JP6482078B2 - Mobile router, SIM card automatic switching system, and method thereof - Google Patents

Description

  The present invention relates to a mobile router, a SIM (Subscriber Identity Module) card automatic switching system, and a method thereof.

  In recent years, cheap SIM plans have increased. For example, there are many SIMs that have communication restrictions instead of low usage fees, such as those that are capable of high-speed communication but have restrictions on the amount of communication, and those that can only communicate at low speed but have no restriction on the amount of communication.

  With the advent of such a low-cost SIM, an increasing number of users own a plurality of SIM cards and use them according to the application used. Accordingly, there is an increasing demand for dual SIM-compatible mobile routers into which two SIM cards can be inserted. Usually, when switching between two SIM cards, the user needs to switch manually, which is troublesome.

  In Patent Document 1, in a mobile phone, an ID (identification) code for identifying a service provider is received from a base station, and the received ID code is compared with an ID code stored by itself. A technique for automatically switching a SIM card is described. In Patent Document 1, the SIM card is switched so as to achieve the cheapest connection path for each call.

JP 2002-345046 A

  However, Patent Document 1 does not consider different low-cost SIM plans such as those capable of high-speed communication and limited communication amount, and those capable of low-speed communication but not limited communication amount. For this reason, even when a sufficient application is used for low-speed communication, a SIM card capable of high-speed communication and limited in traffic volume is used, and there is a problem that the traffic volume of high-speed communication may be wasted. . Similarly, even when an application that requires high-speed communication is used, there is a problem that a SIM card that can perform only low-speed communication but has no communication amount restriction is used, which may hinder use of the application.

  The present invention has been made to solve such problems. A mobile router capable of automatically switching to a SIM card suitable for an application used in a user terminal, a SIM card automatic switching system, And an object thereof.

  A mobile router according to a first aspect of the present invention includes a terminal side communication module that communicates with a user terminal, a base station side communication module that communicates with a radio base station, and a first SIM card that stores a first SIM card. A SIM slot, a second SIM slot storing a second SIM card, a first table storing an application identifier and the first or second SIM card in association with each other, and received from the user terminal Identifier detecting means for detecting an identifier in a packet, and SIM card selecting means for selecting a SIM card corresponding to the identifier detected by the identifier detecting means with reference to the first table, The station side communication module uses the SIM card selected by the SIM card selection means to transmit the packet of the application. And it performs.

  A SIM card automatic switching system according to a second aspect of the present invention includes a user terminal and a mobile router, and the user terminal includes a communication module for communicating with the mobile router, and an identifier of an application to be used. Identifier storage means for storing in the packet of the application, the mobile router, a terminal side communication module for communicating with the user terminal, a base station side communication module for communicating with a radio base station, a first A first SIM slot for storing the second SIM card, a second SIM slot for storing the second SIM card, an application identifier and the first or second SIM card in association with each other. A table; identifier detecting means for detecting an identifier in a packet received from the user terminal; And a SIM card selection unit that selects a SIM card corresponding to the identifier detected by the identifier detection unit, wherein the base station side communication module is selected by the SIM card selection unit. Communication of the application packet is performed using a SIM card.

  A SIM card automatic switching method according to a third aspect of the present invention is a mobile comprising: a first SIM slot for storing a first SIM card; and a second SIM slot for storing a second SIM card. A method in a router, wherein an identifier in a packet received from a user terminal is detected and detected by referring to a first table that stores an application identifier and a first or second SIM card in association with each other. Selecting a SIM card corresponding to the identifier, and using the selected SIM card to communicate with the radio base station of the packet of the application.

  According to the present invention, it is possible to provide a mobile router, a SIM card automatic switching system, and a method thereof that can automatically switch to a SIM card suitable for an application used in a user terminal.

It is a figure which shows the structure of the mobile communication system concerning Embodiment 1 of this invention. It is a block diagram which shows the structure of the mobile router concerning Embodiment 1 of this invention. It is a sequence diagram which shows the process in the mobile router concerning Embodiment 1 of this invention. It is a block diagram which shows the structure of the user terminal concerning Embodiment 1 of this invention. It is a sequence diagram which shows the process in the automatic switching system of the SIM card | curd concerning Embodiment 1 of this invention. It is a block diagram which shows the structure of the mobile router concerning Embodiment 2 of this invention. It is a sequence diagram which shows the process in the mobile router concerning Embodiment 2 of this invention. It is a block diagram which shows the structure of the user terminal concerning Embodiment 3 of this invention. It is a block diagram which shows the structure of the mobile router concerning Embodiment 3 of this invention. It is a sequence diagram which shows the process in the automatic switching system of the SIM card | curd concerning Embodiment 3 of this invention. It is a sequence diagram which shows the process in the automatic switching system of the SIM card | curd concerning Embodiment 3 of this invention. It is a figure which shows the example of selection of the 1st table concerning Embodiment 3 of this invention. It is a block diagram which shows the structure of the mobile router concerning Embodiment 4 of this invention. It is a sequence diagram which shows the process in the automatic switching system of the SIM card | curd concerning Embodiment 4 of this invention.

Embodiment 1
First, the configuration of the mobile communication system according to the first exemplary embodiment of the present invention will be described with reference to FIG. As shown in FIG. 1, the mobile communication system includes a mobile router 100, a user terminal 200, and a radio base station 300.

  The mobile router 100 is a mobile router having a plurality of SIM slots and capable of inserting a plurality of SIM cards. For example, the mobile router 100 is a dual SIM-compatible mobile router having two SIM slots, and can be dual-active with two SIM cards. In addition, the mobile router 100 includes an interface capable of communicating with the user terminal 200 by Wi-Fi (Wireless Fidelity) communication. Furthermore, the mobile router 100 includes an interface capable of communicating with the radio base station 300 by communication using a WAN (Wide Area Network) line. Note that communication using a WAN line refers to communication using a wireless communication standard such as LTE (Long Term Evolution) and WiMAX (Worldwide Interoperability for Microwave Access).

  The user terminal 200 is a mobile device equipped with an interface capable of Wi-Fi communication. For example, the user terminal 200 is a smartphone, a tablet terminal, or the like.

  The radio base station 300 represents a general radio base station, and is a radio base station that performs radio communication such as LTE and WiMAX.

  Next, the configuration of the mobile router 100 according to the first exemplary embodiment of the present invention will be described with reference to FIG. The mobile router 100 includes a first SIM slot 101, a second SIM slot 102, a base station side communication module 103, a terminal side communication module 104, a storage unit 110, and a control unit 120.

  The first SIM slot 101 and the second SIM slot 102 are interfaces that store the SIM card and exchange information between the stored SIM card and the control unit 120. In the first embodiment of the present invention, a description will be given of inserting and using a first SIM card in the first SIM slot 101 and a second SIM card in the second SIM slot 102.

  The base station side communication module 103 is a communication module for performing communication with the radio base station 300 using a WAN line. The base station side communication module 103 performs communication control, data communication, and the like using a WAN line. In addition, the base station side communication module 103 performs communication with the radio base station 300 using the first SIM card or the second SIM card.

  The terminal side communication module 104 is a communication module for performing Wi-Fi communication with the user terminal 200. The terminal-side communication module 104 performs Wi-Fi communication control, data communication, and the like. The terminal-side communication module 104 transmits a packet to the user terminal 200 and receives a packet from the user terminal 200. In addition, the terminal-side communication module 104 outputs the received packet to the control unit 120.

  The storage unit 110 includes a first table 111. The storage unit 110 also stores software necessary for controlling the mobile router 100, various setting information, and the like.

  The first table 111 stores an application identifier and the first or second SIM card in association with each other.

  The control unit 120 includes, for example, a CPU (Central Processing Unit) and an OS (Operating System). The control unit 120 includes an identifier detection unit 121 and a SIM card selection unit 122.

  The identifier detection unit 121 is a functional unit that detects an identifier in a packet received from the user terminal 200. The identifier detection unit 121 outputs the detected identifier to the SIM card selection unit 122.

  The SIM card selection unit 122 receives an identifier from the identifier detection unit 121. In addition, the SIM card selection unit 122 refers to the first table 111 and selects a SIM card corresponding to the received identifier. That is, the SIM card selection unit 122 selects the SIM card corresponding to the identifier in the packet received from the user terminal 200 as the SIM card when the application with the identifier is used.

  Therefore, the base station side communication module 103 performs communication of application packets using the SIM card selected by the SIM card selection unit 122.

  As described above, the mobile router 100 of FIG. 2 according to the first embodiment is configured to store the application identifier and the first or second SIM card in association with each other using the first table 111. Further, the identifier detection unit 121 is configured to detect the identifier in the packet received from the user terminal 200. Further, the SIM card selection unit 122 refers to the first table 111 and selects the SIM card corresponding to the identifier in the received packet. Thereby, in the mobile router 100 of FIG. 2 according to the first embodiment, it is possible to automatically switch to the SIM card suitable for the application used in the user terminal 200 without the user's operation.

  Next, processing in the mobile router 100 according to the first embodiment of the present invention will be described using the sequence diagram of FIG.

  First, the terminal side communication module 104 receives a packet from the user terminal 200 (S101). Next, the identifier detection unit 121 detects the identifier in the packet received in S101 (S102). Next, the SIM card selection unit 122 selects a SIM card corresponding to the identifier detected in S102 (S103). In S103, the SIM card corresponding to the detected identifier is selected by referring to the first table that stores the identifier of the application and the first or second SIM card in association with each other. Next, the base station side communication module 103 communicates with the radio base station 300 of application packets using the SIM card selected in S103 (S104).

  Then, the structure of the user terminal 200 concerning Embodiment 1 of this invention is demonstrated using FIG. The user terminal 200 includes a communication module 201, a storage unit 202, and a control unit 210.

  The communication module 201 is a communication module for performing Wi-Fi communication with the mobile router 100. The communication module 201 performs Wi-Fi communication control, data communication, and the like. The communication module 201 receives a packet from the mobile router 100. Further, the communication module 201 receives a packet from the control unit 210 and transmits the received packet to the mobile router 100.

  The storage unit 202 stores different identifiers associated with a plurality of applications. Note that the identifier in the first embodiment may be any identifier as long as the identifier can uniquely identify the application.

  The control unit 210 is configured by a CPU and an OS, for example. The control unit 210 includes an identifier storage unit 211.

  The identifier storage unit 211 is a functional unit that stores an identifier of an application to be used in a packet of the application. When the application is used, the identifier storage unit 211 refers to the storage unit 202 and stores the identifier of the application to be used in the packet of the application. Then, the identifier storage unit 211 outputs the packet storing the identifier to the communication module 201.

  Therefore, the communication module 201 transmits a packet storing the application identifier to the mobile router 100.

  Next, processing in the SIM card automatic switching system according to the first exemplary embodiment of the present invention will be described with reference to the sequence diagram of FIG. The SIM card automatic switching system according to the first embodiment of the present invention is a system that performs automatic switching of SIM cards by the mobile router 100 and the user terminal 200.

  First, use of an application is started on the user terminal 200 (S201). Next, the identifier storage unit 211 refers to the storage unit 202 and stores the identifier of the application to be used in the packet of the application (S202). Next, the communication module 201 transmits a packet storing the application identifier to the mobile router 100 (S203).

  Next, the terminal side communication module 104 receives a packet from the user terminal 200 (S204). Next, the identifier detection unit 121 detects the identifier in the packet received in S204 (S205). Next, the SIM card selection unit 122 selects a SIM card corresponding to the identifier detected in S205 (S206). In S206, the SIM card corresponding to the detected identifier is selected by referring to the first table that stores the identifier of the application and the first or second SIM card in association with each other. Next, the base station side communication module 103 communicates with the radio base station 300 of the application packet using the SIM card selected in S206 (S207).

  As described above, the SIM card automatic switching system according to the first embodiment is configured such that the user terminal 200 stores the identifier of the application to be used in the packet of the application. Further, the mobile router 100 is configured to store the application identifier and the first or second SIM card in association with each other using the first table 111. In addition, an identifier in a packet received from the user terminal 200 is detected. Further, the SIM card corresponding to the identifier in the received packet is selected with reference to the first table 111. Thereby, in the SIM card automatic switching system according to the first embodiment, the SIM card in the mobile router 100 can be automatically switched to a SIM card suitable for the application used in the user terminal 200.

Embodiment 2
Then, the mobile communication system concerning Embodiment 2 of this invention is demonstrated. The overall configuration of the mobile communication system according to the second exemplary embodiment of the present invention is the same as the configuration shown in FIG. The second embodiment of the present invention is an embodiment including registration in the first table 111.

  Next, the configuration of the mobile router 400 according to the second exemplary embodiment of the present invention will be described with reference to FIG. The mobile router 400 includes a first SIM slot 101, a second SIM slot 102, a base station side communication module 103, a terminal side communication module 104, a storage unit 110, and a control unit 420. The configuration other than the control unit 420 is the same as the configuration shown in FIG. In the second embodiment, a first SIM card capable of high-speed communication is inserted into the first SIM slot 101, but the second SIM slot 102 has no traffic restriction. The insertion and use of the second SIM card, which is low-speed communication, will be described.

  The control unit 420 includes an identifier detection unit 121, a SIM card selection unit 122, a measurement unit 421, a comparison unit 422, and a registration unit 423. The identifier detection unit 121 and the SIM card selection unit 122 are the same as those shown in FIG.

  The measurement unit 421 receives a signal received from the radio base station 300, that is, a downlink signal, from the base station side communication module 103. Further, the measurement unit 421 measures the communication speed of the received downlink signal. Specifically, the communication speed of the measurement target packet of the downlink signal is measured. Here, the measurement of the communication speed by the measurement unit 421 is performed when the identifier in the packet detected by the identifier detection unit 121 is not stored in the first table 111 when an application is used by the user terminal 200. Shall be performed. Whether the identifier in the packet detected by the identifier detection unit 121 is stored in the first table 111 is determined by any of the identifier detection unit 121, the SIM card selection unit 122, and the measurement unit 421. Alternatively, the control unit 420 may include other functional units that perform the determination. Note that an identifier may not be stored in the packet in the downlink signal.

  In addition, the measurement of the communication speed by the measurement unit 421 is performed using one of the first SIM card and the second SIM card that can perform faster communication. In the second embodiment, since the first SIM card can perform higher speed communication than the second SIM card, the measurement unit 421 measures the communication speed using the first SIM card. During the measurement of the downlink communication speed of the application, communication is performed using the second SIM card except for the measurement target packet, and only the measurement target packet is communicated using the first SIM card. Then, the measurement unit 421 outputs a measurement result indicating the measured communication speed to the comparison unit 422.

  The comparison unit 422 receives the measurement result from the measurement unit 421. Further, the comparison unit 422 compares the communication speed indicated by the measurement result with a threshold value. Note that the threshold value can be arbitrarily set in advance. Then, the comparison unit 422 outputs a comparison result indicating whether the communication speed is equal to or higher than the threshold value or lower than the threshold value to the registration unit 423.

  The registration unit 423 receives the comparison result from the comparison unit 422. Then, the registration unit 423 refers to the comparison result, and when the communication speed is equal to or higher than the threshold value, the registration unit 423 associates the identifier in the packet detected by the identifier detection unit 121 with the first SIM card, and the first table 111 To store. That is, the identifier of the application used in the user terminal 200 and the first SIM card are stored in the first table 111 in association with each other. In addition, the registration unit 423 refers to the comparison result, and when the communication speed is less than the threshold, the first table 111 associates the identifier in the packet detected by the identifier detection unit 121 with the second SIM card. To store. That is, the identifier of the application used in the user terminal 200 and the second SIM card are stored in the first table 111 in association with each other.

  Next, processing in the mobile router 400 according to the second embodiment of the present invention will be described using the sequence diagram of FIG.

  First, the terminal side communication module 104 receives a packet from the user terminal 200 (S301). Next, the identifier detection unit 121 detects the identifier in the packet received in S301 (S302). Next, it is determined whether or not the identifier detected in S302 is registered in the first table 111 (S303).

  If it is determined in S303 that the card is registered in the first table 111, the SIM card selection unit 122 refers to the first table 111 and selects a SIM card corresponding to the identifier detected in S302. Select (S308). Next, the base station side communication module 103 communicates with the radio base station 300 of application packets using the SIM card selected in S303 (S309).

  On the other hand, when it is determined in S303 that the information is not registered in the first table 111, the measurement unit 421 uses the first SIM card to measure the communication speed of the signal received from the radio base station 300. Perform (S304). Next, the comparison unit 422 determines whether or not the communication speed is equal to or higher than a threshold (S305). If it is determined in S305 that the communication speed is equal to or higher than the threshold value, the identifier in the packet detected in S302 is associated with the first SIM card and stored in the first table 111 (S306), Proceed to S308. If it is determined in S305 that the communication speed is less than the threshold, the identifier in the packet detected in S302 and the second SIM card are associated with each other and stored in the first table 111 (S307). ), Go to S308.

  As described above, in the mobile router 400 according to the second embodiment, when the identifier in the packet received from the user terminal 200 is not stored in the first table 111, the communication speed of the downlink signal is measured. It is configured to do. Also, a configuration in which the measured communication speed is compared with a threshold value, and an identifier in the packet is associated with the first or second SIM card and stored in the first table 111 depending on whether the communication speed is equal to or higher than the threshold value. It is said. Thereby, in the mobile router 400 according to the second embodiment, the association between the application identifier and the first or second SIM card can be newly registered in the first table 111.

  Also, in the mobile router 400 according to the second embodiment, the communication speed of the downlink signal is measured using one of the first SIM card and the second SIM card that can perform faster communication. It is configured to do. As a result, the communication speed when the application is being used by the user terminal 200 can be measured without being affected by the communication speed limitation of the SIM card.

Embodiment 3
Then, the mobile communication system concerning Embodiment 3 of this invention is demonstrated. The overall configuration of the mobile communication system according to the third exemplary embodiment of the present invention is the same as the configuration shown in FIG. The third embodiment of the present invention is an embodiment including that the mobile router 500 includes a dedicated first table 111 for each of a plurality of user terminals.

  First, the configuration of the user terminal 600 according to the third embodiment of the present invention will be described using FIG. The user terminal 600 includes a communication module 201, a storage unit 602, and a control unit 610. The communication module 201 has the same configuration as that shown in FIG.

  The control unit 610 is configured by a CPU and an OS, for example. The control unit 610 includes an address storage unit 611, an identifier sorting unit 612, and an identifier storage unit 613.

  The address storage unit 611 stores the MAC (Media Access Control) address of the user terminal 600 in the connection request packet transmitted to the mobile router 500. The address storage unit 611 outputs a connection request packet storing the MAC address to the communication module 201.

  The identifier distribution unit 612 arbitrarily distributes identifiers to each of a plurality of applications. The identifier distribution unit 612 arbitrarily distributes, for example, an identifier 1 for the application A and an identifier 2 for the application B. Then, the identifier sorting unit 612 stores associations between a plurality of applications and identifiers in the storage unit 602.

  The identifier storage unit 613 reads the identifier of the application to be used from the storage unit 602 when the application is used. Further, the identifier storage unit 613 stores the identifier of the application in the packet of the application to be used. Then, the identifier storage unit 613 outputs the packet storing the identifier to the communication module 201.

  The communication module 201 receives from the address storage unit 611 a connection request packet in which the MAC address is stored. Then, the communication module 201 transmits a connection request packet storing the MAC address to the mobile router 500. In addition, the communication module 201 receives a packet storing an application identifier from the identifier storage unit 613. Then, the communication module 201 transmits a packet storing the application identifier to the mobile router 500.

  The storage unit 602 stores different identifiers associated with a plurality of applications. Note that the identifiers in Embodiment 3 are sorted and stored by the identifier sorting unit 612.

  Next, the configuration of the mobile router 500 according to the third exemplary embodiment of the present invention will be described with reference to FIG. The mobile router 500 includes a first SIM slot 101, a second SIM slot 102, a base station side communication module 103, a terminal side communication module 104, a storage unit 510, and a control unit 520. Note that the configuration other than the storage unit 510 and the control unit 520 is the same as the configuration shown in FIG. In the third embodiment, the first SIM slot 101 is inserted with a first SIM card capable of high-speed communication although the communication amount is limited, and the second SIM slot 102 has no communication amount limitation. The insertion and use of the second SIM card, which is low-speed communication, will be described.

  The storage unit 510 includes a dedicated first table 111 for each connected user terminal 600. For example, when there are two user terminals that have been connected to the mobile router 500, the user terminal A and the user terminal B, the storage unit 510 uses the first table for the user terminal A and the user terminal B There are two first tables 111 of the first table.

  The control unit 520 includes an identifier detection unit 121, a SIM card selection unit 122, a measurement unit 421, a comparison unit 422, a registration unit 423, an address detection unit 521, and a table selection unit 522. The configuration other than the address detection unit 521 and the table selection unit 522 is the same as the configuration shown in FIG.

  The address detection unit 521 receives the connection request packet received from the user terminal 600 from the terminal-side communication module 104. The address detection unit 521 detects the MAC address stored in the connection request packet. Further, the address detection unit 521 outputs the detected MAC address to the table selection unit 522.

  The table selection unit 522 determines whether or not the first table 111 for the user terminal having the received MAC address is stored in the storage unit 510. When the first table 111 for the user terminal of the received MAC address is stored in the storage unit 510, access to the first table 111 for the user terminal is validated. For example, when the received MAC address is the MAC address of the user terminal A and the first table 111 for the user terminal A is stored in the storage unit 510, the first table 111 for the user terminal A is stored in the first table 111. Enable access. In order to enable access to the first table 111 for the user terminal A, the first table 111 for the user terminal A is selected and used as the first table 111 for the connected user terminal A. That is.

  In addition, when the first table 111 for the user terminal of the received MAC address is not stored in the storage unit 510, the table selection unit 522 newly creates the first table 111 for the user terminal, Store in the storage unit 510. In addition, the table selection unit 522 enables access to the newly created first table 111. For example, when the received MAC address is the MAC address of the user terminal C and the first table 111 for the user terminal C is not stored in the storage unit 510, the first table 111 for the user terminal C is newly updated. And access to the newly created first table 111 for the user terminal C is validated.

  Next, a process in the SIM card automatic switching system according to the third exemplary embodiment of the present invention will be described with reference to FIG. 10 (FIGS. 10A and 10B).

  First, the user terminal 600 and the mobile router 500 are connected by Wi-Fi or the like (S401). Next, the mobile router 500 determines whether or not the first table 111 for the user terminal connected in S401 is stored in the storage unit 510 (S402). In S402, for example, the address detection unit 521 detects the MAC address stored in the packet of the connection request, and the table selection unit 522 displays the first table 111 for the user terminal of the MAC address. This is performed by determining whether or not the data is stored in the storage unit 510.

  When it is determined in S402 that the first table 111 for the connected user terminal is stored in the storage unit 510, the table selection unit 522 proceeds to the first table 111 for the connected user terminal. Is enabled (S403).

  On the other hand, when it is determined in S402 that the first table 111 for the connected user terminal is not stored in the storage unit 510, the table selection unit 522 displays the first table for the connected user terminal. 111 is created, and access to the created first table 111 is validated (S404).

  Here, S403 and S404 will be described using the example of FIG. In the example of FIG. 11, the first table 111 for user terminal A and the first table 111 for user terminal B are stored in the storage unit 510, and the first table 111 for user terminal C is stored in the storage unit 510. It is assumed that it is not stored.

  When the connected user terminal is the user terminal A, access to the first table 111 for the user terminal A is validated. In the first table 111 for the user terminal A, an application identifier and a SIM card are stored in association with each other. In the example of FIG. 11, identifier 1 and SIM card 1, identifier 2 and SIM card 2, identifier 3 and SIM card 1, and identifier 4 and SIM card 2 are stored in association with each other.

  When the connected user terminal is the user terminal B, access to the first table 111 for the user terminal B is validated. In the first table 111 for the user terminal B, an application identifier and a SIM card are stored in association with each other. In the example of FIG. 11, identifier 1 and SIM card 2, identifier 2 and SIM card 2, identifier 3 and SIM card 1 are stored in association with each other.

  When the connected user terminal is the user terminal C, the first table 111 for the user terminal C is not stored in the storage unit 510. Therefore, the first table 111 for the user terminal C is created and the creation is performed. The access to the first table 111 is enabled. The created first table 111 for the user terminal C does not store the association between the application identifier and the SIM card at the time of creation.

  Returning to FIG. After S403 or S404, the user terminal 600 starts using the application (S405). Next, the identifier storage unit 613 refers to the storage unit 602 and stores the identifier of the application to be used in the packet of the application (S406). Next, the communication module 201 transmits a packet storing the application identifier to the mobile router 500 (S407).

  Since S301 to S309 are the same as those in FIG. After S309, the process returns to S405, and when the user terminal 600 starts using the application, the subsequent processing is performed again.

  As described above, in the SIM card automatic switching system according to the third embodiment, the user terminal 600 arbitrarily assigns identifiers to each of a plurality of applications. Further, the mobile router 500 has a dedicated first table 111 for each user terminal 600. Further, when the mobile router 500 does not store the first table 111 for the connected user terminal in the storage unit 510, the first table 111 for the user terminal is newly created. Thereby, in the SIM card automatic switching system according to the third embodiment, the mobile router 500 can manage the association between the application identifier and the SIM card for each user terminal 600. In the third embodiment, since the user terminal 600 arbitrarily assigns the application identifier, the relationship between the application and the application identifier is different for each user terminal. However, the mobile router 500 is connected to the user terminal 600 for the connected user terminal. By referring to the first table 111, it is possible to automatically switch to a SIM card suitable for an application used by the user terminal 600.

Embodiment 4
Then, the mobile communication system concerning Embodiment 4 of this invention is demonstrated. The overall configuration of the mobile communication system according to the fourth embodiment of the present invention and the configuration of the user terminal 600 are the same as the configurations shown in FIG. 1 and FIG. The fourth embodiment of the present invention includes implementation in which the mobile router 700 includes a first table 111 dedicated to each of a plurality of user terminals and a second table 711 commonly used by the plurality of user terminals. It is a form.

  First, the configuration of the mobile router 700 according to the fourth exemplary embodiment of the present invention will be described with reference to FIG. The mobile router 700 includes a first SIM slot 101, a second SIM slot 102, a base station side communication module 103, a terminal side communication module 104, a storage unit 710, and a control unit 720. Note that the configuration other than the storage unit 710 and the control unit 720 is the same as the configuration shown in FIG. In the fourth embodiment, a first SIM card capable of high-speed communication is inserted into the first SIM slot 101, and the second SIM slot 102 has no traffic restriction. The insertion and use of the second SIM card, which is low-speed communication, will be described.

  The storage unit 710 includes a first table 111 and a second table 711. Since the first table 111 is the same as the first table 111 of the third embodiment described above, description thereof is omitted.

  The second table 711 is a table commonly used for a plurality of user terminals. The second table 711 stores a common identifier commonly used in a plurality of user terminals 600 and the first or second SIM card in association with an application having many users. Note that a technique for using a common identifier in a plurality of user terminals 600 for an application that uses many users is performed, for example, by the mobile router 700 specifying a common identifier for the application to the plurality of user terminals 600.

  The control unit 720 includes an identifier detection unit 121, a SIM card selection unit 721, a measurement unit 421, a comparison unit 422, a registration unit 423, an address detection unit 521, and a table selection unit 522. The configuration other than the SIM card selection unit 721 is the same as the configuration shown in FIG.

  The SIM card selection unit 721 receives an identifier from the identifier detection unit 121. Also, the SIM card selection unit 721 determines whether or not the received identifier is registered in the second table 711. Note that the determination whether or not the identifier detected by the identifier detection unit 121 is registered in the second table 711 is not limited to being performed by the SIM card selection unit 721. For example, the determination may be performed by the identifier detection unit 121 or the measurement unit 421, and the control unit 720 may include other functional units that perform the determination.

  When the received identifier is registered in the second table 711, the SIM card selection unit 721 selects the SIM card corresponding to the received identifier with reference to the second table 711. In addition, when the received identifier is not registered in the second table 711, the SIM card selection unit 721 refers to the second table 711 and selects a SIM card corresponding to the received identifier.

  Next, processing in the SIM card automatic switching system according to the fourth embodiment of the present invention will be described with reference to the sequence diagram of FIG. Note that the processing before S501 and the processing after S510 are the same as those in FIG.

  First, the terminal side communication module 104 receives a packet from the user terminal 600 (S501). Next, the identifier detection unit 121 detects the identifier in the packet received in S501 (S502). Next, it is determined whether or not the identifier detected in S502 is registered in the second table 711 (S503).

  If it is determined in S503 that the card is registered in the second table 711, the SIM card selection unit 721 refers to the second table 711 and selects a SIM card corresponding to the identifier detected in S502. Select (S509). Next, the base station side communication module 103 communicates with the radio base station 300 of application packets using the SIM card selected in S509 (S510).

  On the other hand, if it is determined in S503 that the information is not registered in the second table 711, it is determined whether or not the information is registered in the first table 111 (S504).

  If it is determined in S504 that the card is registered in the first table 111, the SIM card selection unit 721 refers to the first table 111 and selects a SIM card corresponding to the identifier detected in S502. Select (S509).

  On the other hand, if it is determined in S504 that it is not registered in the first table 111, the measurement unit 421 uses the first SIM card to measure the communication speed of the signal received from the radio base station 300. This is performed (S505). Next, the comparison unit 422 determines whether or not the communication speed is equal to or higher than a threshold value (S506). If it is determined in S506 that the communication speed is equal to or higher than the threshold, the identifier in the packet detected in S502 is associated with the first SIM card and stored in the first table 111 (S507), The process proceeds to S509. If it is determined in S506 that the communication speed is less than the threshold, the identifier in the packet detected in S502 and the second SIM card are associated with each other and stored in the first table 111 (S508). ), And proceeds to S509. After S507 or S508, the SIM card selection unit 721 refers to the first table 111 and selects a SIM card corresponding to the identifier detected in S502 (S509).

  As described above, the mobile router 700 according to the fourth embodiment includes the second table 711 commonly used for the plurality of user terminals 600 in addition to the first table 111 dedicated for each user terminal 600. It is said. As a result, the information stored in the second table 711 need not be stored in the first table 111. Further, the measurement / comparison / registration process can be omitted for the common identifier of the application stored in the second table 711.

  Each process of the above-described embodiment may be executed by software. That is, a computer program for performing each process may be read and executed by a CPU provided in the control unit. Even if each processing is performed using a program, the same processing as the processing in the above-described embodiment can be performed. The above programs can be stored using various types of non-transitory computer readable media and supplied to a computer. Non-transitory computer readable media include various types of tangible storage media. Examples of non-transitory computer-readable media include magnetic recording media (for example, flexible disks, magnetic tapes, hard disk drives), magneto-optical recording media (for example, magneto-optical disks), CD-ROM (Read Only Memory) CD-R, CD -R / W, semiconductor memory (for example, mask ROM, PROM (Programmable ROM), EPROM (Erasable PROM), flash ROM, RAM (Random Access Memory)). The program may also be supplied to the computer by various types of transitory computer readable media. Examples of transitory computer readable media include electrical signals, optical signals, and electromagnetic waves. The temporary computer-readable medium can supply the program to the computer via a wired communication path such as an electric wire and an optical fiber, or a wireless communication path.

  Note that the present invention is not limited to the above-described embodiment, and can be changed as appropriate without departing from the spirit of the present invention. For example, in the above embodiment, an example in which the mobile router includes two SIM slots has been described, but the number of SIM slots may be three or more. In the above embodiment, an example in which a mobile router uses a MAC address to identify a user terminal has been described. However, an identifier other than a MAC address may be used as long as the identifier can uniquely identify the user terminal.

(Appendix 1)
A terminal-side communication module that communicates with the user terminal;
A base station side communication module for communicating with a radio base station;
A first SIM slot for storing a first SIM card;
A second SIM slot for storing a second SIM card;
A first table for storing an application identifier and the first or second SIM card in association with each other;
Identifier detecting means for detecting an identifier in a packet received from the user terminal;
SIM card selection means for selecting a SIM card corresponding to the identifier detected by the identifier detection means with reference to the first table,
The base station side communication module is a mobile router that performs communication of the packet of the application using the SIM card selected by the SIM card selection means.

(Appendix 2)
Measuring means for measuring a communication speed of a signal received from the radio base station using the first SIM card capable of high-speed communication from the second SIM card;
A comparison means for comparing the measured communication speed with a threshold;
When the communication speed is equal to or higher than the threshold value, the identifier detected by the identifier detection unit and the first SIM card are stored in association with each other in the first table, and the communication speed is less than the threshold value. In this case, the mobile router according to appendix 1, further comprising: a registration unit that associates the identifier detected by the identifier detection unit with the second SIM card and stores the second SIM card in the first table.

(Appendix 3)
The mobile router according to appendix 1 or 2, wherein the first table is a dedicated table for each user terminal.

(Appendix 4)
Address detecting means for detecting a MAC address stored in a packet of a connection request received from the user terminal;
When the first table for the user terminal having the MAC address is provided, the access to the first table for the user terminal is enabled, and the first table for the user terminal having the MAC address is not provided. In this case, the mobile router according to appendix 3, further comprising: a table selection unit that newly creates a table for the user terminal and validates access to the newly created first table.

(Appendix 5)
A second table commonly used for a plurality of user terminals;
The mobile router according to appendix 3 or 4, wherein the second table stores a common identifier of an application and the first or second SIM card in association with each other.

(Appendix 6)
A SIM card automatic switching system comprising a user terminal and a mobile router,
The user terminal is
A communication module for communicating with the mobile router;
An identifier storage means for storing an identifier of an application to be used in a packet of the application,
The mobile router
A terminal-side communication module that communicates with the user terminal;
A base station side communication module for communicating with a radio base station;
A first SIM slot for storing a first SIM card;
A second SIM slot for storing a second SIM card;
A first table for storing an application identifier and the first or second SIM card in association with each other;
Identifier detecting means for detecting an identifier in a packet received from the user terminal;
SIM card selection means for selecting a SIM card corresponding to the identifier detected by the identifier detection means with reference to the first table,
The SIM card automatic switching system, wherein the base station side communication module communicates the packet of the application using the SIM card selected by the SIM card selection means.

(Appendix 7)
The mobile router
Measuring means for measuring a communication speed of a signal received from the radio base station using the first SIM card capable of high-speed communication from the second SIM card;
A comparison means for comparing the measured communication speed with a threshold;
When the communication speed is equal to or higher than the threshold value, the identifier detected by the identifier detection unit and the first SIM card are stored in association with each other in the first table, and the communication speed is less than the threshold value. In this case, the SIM card automatic switching system according to appendix 6, further comprising: a registration unit that associates the identifier detected by the identifier detection unit with the second SIM card and stores the identifier in the first table.

(Appendix 8)
The first table is a dedicated table for each user terminal;
The user terminal is
Address storage means for storing the MAC address of the user terminal in the packet of the connection request transmitted to the mobile router;
An identifier distribution means for arbitrarily distributing the identifier to each of a plurality of applications,
The mobile router
Address detecting means for detecting a MAC address stored in the packet of the connection request received from the user terminal;
When the first table for the user terminal having the MAC address is provided, the access to the first table for the user terminal is enabled, and the first table for the user terminal having the MAC address is not provided. In this case, the SIM card automatic switching system according to appendix 6 or 7, further comprising: a table selection unit that newly creates a table for the user terminal and enables access to the newly created first table .

(Appendix 9)
A SIM card automatic switching method in a mobile router comprising a first SIM slot for storing a first SIM card and a second SIM slot for storing a second SIM card,
Detect the identifier in the packet received from the user terminal,
With reference to the first table that stores the application identifier and the first or second SIM card in association with each other, the SIM card corresponding to the detected identifier is selected,
A method for automatically switching SIM cards, comprising using the selected SIM card to communicate with a radio base station of the packet of the application.

(Appendix 10)
If the detected identifier is not stored in the first table, communication of a signal received from the radio base station using the first SIM card capable of high-speed communication than the second SIM card Measure the speed,
Compare the measured communication speed with a threshold,
When the communication speed is equal to or higher than the threshold, the detected identifier and the first SIM card are stored in the first table in association with each other, and the communication speed is detected when the communication speed is lower than the threshold. The SIM card automatic switching method according to appendix 9, further comprising: storing the identifier and the second SIM card in association with each other in the first table.

(Appendix 11)
A program for causing a computer to perform an automatic switching method of SIM cards in a mobile router comprising a first SIM slot for storing a first SIM card and a second SIM slot for storing a second SIM card. There,
The method
Detect the identifier in the packet received from the user terminal,
With reference to the first table that stores the application identifier and the first or second SIM card in association with each other, the SIM card corresponding to the detected identifier is selected,
A program comprising: communicating a packet of the application with a radio base station using a selected SIM card.

(Appendix 12)
The method
If the detected identifier is not stored in the first table, communication of a signal received from the radio base station using the first SIM card capable of high-speed communication than the second SIM card Measure the speed,
Compare the measured communication speed with a threshold,
When the communication speed is equal to or higher than the threshold, the detected identifier and the first SIM card are stored in the first table in association with each other, and the communication speed is detected when the communication speed is lower than the threshold. The program according to appendix 11, further comprising: storing the identifier and the second SIM card in association with each other in the first table.

100, 400, 500, 700 Mobile router 101 First SIM slot 102 Second SIM slot 103 Base station side communication module 104 Terminal side communication module 111 First table 121 Identifier detection unit 122, 721 SIM card selection unit 200, 600 User terminal 201 Communication module 211, 613 Identifier storage unit 421 Measurement unit 422 Comparison unit 423 Registration unit 521 Address detection unit 522 Table selection unit 611 Address storage unit 612 Identifier distribution unit 711 Second table

Claims (10)

A terminal-side communication module that communicates with the user terminal;
A base station side communication module for communicating with a radio base station;
A first SIM slot for storing a first SIM card;
A second SIM slot for storing a second SIM card;
A first table for storing an application identifier and the first or second SIM card in association with each other;
Identifier detecting means for detecting an identifier in a packet received from the user terminal;
SIM card selection means for selecting a SIM card corresponding to the identifier detected by the identifier detection means with reference to the first table,
The base station side communication module is a mobile router that performs communication of the packet of the application using the SIM card selected by the SIM card selection means. Measuring means for measuring a communication speed of a signal received from the radio base station using the first SIM card capable of high-speed communication from the second SIM card;
A comparison means for comparing the measured communication speed with a threshold;
When the communication speed is equal to or higher than the threshold value, the identifier detected by the identifier detection unit and the first SIM card are stored in association with each other in the first table, and the communication speed is less than the threshold value. 2. The mobile router according to claim 1, further comprising: a registration unit that associates the identifier detected by the identifier detection unit with the second SIM card and stores the identifier in the first table.   The mobile router according to claim 1 or 2, wherein the first table is a dedicated table for each user terminal. Address detecting means for detecting a MAC address stored in a packet of a connection request received from the user terminal;
When the first table for the user terminal having the MAC address is provided, the access to the first table for the user terminal is enabled, and the first table for the user terminal having the MAC address is not provided. 4. The mobile router according to claim 3, further comprising: a table selection unit that newly creates a table for the user terminal and enables access to the newly created first table. A second table commonly used for a plurality of user terminals;
The mobile router according to claim 3 or 4, wherein the second table stores a common identifier of an application and the first or second SIM card in association with each other. A SIM card automatic switching system comprising a user terminal and a mobile router,
The user terminal is
A communication module for communicating with the mobile router;
An identifier storage means for storing an identifier of an application to be used in a packet of the application,
The mobile router
A terminal-side communication module that communicates with the user terminal;
A base station side communication module for communicating with a radio base station;
A first SIM slot for storing a first SIM card;
A second SIM slot for storing a second SIM card;
A first table for storing an application identifier and the first or second SIM card in association with each other;
Identifier detecting means for detecting an identifier in a packet received from the user terminal;
SIM card selection means for selecting a SIM card corresponding to the identifier detected by the identifier detection means with reference to the first table,
The SIM card automatic switching system, wherein the base station side communication module communicates the packet of the application using the SIM card selected by the SIM card selection means. The mobile router
Measuring means for measuring a communication speed of a signal received from the radio base station using the first SIM card capable of high-speed communication from the second SIM card;
A comparison means for comparing the measured communication speed with a threshold;
When the communication speed is equal to or higher than the threshold value, the identifier detected by the identifier detection unit and the first SIM card are stored in association with each other in the first table, and the communication speed is less than the threshold value. The SIM card automatic switching system according to claim 6, further comprising: a registration unit that stores the identifier detected by the identifier detection unit and the second SIM card in association with each other in the first table. . The first table is a dedicated table for each user terminal;
The user terminal is
Address storage means for storing the MAC address of the user terminal in the packet of the connection request transmitted to the mobile router;
An identifier distribution means for arbitrarily distributing the identifier to each of a plurality of applications,
The mobile router
Address detecting means for detecting a MAC address stored in the packet of the connection request received from the user terminal;
When the first table for the user terminal having the MAC address is provided, the access to the first table for the user terminal is enabled, and the first table for the user terminal having the MAC address is not provided. The SIM card automatic switching according to claim 6 or 7, further comprising: a table selection unit that newly creates a table for the user terminal and enables access to the newly created first table. system. A SIM card automatic switching method in a mobile router comprising a first SIM slot for storing a first SIM card and a second SIM slot for storing a second SIM card,
Detect the identifier in the packet received from the user terminal,
With reference to the first table that stores the application identifier and the first or second SIM card in association with each other, the SIM card corresponding to the detected identifier is selected,
A method for automatically switching SIM cards, comprising using the selected SIM card to communicate with a radio base station of the packet of the application. If the detected identifier is not stored in the first table, communication of a signal received from the radio base station using the first SIM card capable of high-speed communication than the second SIM card Measure the speed,
Compare the measured communication speed with a threshold,
When the communication speed is equal to or higher than the threshold, the detected identifier and the first SIM card are stored in the first table in association with each other, and the communication speed is detected when the communication speed is lower than the threshold. The SIM card automatic switching method according to claim 9, further comprising storing the identifier and the second SIM card in association with each other in the first table.

Images