an incoming request. Thereafter, a ranging destination of the mobile station 400 is switched from LTE to WCDMA (CSFallback) and the IMSI that is succeeded in that case is transmitted from an SGSN 300 to the RNC 100. A TMSI/IMSI holding part 103 stores the IMSI of the mobile station 400 as information capable of identifying the MSC 200. Upon receiving a CS connection request from the mobile station 400, the RNC 100 identifies the MSC 200 using the stored IMSI.

Description

The present invention relates to an exchange selection method, a communication control apparatus, and an exchange for selecting an exchange for performing communication control for a mobile station.
About.

In ^{3GPP (3 rd Generation Partnership Project)} , Iu-Flex technology RNC (Radio NetworkController) is connected to a plurality of CN (Core Network) node is specified. In this Iu-Flex, the CN is composed of a CS (Circuit Switched) domain and a PS (Packet Switched) domain. A mobile service switch (MSC) is arranged in the CS domain, and an SGSN (Serving GPRS Support Node) is arranged in the PS domain. Then, by appropriately selecting the CN node by the RNC, the load distribution of the CN node and the service interruption at the time of failure are realized.

  Here, in Patent Document 1, for example, when an incoming request to an unusable exchange is accepted, the incoming request is transmitted to another exchange other than the exchange based on the specific information included in the identification information. The process and the operation of making a call connection to the exchange that sent the incoming request are described. In this document 1, TMSI (Temporary Mobile Subscriber Identity: ID paid out by MSC) or P-TMSI (Packet-Temporary Mobile Subscriber Identity: ID given out by SGSN) is used as identification information.

JP 2012-70086 A

  However, with the technique described in Patent Document 1, the MSC that requested the incoming call may not be specified during CS Fallback. Here, CSFallback is a method of switching to a WCDMA system and implementing CS connection when the mobile station is in LTE (Long Term Evolution) coverage, for example. In 3GPP, for switching from LTE to WCDMA, the Inter-RAT PS-HO system and the RRC Connection Release with Redirection system are defined (3GPP TS 25.331 / 36.331). CS Fallback using InterRAT PS-HO can switch from LTE to WCDMA in the PS domain (via SGSN) while maintaining the connection between the mobile station and the wireless network, and after switching to WCDMA, the CS domain This is a method for implementing the connection.

  Also, CS Fallback using RRC (Radio Resource Control) Connection Release with Redirection disconnects the wireless network in LTE, and once the mobile station transitions to the idle state, it receives WCDMA broadcast information, and in WCDMA This is a method for starting connection.

  In Patent Document 1, when the MSC indicated by the NRI (Network Resource Identity) in the IDNNS (Intra Domain NAS Node Selector) notified from the mobile station is unavailable, the RNC uses the TMSI set in the RRC Connection Request, Although a technique for avoiding the unusable MSC is described, as described above, in the CS Fallback procedure in the Inter-RATPS-HO, since the wireless NW connection is maintained, the RRC Connection Request cannot be received. This is because the RRC Connection Request is a message that is transmitted at the start of communication from the Idle state, and therefore, the RRC Connection Request is not transmitted in a state where wireless connection is established. In addition, Inter-RATPS-HO switches from LTE to WCDMA in the PS domain (via SGSN), so that TMSI delivered in the CS domain is not notified from SGSN. Inter-RAT PS-HO is started by a 3GPPTS25.413 Relocation Request message, but TMSI cannot be set in the message. Therefore, the RNC cannot use the TMSI to avoid an unusable MSC and cannot identify the MSC that has made an incoming call request.

  Therefore, in order to solve the above-described problem, an exchange selection method capable of selecting another exchange even when an exchange such as an MSC is unavailable at the time of CS Fallback in Inter-RAT PS-HO, An object is to provide a communication control device and an exchange.

  In order to solve the above-described problem, the exchange selection method of the present invention is configured such that the first exchange in which the mobile station in the first communication system can be located and the exchange selection apparatus give a selection instruction to the first exchange. In the exchange selection method of the communication control apparatus connected to the second exchange capable of communicating with the mobile station in the communication system of the mobile station, the mobile station switches the destination from the second communication system to the first communication system A storage step of storing in the storage means information that can identify the second switch selected by the switch selection device, and identification information of the first switch from the mobile station in response to an incoming call request. A connection request receiving step for receiving the included connection request, and a state determination step for determining the state of the first exchange when the connection request is received by the connection request receiving step. And when the first switch is determined to be unusable by the state determining step, the second switch is switched on the basis of information that can identify the second switch stored in the storage means. A specifying step for specifying, and a connection requesting step for transmitting a connection request to the second exchange specified by the specifying step.

  According to the present invention, when the mobile station is switched from the second communication system to the first communication system, the second switch selected by the switch selection device transmitted at the time of the incoming call request can be specified. If the mobile station receives a connection request for the first switch that cannot be used from the mobile station, the second switch is identified based on the information that can identify the second switch. A connection request is transmitted to the second exchange. As a result, even if the first exchange cannot be used, connection processing can be performed on the second exchange while avoiding the use of the first exchange. In particular, when switching communication systems such as during CSFallback, the method using TMSI could not identify an available exchange, but in the present invention, even in such a case, it can be used reliably. An unavailable switch can be avoided and an available second switch can be selected.

  In addition, the exchange selection method of the present invention is selected by the exchange selection apparatus when the third exchange in the first communication system switches the mobile station from the second communication system to the first communication system. An acquisition step for acquiring information identifying the second exchange from the second communication system, and a transmission for transmitting information capable of identifying the second exchange acquired in the acquisition step to the communication control device And the storage step in the communication control device stores information that can identify the second exchange acquired in the acquisition step.

  According to this invention, when the third exchange in the first communication system switches from the second communication system to the first communication system, the information that can identify the second exchange selected in the exchange selection device. Is acquired from the second communication system, and information that can identify the second exchange is transmitted to the communication control apparatus, and the communication control apparatus stores the transmitted information that can identify the second exchange. As a result, when the communication system is switched, the third exchange can take over the information that can identify the second exchange, and can notify the communication controller of the information, whereby the first exchange cannot be used. Even if it exists, it can avoid that and a connection process can be performed with respect to a 2nd exchange.

  In the exchange selection method of the present invention, the second exchange transmits an incoming request including information that can identify the second exchange to the communication control device or the second communication system. The storage step stores information that can identify the second exchange included in the incoming request transmitted in the incoming request step.

  According to the present invention, an incoming request including information that can specify the second exchange is transmitted to the communication control device or the second communication system, and information that can specify the second exchange included in the incoming request is received. Remember. Thus, since the second exchange can be specified, even if the first exchange cannot be used, this can be avoided and connected to the second exchange.

  In addition, the communication control apparatus of the present invention includes a first exchange capable of locating a mobile station in the first communication system, and the mobile station in the first communication system when a selection instruction is given in the exchange selection apparatus. In the communication control apparatus connected to the second exchange that can communicate with the mobile station, when the mobile station switches the destination from the second communication system to the first communication system, the switch selected by the exchange selection apparatus Storage means for storing information capable of specifying a second exchange; connection request receiving means for receiving a connection request including identification information of the first exchange from the mobile station in response to the incoming request; and When a connection request is received by the connection request receiving means, a state determining means for determining the state of the first switch and a determination that the first switch is not available by the state determining means. The specifying means for specifying the second exchange based on the information that can specify the second exchange stored in the storage means, and the second exchange specified by the specifying means. Connection request means for transmitting a connection request.

  According to the present invention, when the mobile station is switched from the second communication system to the first communication system, the second switch selected by the switch selection device transmitted at the time of the incoming call request can be specified. If the mobile station receives a connection request for the first exchange that cannot be used from the mobile station, the second exchange is identified using the information that can identify the second exchange, A connection request is transmitted to the second exchange. As a result, even if the first exchange cannot be used, connection processing can be performed on the second exchange while avoiding the use of the first exchange. In particular, when switching communication systems such as during CSFallback, the method using TMSI could not identify an available exchange, but in the present invention, even in such a case, it can be used reliably. An unavailable switch can be avoided and an available second switch can be selected.

  The communication control apparatus of the present invention includes an incoming request receiving unit that receives an incoming request including identification information of the mobile station and identification information of the second switch, and the incoming request receiving unit. Identification information storage means for storing the received identification information of the mobile station and the identification information of the second exchange, and the storage means, as information capable of specifying the second exchange, The identification unit stores the identification information, and when the connection request is received from the mobile station, the identification unit uses the identification information stored in the storage unit to respond to the identification information from the identification information storage unit. The second exchange to be identified is identified.

  According to the present invention, the incoming request including the identification information of the destination mobile station and the identification information of the second exchange is received and stored, and the second exchange can be specified when the communication system is switched. As the information, the identification information of the mobile station is stored, and when a connection request is made from the mobile station, the identification information stored when switching the communication system is used to specify the second exchange corresponding to the identification information. I do. Thereby, it is possible to specify an available exchange without using TMSI.

  The communication control apparatus of the present invention receives the identification information of the second exchange from the exchange for packet communication in the first communication system when switching from the second communication system to the first communication system. Identification information receiving means, and the storage means stores the identification information of the second exchange received by the identification information receiving means as information that can identify the second exchange.

  According to this invention, when switching from the second communication system to the first communication system, the identification information of the second exchange in the second communication system is obtained from the packet communication exchange in the first communication system. It is received and stored as information that can identify the second exchange. Thereby, it is possible to specify an available exchange without using TMSI.

  In the communication control apparatus according to the present invention, when a connection request is received by the connection request receiving means, a procedure for switching the location of the mobile station from the second communication system to the first communication system is performed. Switching procedure determination means for determining whether or not the first exchange has been determined by the state determination means, and the switching procedure determination means determines whether or not the first exchange is unavailable. If it is determined that the second exchange has been performed, the second exchange is identified based on the identification information of the second exchange stored in the storage means.

  The exchange of the present invention is an exchange arranged in the first communication system, and is selected as an exchange that can be used by the exchange selection device. When an incoming call request process for the mobile station is accepted, the mobile station identification is performed. Transmitting means for transmitting a first incoming request including information and exchange identification information indicating the exchange to the communication control device and transmitting a second incoming request to the second communication system.

  According to the present invention, when an exchange request is selected by the exchange selection device and an incoming request processing for the mobile station is accepted, the first incoming call containing the identification information of the mobile station and the exchange identification information indicating the exchange The request is transmitted to the communication control device, and the second incoming request is transmitted to the second communication system. This makes it possible to specify an available exchange in the communication control device.

  The exchange of the present invention is an exchange arranged in the first communication system, and is selected as an exchange that can be used by the exchange selection device. When an incoming request process for a mobile station is accepted, the first incoming request is received. Is transmitted to the communication control device, and further includes a transmission means for transmitting the second incoming request including the exchange identification information indicating the exchange to the second communication system.

  According to this invention, when an exchange request is selected by the exchange selection device and an incoming request processing for the mobile station is accepted, the first incoming request is transmitted to the communication control device, and the exchange identification information indicating the exchange Is transmitted to the second communication system. This makes it possible to specify an available exchange in the communication control device.

  According to the present invention, even when an exchange in the service area is unavailable, it is possible to avoid the situation and perform connection processing for a selected available exchange.

1 is a system diagram showing a network configuration using an RNC 100 of a first embodiment. It is a block diagram which shows the function structure of RNC100 of 1st Embodiment. It is a block diagram which shows the function structure of MSC200 of 1st Embodiment. It is a sequence diagram which shows the selection process of MSC by RNC100 of 1st Embodiment. It is a block diagram which shows the function structure of RNC100a of 2nd Embodiment. It is a sequence diagram which shows the selection process of MSC by RNC100a of 2nd Embodiment.

  Embodiments of the present invention will be described with reference to the accompanying drawings. Where possible, the same parts are denoted by the same reference numerals, and redundant description is omitted.

[First Embodiment]
FIG. 1 is a system diagram showing a network configuration using the RNC 100 of the present embodiment. As shown in FIG. 1, this network includes an RNC (Radio Network Controller) 100, an MSC (Mobile Switching Center) 200, an MSC 200a, an SGSN (Serving GPRS Support Node) 300, a mobile station 400, an eNB (Evolved Node B) 500, and a core network. An apparatus 600 and an exchange selection apparatus 700 are configured.

  The RNC 100, the MSC 200 and 200a, the SGSN 300, and the exchange selection apparatus 700 constitute a communication network based on, for example, WDMMA (Wideband Code Division Multiple Access). It constitutes. In the present embodiment, WCDMA and LTE cells may be replaced, and each system may be a different system such as GSM (Global System for Mobile Communication) / GERAN (GSM EDGERadio Access. Network) or CDMA2000. It is good also as a system.

  In FIG. 1, the RNC 100 forms a WCDMA cell, and the mobile station 400 enables WCDMA communication in this cell. Further, the eNB 500 forms an LTE cell, and the mobile station 400 enables LTE communication in this cell. The WCDMA communication system and the LTE communication system are connected via a core network device 600.

  The RNC 100 is a communication control apparatus that performs radio communication control for a mobile station, and performs radio control when the mobile station 400 is located in a WCDMA cell. SGSN 300 is an exchange for packet communication, and MSCs 200 and 200a are exchanges for voice communication.

  The eNB 500 is a base station in the LTE network, and forms an LTE cell in which the mobile station 400 enables LTE communication.

  Moreover, the core network apparatus 600, SGSN300, RNC100, and eNB500 shall have the CSFB function (CSFallback function) by Inter-RAT PS-HO. Furthermore, it is assumed that the mobile station 400 is located in the LTE cell, and when executing Inter-RAT PS-HO, a handover (HO) from LTE to WCDMA is assumed. It is also possible to apply to another RAT (for example, LTE to GERAN).

  Here, it is assumed that the mobile station 400 is located in the MSC 200a, and the mobile station 400 holds identification information (for example, a value indicating MSC # 1) of the MSC 200a as an NRI. When the mobile station 400 is located in the LTE cell and receives an incoming voice communication, the mobile station 400 accepts an incoming call request via the MSC 200a in the WCDMA communication system.

  In the present embodiment, even if the MSC 200a used by the mobile station 400 at the time of voice communication is unavailable due to a failure or the like, the MSC 200 selected by the exchange selection device 700 is used to ensure voice communication connection. An incoming call process for the mobile station 400 is performed. At this time, when the mobile station 400 executes the CSFallback function, the mobile station 400 holds the identification information of the MSC 200a, but does not hold the identification information of the MSC 200, so that connection processing can be performed via the MSC 200. Can not.

  In this embodiment, the MSC 200 stores the identification information of the MSC 200 in the RNC 100 during the incoming call processing in voice communication, and the RNC 100 extracts the identification information of the MSC 200 during the CS connection request processing from the mobile station 400. Thus, connection processing is to be performed on the MSC 200.

  This will be described in more detail below. FIG. 2 is a block diagram illustrating a functional configuration of the RNC 100 according to the present embodiment. The RNC 100 includes a CN signal transmission / reception unit 101 (connection request unit, incoming request reception unit), an IMSI / G-CNID holding unit 102 (identification information storage unit), a TMSI / IMSI holding unit 103 (storage unit), and a UE signal transmission / reception unit. 104 (connection request receiving means) and a connection destination MSC determination unit 105 (state determination means, specifying means). Hereinafter, each component will be described.

  The CN signal transmission / reception unit 101 receives various signals from a CS (Circuit Switching) core network and a PS (Packet Switching) core network, or transmits various signals to the core network. It is.

  The IMSI / G-CNID holding unit 102 stores an IMSI (International Mobile Subscriber Identity) and a G-CNID (Global Core Network ID) included in the incoming call request transmitted from the MSC 200 and received by the CN signal transmitting / receiving unit 101. It is a part to do. In this embodiment, identification information indicating MSC # 2: MSC200 is stored as the G-CNID. The IMSI / G-CNID holding unit 102 may periodically delete information using a timer or the like so that old erroneous information is not registered. Further, the IMSI / G-CNID holding unit 102 can store information registration time in association with these identification information, and can prevent the connection destination MSC determination unit 105 from using information that has passed for a certain period of time. .

  The TMSI (Temporary Mobile Subscribe Identity) / IMSI holding unit 103 is a part that stores the IMSI transmitted from the SGSN 300 and received by the CN signal transmitting / receiving unit 101 and the TMSI transmitted from the core network.

  The UE signal transmission / reception unit 104 is a part that transmits / receives a signal from the mobile station 400. For example, the UE signal transmitting / receiving unit 204 receives an Inter-RAT PS-HO response or receives an RRC message (Initial Direct Transfer) for a CS connection request. In addition, transmission and reception of signals for communication control between the mobile station 400 and the network are performed.

  When the UE signal transmission / reception unit 104 receives the CS connection request, the connection destination MSC determination unit 105 determines whether the MSC is usable based on the identification information of the MSC 200 included in the CS connection request. Part. If it is determined that it is impossible, the IMSI / G-CNID stored in the IMSI / G-CNID holding unit 102 and the G-CNID corresponding to the IMSI stored in the TMSI / IMSI holding unit 103 are set. This is the part to be extracted. The CN signal transmitting / receiving unit 101 transmits a CS connection request to the MSC 200 determined based on the extracted G-CNID.

  Next, the configuration of the MSC 200 (200a) of the present embodiment will be described. FIG. 3 is a block diagram showing a functional configuration of the MSC 200 of the present embodiment. The MSC 200 is configured to include a switching reception unit 210 and an incoming request transmission unit 220 (transmission unit) in addition to having a function as an exchange.

  The switching accepting unit 210 is a part that accepts selection from the switch selection device 700 according to the selection process.

  When an incoming call request by voice communication is accepted from another terminal, incoming call request transmitter 220 transmits IMSI and G-CNID (MSC # 2: identification information indicating MSC 200) to RNC 100, and the LTE core The network device 600 is a part that transmits an incoming call request.

  The MSC 200 in the present embodiment transmits the IMSI of the destination mobile station and the G-CNID indicating itself to the RNC 100 in advance, and stores these identification information in the RNC 100. .

  Next, a processing sequence using the RNC 100 and the MSC 200 configured as described above will be described. FIG. 4 is a sequence diagram showing MSC selection processing using the RNC 100 and the MSC 200 of the present embodiment.

  As a premise, the RNC 100 and the exchange selection device 700 constantly monitor the MSCs 200 and 200a, and can recognize that when the MCS 200a becomes unavailable due to a failure or the like. In the example of FIG. 4, the MSC 200a is in an unusable state, and the exchange selection device 700 recognizes that fact. Then, the exchange selection device 700 selects the MSC 200 as an available exchange. In addition, it is assumed that the mobile station 400 is located in the LTE cell (S101).

  When receiving an incoming request from another terminal, MSC 200 transmits an incoming request including the IMSI and G-CNID of destination mobile station 400 to RNC 100 (incoming request step). In the RNC 100, the CN signal transmission / reception unit 101 receives the incoming request, and the IMSI and G-CNID: MSC # 2 of the mobile station 400 included in the incoming request are stored in the IMSI / G-CNID holding unit 102. (S102). Note that, when the RNC 100 receives an incoming call request from the MSC 200, the RNC 100 performs incoming call processing on the mobile device 400. However, in this embodiment, since the mobile device 400 is located in the LTE area, the incoming call processing is executed. Never happen.

  In addition, an incoming call request is transmitted to the core network device 600. Then, in the core network device 600, an incoming call request is transmitted to the mobile station 400 via the eNB 500 (S103).

  When the mobile station 400 accepts an incoming request from the eNB 500, CSFallback for switching to the WCDMA system is executed. In the present embodiment, on the LTE side (core network device 600), CSFallback by Inter-RAT PS-HO is activated, and the mobile station 400 is switched from the LTE connection state to the 3G (WCDMA) connection state (S104).

  During this CS Fallback, the SGSN 300 takes over the IMSI of the mobile station 400 from the LTE core network device 600 (or a management device that manages subscriber information) (acquisition step). Then, the IMSI of the mobile station 400 is transmitted from the SGSN 300 to the RNC 100 (transmission step), and the IMSI is received by the CN signal transmission / reception unit 101 in the RNC 100 and stored in the TMSI / IMSI holding unit 103 (S105: storage step). Specifically, a Relocation Request including IMSI is transmitted by a RANAP (Radio Access Network Application Part) protocol.

  Then, when the CSFallback by Inter-RATPS-HO on the network side is completed (S106), the eNB 500 performs an Inter-RAT PS-HO request process (S107). In the mobile station 400, the response process is performed, and Handover to UTRAN Complete is transmitted to the RNC 100 as an RRC message (S108). Then, for the CS connection request, Initial Direct Transfer is transmitted as an RRC message to the RNC 100, and the RNC 100 receives a signal for this connection request (S109: connection request reception step). This signal includes identification information (MSC # 1) of the MSC 200a as CS-NRI.

  In the RNC 100, when this RRC message is received, MSC identification information included in the signal is extracted. Here, MSC # 1, which is identification information of MSC 200a, is extracted by connection destination MSC determination unit 105, and it is determined that this cannot be used. In the RNC 100, when the connection destination MSC determination unit 105 determines that the IMSI is stored in the TMSI / IMSI holding unit 103, the RNC 100 corresponds to the IMSI stored in the TMSI / IMSI holding unit 103. G-CNID to be extracted is extracted from the IMSI / G-CNID holding unit 102. Here, MSC # 2 indicating the identification information of MSC200 is extracted. Then, the MSC 200 indicated by the ID is determined as the connection destination (S110: state determination step, specific step). The CN signal transmitting / receiving unit 101 transmits a CS connection request to the MSC 200 determined to be a connection destination (S111: connection request step).

  By such processing, the RNC 100 can avoid the unavailable MSC 200a and specify the available MSC 200, and thus can make a CS connection to the MSC 200.

  Next, the function and effect of the first embodiment will be described. In the RNC 100 that is the communication control apparatus of this embodiment, the TMSI / IMSI holding unit 103 switches the location of the mobile station 400 from LTE (second communication system) to WCDMA (first communication system), that is, During the CSFallback process, information that can be used to identify the MSC 200 (second exchange) selected by the exchange selection device 700, which is transmitted when an incoming call is received from another terminal, is stored.

  In the present embodiment, the incoming request includes the identification information of the mobile station 400: IMSI and the identification information of the MSC 200: G-CNID (MSC # 2), and this incoming request is transmitted from the MSC 200, The RNC 100 stores these pieces of information in association with each other. Note that the information that can identify the MSC 200 is IMSI that is identification information of the mobile station 400. At the time of CSFallback processing, the SGSN 300 takes over this IMSI from the LTE side and notifies the RNC 100 of it. The RNC 100 stores the IMSI transmitted from the SGSN 300 (corresponding to the third exchange) as information that can identify the MSC 200.

  When the UE signal transmission / reception unit 104 receives a CS connection request (connection request for the unavailable MSC 200a (first exchange)) from the mobile station 400 upon completion of the CSFallback process, the UE MS transmission / reception unit 105 The MSC 200 is identified by extracting the G-CNID, which is identification information of the MSC 200, from the IMSI / G-CNID holding unit 102 using the IMSI, which is information that can identify the MSC 200.

  Then, the CN signal transmission / reception unit 101 transmits a CS connection request to the MSC 200. As a result, even if the MSC 200a cannot be used, connection processing can be performed on the MSC 200 while avoiding that. In particular, when switching communication systems such as during CSFallback, the method using TMSI could not identify an available exchange, but in the present invention, even in such a case, it can be used reliably. An unavailable exchange can be avoided and an available MSC 200 can be selected.

  Here, the MSC 200 is selected as an exchange that can be used by the exchange selection apparatus 700, and when an incoming request processing for the mobile station 400 is accepted via another terminal or another network, the incoming request sending unit 220 An incoming request including IMS, which is identification information 400, and G-CNID, which is exchange identification information indicating an exchange, is transmitted to RCN 100, and the incoming request is transmitted to core network apparatus 600, which is an LTE communication system. As a result, the RNC 100 can identify an available exchange.

[Second Embodiment]
In the second embodiment, a network configuration similar to that of FIG. 1 is adopted, and the RNC 100a, the MSC 200 / 200a, the SGSN 300a, the eNB 500, and the core network device 600 are configured. In this embodiment, the SGSN 300a takes over the identification information of the MSC 200 that is an available exchange at the time of CSFallback, and the RNC 100a executes a CS connection request from the mobile station 400 using this information.

  FIG. 5 is a block diagram showing a functional configuration of the RNC 100a of the present embodiment. The RNC 100a includes a CN signal transmission / reception unit 201 (connection request unit, identification information reception unit), a CS-NRI holding unit 202 (storage unit), a CSFB procedure determination unit 203 (switching procedure determination unit), and a UE signal transmission / reception unit 204 (connection Request receiving means) and a connection destination MSC determination unit 205 (specifying means). Hereinafter, each component will be described.

  The CN signal transmitting / receiving unit 201 is a part that receives various signals from the CS core network and the PS core network, or transmits various signals to the core network.

  The CS-NRI holding unit 202 is a part that stores NRI: MSC identification information included in the RelocationRequest transmitted as a RANAP message from the SGSN 300a during the CSFallback process by the mobile station 400. The CS-NRI holding unit 202 may periodically erase information using a timer or the like so as not to store old erroneous information. In addition, the information registration time is stored, and the connection destination MSC determination unit 205 may not use information that has passed a predetermined time.

  The CSFB procedure determination unit 203 is a part that determines whether or not the CSFallback procedure by the Inter-RAT PS-HO by the mobile station 400 has been performed. Specifically, the RFB message Handover to UTRAN Complete is received, and is constant. A determination is made based on whether or not a CS connection is received within the time. As another method, the SGSN 300a can be notified in advance that the CSFallback procedure has been performed.

  Note that the CSFB procedure determination unit 203 can also determine that the CSFallback process has not been performed when a predetermined condition is satisfied, such as a communication state changing within a certain time. For example, a change in communication state indicates a communication state in which CS connection is not possible. In addition, communication using a common channel used for packet communication at a low communication rate, or by disconnecting the communication channel, This is a state in which the connection of is disconnected.

  The UE signal transmission / reception unit 204 is a part that transmits / receives a signal from the mobile station 400. For example, the UE signal transmitting / receiving unit 204 receives an Inter-RAT PS-HO response or receives an RRC message (Initial Direct Transfer) for a CS connection request. In addition, transmission and reception of signals for communication control between the mobile station 400 and the network are performed.

  When the RRC message is received for the CS connection request received by the UE signal transmission / reception unit 204, the connection destination MSC determination unit 205, based on the NRI (MSC identification information) included in the RRC message, It is determined whether or not the MSC is available. If it is determined that the MSC is unusable, the connection destination MSC determination unit 205 determines whether the CSFallback procedure has been executed based on the determination result by the CSFB procedure determination unit 203. If it is determined that the CSFallback procedure has been executed, the connection destination MSC determination unit 205 determines that the MSC indicated by the NRI stored in the CS-NRI holding unit 202 is the connection destination. The CN signal transmitting / receiving unit 201 transmits a CS connection request to the MSC that is the connection destination determined here.

  The MSC 200b will be described. The MSC 200b has the same functional configuration as the block configuration shown in FIG. In this MSC 200b, the incoming request transmission unit 220 transmits an incoming request to the RNC 100a and the core network device 600 when the selection is accepted as a usable exchange by the switching acceptance unit 210. The incoming request to the core network device 600 includes MSC # 2 (identification information of the MSC 200b) which is an exchange indicating the own device as CS-NRI.

  Next, MSC selection processing in a communication system using the RNC 100a and the MSC 200b configured as described above will be described. FIG. 6 is a sequence diagram showing the processing. Also in FIG. 6, as in the sequence processing in FIG. 3, the MSC 200c is in an unusable state, and the exchange selection device 700 detects that fact and selects the MSC 200b. In addition, the mobile station 400 is in a state where it is located in the LTE cell (S201).

  In MSC 200, when an incoming request from another terminal is accepted, the incoming request is transmitted to RNC 100a. In addition, an incoming request including identification information of MSC 200b is transmitted as CS-NRI to core network apparatus 600 (incoming request step). Then, the core network device 600 transmits an incoming call request to the mobile station 400 via the eNB 500 (S203).

  When the mobile station 400 receives an incoming request from the eNB 500, a CSFallback process for switching to the WCDMA system is executed. In the present embodiment, on the LTE side (core network device 600), the CSFallback process by Inter-RAT PS-HO is activated, and the mobile station 400 is switched from the LTE connection state to the 3G (WCDMA) connection state (S204). .

  In the CSFallback process, the CS-NRI is taken over by the core network device 600 and the SGSN 300a (acquisition step). And SGRI300a transmits NRI: MSC # 2 (identification information of MSC200b) to RNC100a (transmission step). The NRI is received by the CN signal transmitting / receiving unit 201 in the RNC 100a and stored in the CS-NRI holding unit 202 (S205: storage step). Specifically, a Relocation Request is transmitted using a RANAP (Radio Access Network Application Part) protocol. This signal includes identification information of the MSC 200b as an NRI.

  Then, when the CSFallback process by Inter-RATPS-HO on the network side is completed (S206), an Inter-RAT PS-HO request process is performed from the eNB 500 (S207). In the mobile station 400, the response process is performed, and Handover to UTRAN Complete is transmitted to the RNC 100a as an RRC message (S208). Then, for the CS connection request, Initial Direct Transfer is transmitted to the RNC 100a as an RRC message (S209). This signal includes identification information (MSC # 1) of the MSC 200a as CS-NRI.

  In the RNC 100a, when this RRC message is received, the MSC identification information included in the signal is extracted. Here, the connection destination MSC determination unit 205 extracts MSC # 1, which is identification information of the MSC 200c, and determines that this is not available. When the CSFB procedure determination unit 203 determines that the CSFallback procedure has been performed, the connection destination MSC determination unit 205 determines that the MSC 200b indicated by the identification information stored in the CS-NRI holding unit 202 is the connection destination. (S210). Then, the CN signal transmission / reception unit 201 transmits a CS connection request to the MSC 200b (S211).

  Next, the function and effect of the RNC 100a that is the communication control device of the present embodiment will be described. According to the RNC 100a of this embodiment, when the mobile station 400 is switched from LTE (second communication system) to WCDMA (first communication system), the CS-NRI holding unit 202 The transmitted information that can identify the MSC 200c (second exchange) selected by the exchange selection device 700 is stored. Here, the information that can identify the MSC 200c is CS-NRI: MSC # 2, which is identification information of the MSC 200.

  When storing the identification information of the MSC 200c, the SGSN 300a takes over the identification information of the MSC 200c from the LTE side at the time of CSFallback, and by transmitting this to the RNC 100a, the RNC 100a stores the identification information of the MSC 200c. be able to.

  Then, when the UE signal transmission / reception unit 204 receives a connection request from the mobile station 400 to the MSC 200c (first exchange) that cannot be used, the connection destination MSC determination unit 205 is stored in the CS-NRI holding unit 202. The MSC 200b is identified by extracting the identification information CS-NRI of the MSC 200b (second exchange), and a CS connection request is transmitted to the MSC 200b. As a result, even if the MSC 200c (first exchange) cannot be used, the CS connection process can be performed on the MSC 200b (second exchange) while avoiding that. In particular, when switching communication systems such as in CSFallback, the TMSI-based method could not identify an available exchange, but in this embodiment, even in such a case, It is possible to select an available MSC 200b while avoiding an unusable exchange.

  Further, the CSFB procedure determination unit 203 determines whether the CSFB procedure has been performed here, thereby reducing the device load in the search process executed when the MSC is specified.

  Here, the MSC 200 is selected as an exchange that can be used by the exchange selection device 700, and when the incoming request processing for the mobile station 400 is accepted, the MSC 200 is the exchange identification information indicating the IMSI and the MSC 200b that are identification information of the mobile station 400. -NRI: An incoming request including MSC # 2 is transmitted to the RNC 100a, and the incoming request is transmitted to the LTE core network device 600. This makes it possible to specify an available MSC 200b in the RNC 100a.

DESCRIPTION OF SYMBOLS 100, 100a ... RNC, 101 ... CN signal transmission / reception part, 102 ... IMSI / G-NID holding part, 103 ... TMSI / IMSI holding part, 104 ... UE signal transmission / reception part, 105 ... Destination MSC determination part, 201 ... CN signal Transmission / reception unit, 202 ... CS-NRI holding unit, 203 ... CSFB procedure determination unit, 204 ... UE signal transmission / reception unit, 205 ... Destination MSC determination unit, 200, 200a, 200b, 200c ... MSC, 300 ... SGSN, 400 ... Movement Station, 500 ... eNB, 600 ... core network device, 700 ... switch selection device.

Claims (9)

A first exchange capable of locating a mobile station in the first communication system; a second exchange capable of communicating with the mobile station in the first communication system by a selection instruction in an exchange selection device; In the exchange selection method of the communication control device connected to the
A storage step of storing, in a storage unit, information that can identify the second switch selected by the switch selection device when the mobile station switches the destination from the second communication system to the first communication system; ,
A connection request receiving step of receiving a connection request including identification information of the first exchange from the mobile station in response to an incoming call request;
When a connection request is received by the connection request reception step, a state determination step of determining a state of the first exchange;
When the state determining step determines that the first exchange is unusable, the specification for identifying the second exchange based on the information stored in the storage means that can identify the second exchange Steps,
A connection request step for transmitting a connection request to the second exchange identified by the identifying step;
An exchange selection method comprising: A third switch in the first communication system;
When the mobile station switches from the second communication system to the first communication system, the acquisition step of acquiring from the second communication system information that can identify the second switch selected by the switch selection device. When,
A transmission step of transmitting information that can identify the second exchange acquired in the acquisition step to the communication control device,
2. The exchange selection method according to claim 1, wherein the storage step in the communication control apparatus stores information that can identify the second exchange acquired in the acquisition step. The second switch is
An incoming call requesting step for transmitting an incoming call request including information capable of specifying the second exchange to the communication control device or the second communication system;
With
3. The exchange selection method according to claim 2, wherein the storing step stores information that can identify the second exchange included in the incoming request transmitted in the incoming request step. A first exchange capable of locating a mobile station in the first communication system; and a second exchange capable of communicating with the mobile station in the first communication system when a selection instruction is given by an exchange selection device. In the communication control device to be connected,
Storage means for storing information that can identify the second exchange selected by the exchange selection device when the mobile station switches the location from the second communication system to the first communication system;
A connection request receiving means for receiving a connection request including identification information of the first exchange from the mobile station in response to the incoming call request;
When a connection request is received by the connection request receiving unit, a state determining unit that determines a state of the first exchange;
When the state determining unit determines that the first switch is not usable, the specifying unit that specifies the second switch based on information stored in the storage unit that can specify the second switch When,
Connection request means for transmitting a connection request to the second exchange identified by the identification means;
A communication control device comprising: An incoming request reception means for receiving an incoming request including identification information of the mobile station and identification information of the second exchange for the mobile station;
Identification information storage means for storing identification information of the mobile station and identification information of the second exchange received by the incoming request reception means;
The storage means stores the identification information of the mobile station as information that can identify the second exchange,
When the connection request is received from the mobile station, the specifying means uses the identification information stored in the storage means to specify the second exchange corresponding to the identification information from the identification information storage means. The communication control apparatus according to claim 4, wherein: When switching from the second communication system to the first communication system, it comprises identification information receiving means for receiving the identification information of the second exchange from the exchange for packet communication in the first communication system,
5. The communication control apparatus according to claim 4, wherein the storage unit stores the identification information of the second exchange received by the identification information receiving unit as information that can identify the second exchange. . When a connection request is received by the connection request receiving means, a switching procedure determination is performed to determine whether or not a procedure for switching the location of the mobile station from the second communication system to the first communication system has been performed. Further comprising means,
The specifying means is stored in the storage means when it is determined by the state determining means that the first exchange is not usable and when the switching procedure determining means determines that the switching procedure has been performed. Identifying the second switch based on the identification information of the second switch.
The communication control apparatus according to claim 6. An exchange arranged in the first communication system,
6. When an exchange request is selected by an exchange selection device and an incoming request processing for a mobile station is accepted, a first incoming request including identification information of the mobile station and exchange identification information indicating the exchange is provided. And a transmission means for transmitting the second incoming request to the second communication system. An exchange arranged in the first communication system,
When an exchange request is selected by an exchange selection device and an incoming request processing for a mobile station is accepted, a first incoming request is transmitted to the communication control device according to claim 6, and an exchange identification indicating the exchange An exchange comprising transmission means for transmitting a second incoming request including information to a second communication system.

Images