JP6251921B2 - Mobile station apparatus, radio communication system, radio communication method and program - Google Patents

Description

  The present invention relates to a mobile station apparatus, a radio communication system, a radio communication method, and a program.

Public communication services such as fixed telephone networks and mobile communication networks, where circuit switches (CS: Circuit Switching, circuit switching) and packet switches (PS: Packet Switching) have been different, have been changed to IP (Internet Protocol) technology and the Internet. IMS (IP Multimedia Subsystem) that integrates with SIP (Session Initiation Protocol) protocol used in telephones and realizes multimedia services has begun to be introduced.
In an IMS network that supports IMS, voice communication (IP phone, VoIP: Voice over Internet), video communication (VT: Video Telephony), text message service (SMS: Short Message Service), shared whiteboard, instant messaging and presence function, etc. Is serviceable. Hereinafter, a service provided by IMS is referred to as an IMS service.
In the LTE (Long Term Evolution) service in the mobile communication network, the introduction of IMS has begun, and the service of VoLTE (Voice over LTE) that guarantees the quality of voice communication by introducing IMS into the LTE is beginning.
However, since current base station devices and mobile station devices do not support IMS at the same time, mutual connection with services that do not depend on conventional IMS is required.

  Patent Document 1 describes a method of interconnecting an IMS network and a conventional CS network. By using the method described in Patent Document 1, it is possible to perform voice communication or video communication between a mobile station apparatus connected to the IMS network and a mobile station apparatus connected to the CS network. Is guaranteed, voice communication quality (such as real-time performance) is guaranteed unlike a conventional Internet telephone.

Special table 2009-525682 gazette

  However, although the technology described in Patent Document 1 guarantees the mutual connection of basic voice communication and video communication, the presence of the IMS and the sharing of the whiteboard are facilities for the mutual connection. It is difficult to introduce it on the network side in terms of cost and efficiency. Therefore, the interconnection is not guaranteed in all IMS services. Thus, for example, when a plurality of mobile station devices that can use the IMS service are performing voice communication and data sharing communication in a cell that can use the IMS service, one of the mobile station devices supports IMS. If the cell moves to a cell that is not connected, only voice communication can be continued, but there is a problem that data sharing communication is disconnected.

  The present invention has been made in view of the above points, and an object of the present invention is to provide a wireless communication system in which a plurality of networks are mixed, even when the network connected to the mobile station apparatus is switched. An object of the present invention is to provide a mobile station device, a wireless communication system, a wireless communication method, and a program that can continuously use a service that is being used.

  (1) The present invention has been made to solve the above problems, and one aspect of the present invention is a mobile station apparatus in a wireless communication system in which a first network and a second network are mixed. In the case where communication related to a predetermined service is set as another mobile station device via the first network, before the network for communication is switched to the second network, the connection is made to the other mobile station device. A connection information receiving unit for receiving connection information; and an execution unit for continuing the service by connecting to the other mobile station device based on the connection information when the network to communicate is switched to the second network. It is a mobile station apparatus characterized by comprising.

  (2) Further, one aspect of the present invention is a wireless communication system in which a first network and a second network are mixed, and the mobile station apparatus relates to a predetermined service via the first network. In a case where communication is performed by another mobile station apparatus, a network that communicates with a connection information receiving unit that receives connection information for connecting to the other mobile station apparatus before the communication network is switched to the second network. Is a wireless communication system, comprising: an execution unit that, when switched to the second network, connects to the other mobile station device based on the connection information and continues the service.

  (3) Moreover, one aspect of the present invention is a wireless communication method in a wireless communication system in which a first network and a second network are mixed, and a mobile station device is connected via the first network, A first step of receiving connection information for connecting to the other mobile station device before the communication network is switched to the second network when communication related to a predetermined service is performed by another mobile station device; The mobile station device has a second step of connecting to the other mobile station device based on the connection information and continuing the service when a network to be communicated is switched to the second network. A wireless communication method characterized by the above.

  (4) According to another aspect of the present invention, there is provided a program via a first network as a mobile station apparatus in a wireless communication system in which a first network and a second network are mixed. In the case where communication related to a predetermined service is performed by another mobile station device, the first step of receiving connection information for connecting to the other mobile station device before the communication network is switched to the second network. And a second step of continuing the service by connecting to the other mobile station device based on the connection information when the network to be communicated is switched to the second network. .

  According to the present invention, in a wireless communication system in which a plurality of networks are mixed, even if the network to which the mobile station apparatus is connected is switched, the service used by the mobile station apparatus can be continuously used. it can.

It is the schematic which shows the structure of the radio | wireless communications system by the 1st Embodiment of this invention. It is a block diagram which shows the structure of the mobile station apparatus by 1st Embodiment. It is a hardware block diagram which shows an example of the hardware configuration of the mobile station apparatus which concerns on 1st Embodiment. It is a block diagram which shows the structure of the 1st base station apparatus by 1st Embodiment. It is a sequence diagram which shows the operation | movement of the radio | wireless communication process by 1st Embodiment. It is a sequence diagram which shows the operation | movement of the radio | wireless communication process by the 2nd Embodiment of this invention. It is a figure which shows that a mobile station apparatus hands over from a 2nd network to a 1st network.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
(First embodiment)
First, the first embodiment will be described.
FIG. 1 is a schematic diagram illustrating a configuration of a wireless communication system 1 according to the present embodiment. The wireless communication system 1 is a wireless communication system in which a first network that supports IMS (for example, an IMS network) and a second network that does not support IMS (for example, a CS network) are mixed. The wireless communication system 1 includes a plurality of mobile station devices 10, one or more first base station devices 20, one or more second base station devices 40, and an interconnection device 50. The

  The mobile station device 10 is a terminal device such as a smartphone, a mobile phone, or a tablet terminal. The mobile station device 10 performs radio communication with the first base station device 20 by LTE. In addition, the mobile station apparatus 10 performs wireless communication with the second base station apparatus 40 by WCDMA (Wideband Code Division Multiple Access) (registered trademark).

  The first base station device 20 is a base station connected to the first network. The first base station device 20 communicates with the mobile station device 10 by LTE. The second base station device 40 is a base station connected to the second network. The second base station device 40 communicates with the mobile station device 10 by WCDMA (registered trademark). Hereinafter, the communication range of the first base station apparatus 20 or the second base station apparatus 40 is referred to as a cell 30.

  In the telephone communication (voice communication or video communication), the interconnection device 50 interconnects the first network and the second network with an interconnection function (SRVCC: Single Radio Voice Call Continuity).

  Hereinafter, for convenience of explanation, A and B codes are assigned to each of the two first base station apparatuses 20 and are denoted as first base station apparatuses 20A and 20B. In addition, about the matter which is common in each 1st base station apparatus 20A, 20B, the code | symbol of A and B is abbreviate | omitted and it only describes as "the 1st base station apparatus 20". The communication range of the first base station device 20A is the cell 30A, the communication range of the first base station device 20B is the cell 30B, and the communication range of the second base station device 40 is the cell 30C. In addition, codes A and B are assigned to each of the two mobile station apparatuses 10 and denoted as mobile station apparatuses 10A and 10B. In addition, about the matter common to each mobile station apparatus 10A, 10B, the code | symbol of A and B is abbreviate | omitted and it only describes as "the mobile station apparatus 10."

  In this figure, the mobile station device 10A is in the cell 30A of the first base station device 20A, and the mobile station device 10B is in the cell 30B of the first base station device 20B. The mobile station device 10A and the mobile station device 10B perform voice communication and data sharing communication using the IMS service. The mobile station device 10A connects to the first network via the first base station device 20A and uses the IMS service. In addition, the mobile station apparatus 10B uses the IMS service by connecting to the first network via the first base station apparatus 20B. That is, the mobile station apparatus 10A and the mobile station apparatus 10B perform voice communication and data sharing communication provided by the IMS service.

  The mobile station device 10A has a first base station having a cell 30 adjacent to the first base station device 20A when the radio wave received from the first base station device 20A currently communicating becomes weaker due to movement. The device 20 or the second base station device 40 is searched. When the mobile station apparatus 10A detects the second base station apparatus 40 when the radio wave received from the second base station apparatus 40 becomes stronger, the mobile station apparatus 10A changes the base station apparatus to communicate from the first base station apparatus 20A to the second base station apparatus 20A. Switch to the base station device 40 (handover). At this time, since the second base station device 40 does not support IMS, the mobile station device 10A cannot continue to use the IMS service. For this reason, voice communication between the mobile station device 10A and the mobile station device 10B is switched to voice communication via the interconnection device 50.

  However, since the interconnection device 50 does not support interconnection related to data sharing, data sharing communication cannot be performed via the interconnection device 50. Therefore, the mobile station apparatus 10A connects to the mobile station apparatus 10B via the second network and performs data sharing communication. Specifically, the mobile station device 10A first determines whether or not the second base station device 40 supports IMS based on the network information acquired from the second base station device 40. The network information is information related to the network of the base station device, and includes information indicating whether the network supports IMS and information indicating a service that the interconnection device 50 interconnects. If the mobile station device 10A determines that the second base station device 40 does not support IMS, the mobile station device 10A receives the second network before the handover from the first base station device 20A to the second base station device 40. Connection information for connecting to the mobile station device 10B is acquired from the mobile station device 10B. The connection information is, for example, an access destination or an authentication method, and specifically, an IP address, a port number, a password, etc. for IP connection. The mobile station device 10A receives connection information from the mobile station device 10B by an IMS service such as SMS or instant message. When handing over to the second base station apparatus 40, the mobile station apparatus 10A performs a connection process with the second base station apparatus 40 in data communication such as HSDPA (High-Speed Downlink Packet Access), and a new IP address To get. Then, based on the connection information acquired from the mobile station device 10B, the mobile station device 10A connects to the mobile station device 10B and resumes data sharing communication.

  Accordingly, the mobile station device 10A continues voice communication and data sharing communication with the mobile station device 10B even when the handover is performed from the first base station device 20 to the second base station device 40. be able to.

Next, the configuration of the mobile station apparatus 10 according to the present embodiment will be described.
FIG. 2 is a block diagram showing the configuration of the mobile station apparatus 10 according to the present embodiment.
The mobile station device 10 includes an application execution unit 101, a control unit 102, a first communication device 103, a second communication device 104, a transmission unit 105, a reception unit 106, a transmission antenna 107, and a reception antenna. 108 and a storage unit 109.

  The application execution unit 101 functions as a call execution unit 111, a service execution unit 112, a first communication control unit 113, a second communication control unit 114, and a connection information reception unit 115, and executes an application. The call execution unit 111 executes voice communication or video communication with another mobile station device 10. Voice communication and video communication are services that can be interconnected between the first network and the second network by the interconnection device 50. When the call execution unit 111 makes a call (voice communication or video communication) with another mobile station device 10 via the first network, the call execution unit 111 switches to the second network when the communication network is switched to the second network. Continue the call over the network. The service execution unit 112 executes multimedia services other than voice communication and video communication. Multimedia services include, for example, data sharing, text message service (SMS), instant messaging and presence functions. When the service execution unit 112 is communicating with the other mobile station apparatus 10 via the first network for multimedia services, the service execution unit 112 switches the second network through the second network. Then, the service that can be interconnected is continued, and based on the connection information received by the connection information receiving unit 115, the mobile station device 10 of the communication partner is connected to continue the service that cannot be interconnected. The interconnectable service is a service that can be interconnected between the first network and the second network by the interconnecting device 50. The service that cannot be interconnected is a service that cannot be interconnected between the first network and the second network by the interconnect device 50.

  The first communication control unit 113 executes communication processing according to IMS via the first communication device 103 when the network with which the mobile station device 10 communicates is the first network. The second communication control unit 114 executes communication processing according to CS via the second communication device 104 when the network with which the mobile station device 10 communicates is the second network. When the call execution unit 111 or the service execution unit 112 is communicating with another mobile station device 10 via the first network, the connection information reception unit 115 is connected before the network to be communicated is switched to the second network. The connection information is received from the mobile station apparatus 10 of the communication partner. Specifically, the connection information receiving unit 115 transmits data requesting connection information to the mobile station device 10 that is the communication partner, and receives connection information from the mobile station device 10 that is the communication partner. The connection information receiving unit 115 writes the received connection information in the storage unit 109 and stores it.

  The control unit 102 controls the mobile station device 10 in an integrated manner. When the radio wave from the currently communicating base station apparatus (first base station apparatus 20 or second base station apparatus 40) falls below a predetermined value, the control unit 102 transmits the radio wave to the communicating base station apparatus. Notify that the value is below the specified value. Then, the control unit 102 searches for and detects other base station apparatuses that can be used by the own apparatus, and determines the detected base station apparatus as a handover destination base station apparatus. Prior to handover, the control unit 102 receives network information from the handover destination base station apparatus, and determines whether or not the handover destination base station apparatus can use the IMS service based on the received network information. . When determining that the handover destination base station apparatus cannot use the IMS service, the control unit 102 determines a service that can be interconnected by the interconnection apparatus 50 based on the received network information. Then, the control unit 102 notifies the application execution unit 101 of the fact that the handover destination network cannot use the IMS service and the interconnectable service. Thereafter, the control unit 102 performs handover to the handover destination base station apparatus. When the control unit 102 performs handover from the first base station device 20 to the second base station device 40, the control unit 102 notifies the application execution unit 101 that the communication destination has been switched to the second network. The communication device that communicates with the base station device 40 is switched from the first communication device 103 to the second communication device 104. In addition, when performing handover from the second base station device 40 to the first base station device 20, the control unit 102 notifies the application execution unit 101 that the communication destination has been switched to the first network, and The communication device that communicates with one base station device 20 is switched from the second communication device 104 to the first communication device 103.

  The first communication device 103 communicates with the first base station device 20 by LTE via the transmission unit 105 or the reception unit 106. Also, the second communication device 104 communicates with the second base station device 40 by WCDMA (registered trademark) via the transmission unit 105 or the reception unit 106. The transmission unit 105 transmits data via the transmission antenna 107. The receiving unit 106 receives data via the receiving antenna 108. The transmitting antenna 107 is an antenna for transmitting data. The receiving antenna 108 is an antenna for receiving data. The storage unit 109 stores various information. The storage unit 109 stores connection information acquired from another mobile station device 10, for example.

FIG. 3 is a hardware configuration diagram illustrating an example of a hardware configuration of the mobile station apparatus 10 according to the present embodiment.
The mobile station apparatus 10 includes a CPU 501 (Central Processing Unit), a storage medium 502, a drive unit 503, an input unit 504, an output unit 505, a ROM 506 (Read Only Memory: ROM), and a RAM 507 (Random Access Memory: RAM), an auxiliary storage unit 508, and a communication unit 509.
The CPU 501, the drive unit 503, the input unit 504, the output unit 505, the ROM 506, the RAM 507, the auxiliary storage unit 508, and the communication unit 509 are connected to each other via a bus B (bus line).

  The CPU 501 reads and executes programs stored in the auxiliary storage unit 508 and various data stored in the ROM 506 and RAM 507 to control the interconnection device 50. Further, the CPU 501 reads out and executes various data stored in the storage medium 502 via the drive unit 503, and controls the interconnection device 50. The storage medium 502 is a portable storage medium such as a magneto-optical disk, a flexible disk, or a flash memory, and stores various data. The drive unit 503 is a reading device for a storage medium 502 such as an optical disk drive or a flexible disk drive. The input unit 504 is an input device such as a mouse, a keyboard, or a touch panel. The output unit 505 is an output device such as a display unit or a speaker. The ROM 506 and the RAM 507 temporarily store various data. The auxiliary storage unit 508 is a hard disk drive, a flash memory, or the like, and stores programs and various data for operating the functional units of the interconnection device 50 described above. The communication unit 509 has a communication interface and is connected to the network NW by wire or wireless.

Next, the configuration of the first base station apparatus 20 and the second base station apparatus 40 according to the present embodiment will be described.
FIG. 4 is a block diagram showing a configuration of the first base station apparatus 20 according to the present embodiment.
The first base station apparatus 20 includes a control unit 201, a storage unit 202, a network communication unit 203, and a communication unit 204.
The control unit 201 controls the first base station device 20 in an integrated manner. For example, when receiving data requesting network information from the mobile station device 10, the control unit 201 returns the network information of the own device to the mobile station device 10. The storage unit 202 stores various information such as network information of the own device. The network communication unit 203 communicates with the other first base station device 20 or the second base station device 40. The communication unit 204 communicates with the mobile station device 10.
Since the configuration of the second base station device 40 is the same as the configuration of the first base station device 20, the description thereof is omitted.

  Next, the operation of the radio communication system 1 when the mobile station apparatus 10 is handed over from the first base station apparatus 20 to the second base station apparatus 40 will be described. FIG. 5 is a sequence diagram showing the operation of the wireless communication process according to the present embodiment. In this figure, when the mobile station device 10A and the mobile station device 10B are performing voice communication and data sharing communication using the IMS service, the mobile station device 10A is connected to the second base station from the first base station device 20A. The process in the case of handing over to the station apparatus 40 is shown.

  The mobile station device 10A communicates with the first base station device 20A and registers with the IMS service (step S101). On the other hand, the mobile station device 10B communicates with the first base station device 20B and registers with the IMS service (step S102). The mobile station device 10A and the mobile station device 10B are connected by voice communication using the IMS service and data sharing communication (step S103).

  The mobile station device 10A detects the second base station device 40 having the cell 30C close to the first base station device 20A when the radio wave received from the first base station device 20A becomes weaker due to movement ( Step S104). When the mobile station device 10A detects the second base station device 40, the mobile station device 10A transmits data requesting network information related to the support status of the IMS service to the second base station device 40. Specifically, the mobile station apparatus 10A requests network information using TAU (Tracking Area Update) / RAU (Routing Area Update) / LAU (Location Area Update) Request, and the like. When receiving the data requesting the network information, the second base station device 40 returns the network information of the own device to the mobile station device 10A. Specifically, the second base station apparatus 40 returns network support information using TAU / RAU / LAU Accept or the like. Based on the acquired network information, the mobile station device 10A determines that the second base station device 40 does not support IMS (communication using WCDMA (registered trademark)). Since the second base station device 40 that is the handover destination does not support IMS, the mobile station device 10A transmits data requesting connection information to the mobile station device 10B (step S105). When the mobile station apparatus 10B receives data requesting connection information from the mobile station apparatus 10A, the mobile station apparatus 10B returns the connection information of its own apparatus to the mobile station apparatus 10A (step S106).

  When the mobile station device 10A receives the connection information from the mobile station device 10B, the mobile station device 10A writes and stores the received connection information in the storage unit 109 (step S107). Subsequently, the mobile station device 10A performs a handover from the first base station device 20A to the second base station device 40 (step S108). The mobile station device 10A performs a connection process with the second base station device 40 and acquires a new IP address. Based on the network information received from the second base station device 40, the mobile station device 10A determines that the voice call is a service that can be interconnected. For this reason, the mobile station device 10A and the mobile station device 10B continue the voice communication via the interconnection device 50 (step S109). On the other hand, based on the network information received from the second base station device 40, the mobile station device 10A determines that the data sharing is a service that cannot be interconnected. Therefore, the mobile station device 10A connects to the mobile station device 10B based on the connection information saved in step S107 (step S110). Then, the mobile station device 10A and the mobile station device 10B resume data sharing communication (step S111).

  In the above-described example, the conference call application that performs voice communication and data sharing communication has been described as an example. The service can be continued.

Thus, according to the present embodiment, the mobile station device 10 communicates before handover from the first base station device 20 that supports IMS to the second base station device 40 that does not support IMS. The connection information of other mobile station apparatuses 10 that are present is acquired. Then, when the mobile station apparatus 10 is handed over from the first base station apparatus 20 to the second base station apparatus 40, the mobile station apparatus 10 is connected to the other mobile station apparatus 10 based on the acquired connection information. As a result, in a wireless communication system in which a first network that supports IMS and a second network that does not support IMS coexist, even if the IMS service cannot be continued due to movement of the mobile station device 10, the Media services will continue to be available. Moreover, since the mobile station apparatus 10 automatically continues communication without any user operation, convenience is improved.
In addition, the mobile station device 10 communicates only with services based on the connection information that are not interconnectable services that are not supported by the interconnect device 50. That is, the mobile station device 10 communicates with each other via the interconnection device 50 for services that can be interconnected (for example, voice communication and video communication). As a result, quality assurance (for example, real-time property) of interconnectable services (voice communication and video communication) is performed.

(Second Embodiment)
Next, a second embodiment of the present invention will be described.
The configuration of the wireless communication system 1 according to the present embodiment is the same as the configuration of the wireless communication system 1 in the first embodiment shown in FIG. The configuration of the mobile station apparatus 10 according to the present embodiment is the same as the configuration of the mobile station apparatus 10 in the first embodiment shown in FIG. The configurations of the first base station device 20 and the second base station device 40 according to the present embodiment are the same as the configurations of the first base station device 20 in the first embodiment shown in FIG. The mobile station device 10 according to the first embodiment acquires connection information from the mobile station device 10 of the communication partner immediately before handover from the first base station device 20 to the second base station device 40. The mobile station apparatus 10 according to the present embodiment exchanges connection information with each other when communication by the IMS service is started.

  FIG. 6 is a sequence diagram showing the operation of the wireless communication process according to the present embodiment. In this figure, when the mobile station device 10A and the mobile station device 10B are performing voice communication and data sharing communication using the IMS service, the mobile station device 10A is connected to the second base station from the first base station device 20A. The process in the case of handing over to the station apparatus 40 is shown.

  The mobile station device 10A communicates with the first base station device 20A and registers with the IMS service (step S201). On the other hand, the mobile station device 10B communicates with the first base station device 20B and registers with the IMS service (step S202). The mobile station device 10A and the mobile station device 10B are connected by voice communication using the IMS service and data sharing communication (step S203).

  When the mobile station device 10B starts communication with the mobile station device 10A through the IMS service, the mobile station device 10B transmits connection information of the mobile device to the mobile station device 10A (step S204). When receiving connection information from the mobile station device 10B, the mobile station device 10A writes and stores the received connection information in the storage unit 109 (step S205). In addition, when the mobile station device 10A starts communication with the mobile station device 10B using the IMS service, the mobile station device 10A transmits connection information of the mobile device to the mobile station device 10B (step S206). When the mobile station device 10B receives the connection information from the mobile station device 10A, the mobile station device 10B writes and stores the received connection information in the storage unit 109 (step S207).

  When the mobile station device 10B updates the information about the network such as the IP address by moving the cell 30 or the like (step S208), the mobile station device 10B transmits connection information including the updated information about the network to the mobile station device 10A. (Step S209). When receiving the updated connection information, the mobile station device 10A overwrites and saves the received connection information in the storage unit 109 (step S210).

  The mobile station device 10A hands over from the first base station device 20A to the second base station device 40 as it moves (step S211). The mobile station device 10A performs a connection process with the second base station device 40 and acquires a new IP address. Note that the mobile station device 10A transmits data requesting network information regarding the support status of the IMS service to the second base station device 40 before the handover. Specifically, the mobile station apparatus 10A requests network information using TAU (Tracking Area Update) / RAU (Routing Area Update) / LAU (Location Area Update) Request, and the like. When the second base station device 40 receives data requesting network information from the mobile station device 10A, the second base station device 40 returns its own network information to the mobile station device 10A. Specifically, the second base station apparatus 40 returns network support information using TAU / RAU / LAU Accept or the like. Based on the network information received from the second base station apparatus 40, the mobile station apparatus 10A determines that the service is an interconnectable service for voice communication. Therefore, the mobile station device 10A and the mobile station device 10B continue voice communication via the interconnection device 50 (step S212). Subsequently, the mobile station device 10A determines that the data sharing is a service that cannot be interconnected based on the network information received from the second base station device 40. For this reason, the mobile station apparatus 10A connects to the mobile station apparatus 10B based on the connection information stored in step S210 (step S213). Then, the mobile station device 10A and the mobile station device 10B resume data sharing communication (step S214).

  Thus, according to this embodiment, the mobile station apparatus 10 exchanges connection information when communication with another mobile station apparatus 10 is started using the IMS service. In addition, when the connection information of the mobile station device 10 is updated, the mobile station device 10 transmits the updated connection information to the mobile station device 10 of the communication partner. Thereby, the mobile station apparatus 10 can acquire the connection information of the mobile station apparatus 10 of the communication partner more reliably. Therefore, according to the present embodiment, in addition to the effects of the first embodiment, even when the mobile station device 10 is handed over to the second base station device 40 during communication by the IMS service, Communication of the multimedia service can be reliably continued.

  Note that a part of the mobile station device 10 in the above-described embodiment, for example, the application execution unit 101 or the control unit 102 may be realized by a computer. In that case, the program for realizing the control function may be recorded on a computer-readable recording medium, and the program recorded on the recording medium may be read by a computer system and executed. Here, the “computer system” is a computer system built in the mobile station apparatus 10 and includes an OS and hardware such as peripheral devices. The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Furthermore, the “computer-readable recording medium” is a medium that dynamically holds a program for a short time, such as a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line, In such a case, a volatile memory inside a computer system serving as a server or a client may be included and a program that holds a program for a certain period of time. The program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.

As described above, the embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to the above, and various design changes and the like can be made without departing from the scope of the present invention. It is possible to
For example, in the above-described embodiment, the case where the mobile station apparatus 10 is handed over from the first base station apparatus 20 to the second base station apparatus 40 has been described. However, as illustrated in FIG. Even when handover is performed from the second base station apparatus 40 to the first base station apparatus 20 (handover from the second network to the first network), the multimedia service is continued by the same processing. Can do.

  (Supplementary note 1) A mobile station apparatus in a wireless communication system in which a first network and a second network are mixed, and communication related to a predetermined service is set as another mobile station apparatus via the first network. Before the communication network is switched to the second network, the connection information receiving unit that receives connection information for connecting to another mobile station apparatus; and the connection information is switched to the second network when the communication network is switched to the second network. And an execution unit for continuing the service by connecting to another mobile station apparatus based on the mobile station apparatus.

  (Supplementary Note 2) The execution unit performs communication related to the first service that can be interconnected between the first network and the second network and the second service that cannot be interconnected via the first network. If the communication network is switched to the second network, the first service is continued through the second network, and the other mobile station apparatus is connected based on the connection information. The mobile station apparatus according to supplementary note 1, wherein the second service is continued.

  (Additional remark 3) It is a radio | wireless communications system in which a 1st network and a 2nd network are mixed, Comprising: The mobile station apparatus makes communication regarding a predetermined | prescribed service other mobile station apparatuses via the 1st network. If the communication network is switched to the second network before the communication network is switched to the second network, the connection information receiving unit that receives connection information for connecting to another mobile station apparatus and the communication network is switched to the second network, the connection information A wireless communication system comprising: an execution unit that connects to another mobile station device based on the above and continues the service.

  (Supplementary Note 4) A wireless communication method in a wireless communication system in which a first network and a second network are mixed, in which a mobile station device transfers communication related to a predetermined service to another mobile via the first network. In the case of the station device, before the network to communicate is switched to the second network, the first step of receiving connection information for connecting to another mobile station device, and the network to which the mobile station device communicates are first. And a second step of continuing the service by connecting to another mobile station device based on the connection information when the network is switched to the second network.

  (Additional remark 5) The communication regarding a predetermined service is made into the other mobile station apparatus via the 1st network to the computer as a mobile station apparatus in the radio | wireless communications system in which the 1st network and the 2nd network are mixed In this case, the first step of receiving connection information for connecting to another mobile station apparatus before the network for communication is switched to the second network, and the connection information when the network for communication is switched to the second network And a second step of continuing the service by connecting to another mobile station device based on the program.

  DESCRIPTION OF SYMBOLS 1 ... Wireless communication system 10 ... Mobile station apparatus 20 ... 1st base station apparatus 30 ... Cell 40 ... 2nd base station apparatus 50 ... Interconnection apparatus 101 ... Application execution part 102 ... Control part 103 ... 1st communication apparatus 104 ... 2nd communication apparatus 105 ... Transmission part 106 ... Reception part 107 ... Transmission antenna 108 ... Reception antenna 109 ... Storage part 111 ... Call execution part 112 ... Service execution part 113 ... 1st communication control part 114 ... 2nd communication control 115: Connection information receiving unit 201 ... Control unit 202 ... Storage unit 203 ... Network communication unit 204 ... Communication unit

Claims (5)

A mobile station apparatus in a wireless communication system in which a first network and a second network are mixed,
When communication related to a service that can not be interconnected between the first network and the second network via the first network is another mobile station device, the network that communicates is the second network. Before switching to the connection information receiving unit for receiving connection information for connecting to the other mobile station device,
An execution unit that connects to the other mobile station device based on the connection information and continues the service when a network to be communicated is switched to the second network;
A mobile station apparatus comprising: A mobile station apparatus in a wireless communication system in which a first network and a second network are mixed,
Connection for connecting to the other mobile station apparatus before the network to be communicated is switched to the second network when communication related to a predetermined service is made to the other mobile station apparatus via the first network A connection information receiving unit for receiving information;
An execution unit that connects to the other mobile station device based on the connection information and continues the service when a network to be communicated is switched to the second network;
With
The execution unit performs communication related to the first service that can be interconnected between the first network and the second network and the second service that cannot be interconnected via the first network. If the communication network is switched to the second network, the first service is continued through the second network, and the other mobile station apparatus is configured based on the connection information. to that transfer Dokyoku apparatus characterized by continuing said connecting second service station equipment. A wireless communication system in which a first network and a second network are mixed,
Mobile station equipment
When communication related to a service that can not be interconnected between the first network and the second network is set as another mobile station device via the first network, the communication network is the second network. A connection information receiving unit for receiving connection information for connecting to the other mobile station device before switching to a network;
An execution unit that connects to the other mobile station device based on the connection information and continues the service when a network to be communicated is switched to the second network;
A wireless communication system comprising: A wireless communication method in a wireless communication system in which a first network and a second network are mixed,
Network in which communication is performed when the mobile station apparatus uses another mobile station apparatus for communication regarding services that can not be interconnected between the first network and the second network via the first network. A first step of receiving connection information for connecting to the other mobile station device before switching to the second network;
A second step in which the mobile station device connects to the other mobile station device based on the connection information and continues the service when a network for communication is switched to the second network;
A wireless communication method comprising: In a computer as a mobile station apparatus in a wireless communication system in which a first network and a second network are mixed,
When communication related to a service that can not be interconnected between the first network and the second network is set as another mobile station device via the first network, the communication network is the second network. A first step of receiving connection information for connecting to the other mobile station device before switching to a network;
A second step of continuing the service by connecting to the other mobile station device based on the connection information when a network to be communicated is switched to the second network;
A program for running

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