JP6845914B2 - Communication equipment, connection control method and computer program - Google Patents

Description

The present invention relates to a connection control technique for a communication device.

Conventionally, in mobile terminals represented by smartphones, wireless access IFs (3G (3rd Generation) and LTE (Long Term Evolution)) for connecting to mobile phone carriers and wireless are used as IFs (Interfaces) for wireless access. It is equipped with a LAN (Local Area Network) IF. Although Bluetooth (registered trademark) for wirelessly connecting peripheral devices is implemented in mobile terminals, the IFs that can be connected to external networks such as the Internet are the wireless access IF and the wireless LAN IF. limited.

When mounting multiple wireless IFs on a mobile terminal, there are implementation restrictions (for example, the number of antennas provided in the mobile terminal) and cost restrictions (for example, a SIM card (Subscriber Identity Module Card)) with a mobile carrier. Requires a contract). Therefore, it is difficult to have many IFs in one mobile terminal, and most of the commercially available mobile terminals are configured to have one wireless access IF and one wireless LAN IF. In addition, the wireless LAN is limited to use in a specific area. Therefore, it is considered that the only wireless IF that can be used area-free at present is the wireless access IF.

By using multiple wireless IFs at the same time, even if there is an IF whose communication status deteriorates, it is always possible to maintain the service with the remaining IFs and adjust the traffic volume for each IF according to the situation. A plurality of techniques for maintaining the quality of service have been proposed (see, for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 2015-041986

However, a mobile terminal that uses a plurality of wireless IFs and aims to provide stable communication quality has the following problems. Considering the above restrictions, the number of wireless IFs that can be used area-free in a mobile terminal is considered to be limited to several (for example, 2 to 4). Therefore, depending on the area (radio wave condition of the place of use and congestion of the user) and the usage condition (whether or not the user is moving), a situation may occur in which all IFs cannot be used.

Also, in the case of applications such as VoIP (Voice over Internet Protocol) and TV phones that continue to maintain a connection by END to END during use, not only the deterioration of wireless IF but also the connection within a wired network such as the Internet (for example). , NAT router connection, latching connection at the server, etc.) is also assumed to be erroneous connection due to handover due to the movement of the mobile terminal. When recovering by switching or reconnecting an IF that is no longer available, it takes about several tens of seconds or more to switch or reconnect in 3G / LTE. Therefore, in a real-time application such as VoIP or a videophone, a state similar to disconnection continues for several tens of seconds, and the user may think that communication has been disconnected before recovery and stop using the application. In such a case, there is a problem that real-time application services such as VoIP and videophone cannot be stably provided.

In view of the above circumstances, an object of the present invention is to provide a technique capable of stably providing real-time application services such as VoIP and videophone.

In one aspect of the present invention, a communication unit that provides communication with a plurality of wireless interfaces, a state monitoring unit that monitors deterioration of the communication state via each wireless interface, and deterioration of the communication state are detected. The connection control unit includes a connection control unit that reconnects the wireless interface in some cases, and the connection control unit reconnects a section that does not perform communication using a network address via the wireless interface in which deterioration of the communication state is detected. It is a communication device that connects.

In one aspect of the present invention, a communication unit that provides communication with a plurality of wireless interfaces, a state monitoring unit that monitors deterioration of the communication state via each wireless interface, and deterioration of the communication state are detected. The connection control unit includes a connection control unit that reconnects the wireless interface in some cases, and the connection control unit reconnects a section that performs communication using a network address via the wireless interface in which deterioration of the communication state is detected. It is a communication device that performs.

In one aspect of the present invention, a communication unit that provides communication with a plurality of wireless interfaces, a state monitoring unit that monitors deterioration of the communication state via each wireless interface, and deterioration of the communication state are detected. The connection control unit includes a connection control unit that reconnects the wireless interface in some cases, and the connection control unit is a wireless interface having identification information different from the identification information associated with the wireless interface in which deterioration of the communication state is detected. It is a communication device that reconnects the wireless interface by switching to.

In one aspect of the present invention, a communication unit that provides communication with a plurality of wireless interfaces, a state monitoring unit that monitors deterioration of the communication state via each wireless interface, and deterioration of the communication state are detected. A connection control unit that reconnects the wireless interface in some cases and a call control unit that switches a call made using an application that requires real-time performance to a call using another communication network are provided. While the reconnection is being performed, the call control unit switches the call to a call using a communication network different from the communication network used by the application when the application is used, and the call control unit switches the call to a call using a communication network different from the communication network used by the application. It is a communication device that switches from a call using the communication network to a call using the application after the deterioration of the state is improved.

One aspect of the present invention is the above-mentioned communication device, further including a notification unit for notifying the user of information regarding the reconnection while the reconnection is being performed.

One aspect of the present invention is the above-mentioned communication device, and each of the plurality of wireless interfaces is supported by a recording medium in which identification information for identifying a subscriber for an MVNO (Mobile Virtual Network Operator) is recorded. Attached.

One aspect of the present invention is the above-mentioned communication device, further comprising a storage unit for storing a plurality of subscriber identification information which is identification information for identifying a subscriber, and a plurality of subscriptions stored in the storage unit. The person identification information is information stored in a plurality of communication devices, and the communication unit is a subscriber among the plurality of subscriber identification information stored in the storage unit that is not used by another communication device. Communicate using identification information.

One aspect of the present invention is the communication device, wherein the plurality of subscriber identification information stored in the storage unit is acquired from a server that stores the plurality of subscriber identification information at a predetermined timing. It is stored in the storage unit.

One aspect of the present invention is the above-mentioned communication device, in which the communication unit relays a call transmitted from an external communication device using an application that requires real-time performance to another device. To do.

One aspect of the present invention is a state monitoring step in which a communication device including a communication unit provided with a plurality of wireless interfaces and performing communication monitors deterioration of the state of communication via each wireless interface, and the state of the communication. It has a connection control step that reconnects the wireless interface when deterioration is detected, and in the connection control step, communication using a network address via the wireless interface in which deterioration of the communication state is detected. This is a connection control method that reconnects the section that does not perform.

One aspect of the present invention is a state monitoring step in which a communication device including a communication unit provided with a plurality of wireless interfaces and performing communication monitors deterioration of the state of communication via each wireless interface, and the state of the communication. It has a connection control step that reconnects the wireless interface when deterioration is detected, and in the connection control step, communication using a network address via the wireless interface in which deterioration of the communication state is detected. This is a connection control method for reconnecting the section in which the above is performed.

One aspect of the present invention is a state monitoring step in which a communication device including a communication unit provided with a plurality of wireless interfaces and performing communication monitors deterioration of the state of communication via each wireless interface, and the state of the communication. It has a connection control step for reconnecting the wireless interface when deterioration is detected, and identification information associated with the wireless interface in which deterioration of the communication state is detected in the connection control step. This is a connection control method for reconnecting a wireless interface by switching to a wireless interface with different identification information.

One aspect of the present invention is a state monitoring step in which a communication device including a communication unit provided with a plurality of wireless interfaces for communication monitors deterioration of the state of communication via each wireless interface, and a state of the communication. A connection control step that reconnects the wireless interface when deterioration is detected, and a call control step that switches a call made using an application that requires real-time performance to a call using another communication network. In the call control step, when the application is used while the reconnection is being performed, the call is made using a communication network different from the communication network used by the application. This is a connection control method for switching from a call using the communication network to a call using the application after the deterioration of the communication state is improved by switching to.

One aspect of the present invention is a computer program for causing a computer to function as the above-mentioned communication device.

INDUSTRIAL APPLICABILITY According to the present invention, real-time application services such as VoIP and videophone can be stably provided.

It is a figure which shows the functional structure of the communication system 100 in 1st Embodiment of this invention. It is a schematic block diagram which shows the functional structure of a communication terminal 10. It is a figure for demonstrating the process flow of a communication terminal 10. It is a figure which shows the functional structure of the communication system 100a in 2nd Embodiment of this invention. It is a schematic block diagram which shows the functional structure of the communication terminal 10a. It is a schematic block diagram which shows the functional structure of the relay server 30a. It is a flowchart which shows the flow of the anxiety avoidance method processing by a communication terminal 10a. It is a sequence diagram which shows the flow of processing in communication system 100a. It is a figure which shows the functional structure of the communication system 100b when the cost reduction 2nd method in 3rd Embodiment of this invention is used. It is a schematic block diagram which shows the functional structure of the communication terminal 10b. It is a schematic block diagram which shows the functional structure of the subscriber information control server 80. It is a sequence diagram which shows the flow of processing in communication system 100b. It is a sequence diagram which shows the flow of the process of another example in the communication system 100b.

Hereinafter, specific configuration examples (first embodiment to third embodiment) of the present invention will be described with reference to the drawings.
[First Embodiment]
FIG. 1 is a diagram showing a functional configuration of the communication system 100 according to the first embodiment of the present invention. The communication system 100 includes a communication terminal 10, a plurality of relay devices 20 (20-1 to 20-m (m is an integer of 2 or more)), and a relay server 30. A communication terminal 40 that communicates with the communication terminal 10 is connected to the relay server 30. The communication terminal 10 and the plurality of relay devices 20 are connected via the cellular network 50. The relay device 20 and the relay server 30 are connected to each other via the carrier network 60 and the external network 70.

The communication terminal 10 is configured by using an information processing device such as a mobile phone, a smartphone, or a tablet device. The communication terminal 10 performs wireless communication with the relay device 20. For wireless communication, for example, communication according to the standard of the mobile communication system (for example, LTE or 3G) may be used. The communication terminal 10 includes a plurality of recording media (hereinafter, referred to as “subscriber information recording medium”) in which identification information (hereinafter, referred to as “subscriber information”) for identifying a subscriber is recorded. The subscriber information recording medium is, for example, a SIM card. The plurality of subscriber information recording media may be recording media provided by the same telecommunications carrier, recording media partially provided by different telecommunications carriers, or all different telecommunications carriers. It may be a recording medium provided by a person.

The relay device 20 is a base station device of a mobile communication network. The relay device 20 relays the communication between the communication terminal 10 and the relay server 30.
The relay server 30 is configured by using an information processing device such as a personal computer. The relay server 30 relays communication between the communication terminal 10 and the communication terminal 40.
The communication terminal 40 is configured by using an information processing device such as a mobile phone, a smartphone, or a tablet device. The communication terminal 40 communicates with the relay server 30.

The cellular network 50 is configured using, for example, a mobile communication network.
The carrier network 60 is configured by using, for example, a network provided by a telecommunications carrier.
The external network 70 may be a network configured in any way. The external network 70 may be configured using, for example, the Internet.

FIG. 2 is a schematic block diagram showing a functional configuration of the communication terminal 10. The communication terminal 10 includes a CPU (Central Processing Unit), a memory, an auxiliary storage device, and the like connected by a bus, and executes a reconnection program. By executing the reconnection program, the communication terminal 10 functions as a device including a recording medium holding unit 101, a first communication unit 102, an application storage unit 103, an application call control unit 104, a condition monitoring unit 105, and a connection control unit 106. .. In addition, all or a part of each function of the communication terminal 10 may be realized by using hardware such as ASIC (Application Specific Integrated Circuit), PLD (Programmable Logic Device), and FPGA (Field Programmable Gate Array). The reconnect program may also be recorded on a computer-readable recording medium. The computer-readable recording medium is, for example, a flexible disk, a magneto-optical disk, a portable medium such as a ROM or a CD-ROM, or a storage device such as a hard disk built in a computer system. Further, the reconnection program may be transmitted and received via a telecommunication line.

The recording medium holding unit 101 holds a plurality of subscriber information recording media 11-1 to 11-n (n is an integer of 2 or more).
The first communication unit 102 includes a plurality of wireless IFs 12-1 to 12-n. Any of the subscriber information recording media 11-1 to 11-n is associated with each of the wireless IFs 12-1 to 12-n. The first communication unit 102 communicates with the relay device 20 corresponding to the subscriber information recording medium 11 associated with the wireless IF 12 via the cellular network 50.

The application storage unit 103 is configured by using a storage device such as a magnetic hard disk device or a semiconductor storage device. The application storage unit 103 stores, for example, an application that requires real-time performance (hereinafter, referred to as “real-time application”) such as VoIP or videophone. The application is software executed on the communication terminal 10.
The application call control unit 104 activates the real-time application stored in the application storage unit 103 in response to the user's operation, and makes a call made by using the activated real-time application to the first communication unit 102. It is transmitted to the relay device 20 via the relay device 20.

The state monitoring unit 105 monitors the deterioration of the state of communication via each wireless IF 12.
The connection control unit 106 reconnects the wireless IF 12 when deterioration of the communication state is detected based on the monitoring result of the state monitoring unit 105. The reconnection represents a process of disconnecting the wireless IF12 once and then reconnecting it.

FIG. 3 is a diagram for explaining a processing flow of the communication terminal 10. The communication terminal 10 starts a call by the real-time application according to the operation of the user (step S101). By this process, a call is started between the user of the communication terminal 10 and the user of the communication terminal 40. The state monitoring unit 105 monitors the state of communication via each wireless IF 12 (step S102). The state monitoring unit 105 determines whether or not the deterioration of the communication state is detected as a result of the monitoring (step S103). Here, the deterioration of the communication state means that any one of packet loss, packet delay, and packet delay fluctuation is equal to or higher than the threshold value. When it is determined that the deterioration of the communication state has not been detected (step S103-NO), the communication terminal 10 ends the process of FIG.

On the other hand, when it is determined that the deterioration of the communication state is detected (step S103-YES), the connection control unit 106 starts reconnection of the wireless IF 12 (step S104). The connection control unit 106 in the present embodiment reconnects by using a plurality of reconnection methods (for example, reconnection first method to reconnection third method). The order in which the plurality of reconnection methods are used may be any order, and here, the reconnection first method, the reconnection second method, and the reconnection third method are used in this order. First, the connection control unit 106 performs a reconnection process by the reconnection first method (step S105).

The first method of reconnection is a method of reconnecting a section in which communication is not performed using an IP address via a wireless IF12 (hereinafter, referred to as “deteriorated IF”) in which deterioration of the communication state is detected. The section in which communication using the IP address is not performed represents a section between the communication terminal 10 and the relay device 20. The connection control unit 106 once disconnects the physical connection (for example, layer 2 connection) between the deteriorated IF and the relay device 20 connected via the deteriorated IF. After disconnection, the connection control unit 106 reconnects the deteriorated IF. At this time, the connection control unit 106 connects to the relay device 20 to which the deteriorated IF is connected immediately before disconnection by another channel, or relays different from the relay device 20 to which the deteriorated IF is connected immediately before disconnection. Connect with the device 20. As a result, the communication terminal 10 and the relay device 20 are reconnected.

After a lapse of a predetermined time, the condition monitoring unit 105 determines whether or not the deterioration has been improved (step S106). Judgment as to whether or not the deterioration has been improved is performed based on whether or not all of packet loss, packet delay, and packet delay fluctuation are less than the threshold value in communication via the wireless IF 12 determined to be the deteriorated IF. .. In the communication via the wireless IF 12 determined to be the deteriorated IF, if all of the packet loss, the packet delay, and the fluctuation of the packet delay are less than the threshold value, the condition monitoring unit 105 determines that the deterioration has been improved. On the other hand, in the communication via the wireless IF 12 determined to be the deteriorated IF, when any or all of the packet loss, the packet delay, and the fluctuation of the packet delay is equal to or more than the threshold value, the deterioration of the state monitoring unit 105 is improved. Judge that there is no.

When it is determined that the deterioration has been improved (step S106-YES), the communication terminal 10 ends the process of FIG.
On the other hand, when it is determined that the deterioration has not been improved (step S106-NO), the connection control unit 106 then performs a reconnection process by the second reconnection method (step S107). The second reconnection method is a method of reconnecting a section for communication using an IP address via a degraded IF. The section for communicating using the IP address represents a section between the communication terminal 10 and the relay server 30. The connection control unit 106 once makes a virtual connection (for example, a layer 3 connection) between the deteriorated IF and the relay server 30 connected via the deteriorated IF by releasing the assigned IP address. Disconnect. After disconnection, the connection control unit 106 reconnects the degraded IF by requesting the relay server 30 for the IP address again. The connection control unit 106 does not disconnect the deteriorated IF and the relay device 20 connected via the deteriorated IF.

After a predetermined time has elapsed, the condition monitoring unit 105 determines whether or not the deterioration has been improved (step S108). When it is determined that the deterioration has been improved (step S108-YES), the communication terminal 10 ends the process of FIG.
On the other hand, when it is determined that the deterioration is not improved (step S108-NO), the connection control unit 106 then performs the reconnection process by the reconnection third method (step S109). In the third reconnection method, the wireless IF 12 to be used is associated with the subscriber information recording medium 11 of a telecommunications carrier different from the telecommunications carrier that provided the subscriber information recording medium 11 associated with the deteriorated IF. This is a method of reconnecting the wireless IF12 by switching to the existing wireless IF12.

The connection control unit 106 associates the wireless IF 12 to be used with the subscriber information recording medium 11 of a telecommunications carrier different from the telecommunications carrier that provided the subscriber information recording medium 11 associated with the deteriorated IF. By switching to the wireless IF12, the wireless IF12 is reconnected. After that, the process of FIG. 3 is completed.
After the process of step S109, the communication terminal 10 may again execute the process of whether or not the deterioration has been improved, and if the deterioration has not been improved, the process of a plurality of reconnection methods may be repeatedly executed. ..

According to the communication system 100 configured as described above, it is possible to stably provide real-time application services such as VoIP and videophones on a mobile terminal. Specifically, the communication terminal 10 monitors the communication status via each wireless IF 12, and reconnects when deterioration of the communication status is detected. As a result, the communication status can be improved. Therefore, it becomes possible to stably provide real-time application services such as VoIP and videophones on mobile terminals.

Further, the communication terminal 10 is a method of disconnecting and reconnecting the connection between the own device and the relay device 20 in the wireless section, and disconnecting and reconnecting the connection in the wired section between the own device and the relay server 30. Processing is performed by a plurality of reconnection methods such as a method of connecting and a method of connecting to a network provided by a different telecommunications carrier and reconnecting. In this way, the communication terminal 10 can deal with various deterioration patterns of the communication state by reconnecting from all viewpoints. Therefore, it is possible to provide a stable service to the user.

<Modification example>
The method in this embodiment can be applied to services that use communication other than real-time application services.
The recording medium holding unit 101, the first communication unit 102, the state monitoring unit 105, and the connection control unit 106 included in the communication terminal 10 are configured to be provided in a wireless LAN communication device such as a pocket wireless LAN router. May be good. With this configuration, the technology of the present invention can be applied even to an existing communication terminal such as a smartphone. As a specific process, the communication terminal and the wireless LAN communication device are connected by a wireless LAN (for example, Wi-Fi (registered trademark)), and the wireless LAN communication device connects the call transmitted from the communication terminal to the relay device 20. Send. Then, the condition monitoring unit included in the wireless LAN communication device monitors the communication of the first communication unit and reconnects according to the monitoring result.
Further, the first communication unit 102, the state monitoring unit 105, and the connection control unit 106 included in the communication terminal 10 may be provided in a wireless LAN communication device such as a pocket wireless LAN router. With this configuration, the technology of the present invention can be applied even to an existing communication terminal such as a smartphone having a recording medium holding unit 101 that holds a plurality of subscriber information recording media 11.

[Second Embodiment]
In the first embodiment, an example in which deterioration is improved by reconnecting when deterioration is detected has been described. Here, in general, it takes several tens of seconds or more to reconnect. Therefore, when reconnecting in a state where all the wireless IF 12s included in the communication terminal 10 cannot be used, data communication is stopped for several tens of seconds or more. In particular, in a real-time application such as VoIP or a videophone, if the user suddenly stops for several tens of seconds, the application may be judged to be unusable due to anxiety and may not be used. Therefore, in the second embodiment, such a problem is solved.

FIG. 4 is a diagram showing a functional configuration of the communication system 100a according to the second embodiment of the present invention. The communication system 100a includes a communication terminal 10a, a plurality of relay devices 20 (20-1 to 20-m), and a relay server 30a. A communication terminal 40a that communicates with the communication terminal 10a is connected to the relay server 30. The communication terminal 10a and the plurality of relay devices 20 are connected via the cellular network 50. The relay device 20 and the relay server 30a are connected to each other via the carrier network 60 and the external network 70. The communication terminal 10a and the communication terminal 40a are connected via the mobile phone network 71 or the satellite communication network 72. In the communication system 100a, the relay device 20 is the same as the communication system 100. In the following description, the cellular network 50, the carrier network 60, and the external network 70 will be described as communication networks used in the real-time application, and the mobile phone network 71 or the satellite communication network 72 will be different from the communication network used in the real-time application. Described as a net.

FIG. 5 is a schematic block diagram showing a functional configuration of the communication terminal 10a. The communication terminal 10a includes a CPU, a memory, an auxiliary storage device, and the like connected by a bus, and executes a reconnection program. By executing the reconnection program, the communication terminal 10a has the recording medium holding unit 101, the first communication unit 102, the application storage unit 103, the application call control unit 104, the status monitoring unit 105, the connection control unit 106a, the notification unit 107, and the call. It functions as a device including a control unit 108 and a second communication unit 109. In addition, all or a part of each function of the communication terminal 10a may be realized by using hardware such as ASIC, PLD and FPGA. The reconnect program may also be recorded on a computer-readable recording medium. The computer-readable recording medium is, for example, a flexible disk, a magneto-optical disk, a portable medium such as a ROM or a CD-ROM, or a storage device such as a hard disk built in a computer system. Further, the reconnection program may be transmitted and received via a telecommunication line.

The communication terminal 10a is different from the communication terminal 10 in that it includes a connection control unit 106a instead of the connection control unit 106, and newly includes a notification unit 107, a call control unit 108, and a second communication unit 109. The communication terminal 10a is the same as the communication terminal 10 in other configurations. Therefore, the description of the entire communication terminal 10a will be omitted, and the connection control unit 106a, the notification unit 107, the call control unit 108, and the second communication unit 109 will be described.

The connection control unit 106a reconnects the wireless IF 12 based on the monitoring result of the condition monitoring unit 105. Further, the connection control unit 106a executes the anxiety avoidance method while reconnecting. The anxiety avoidance method is a method for reducing the user's anxiety that may occur due to reconnection. As an anxiety avoidance method, a guidance method for notifying the user that the connection is being made and a communication network different from the communication network used in the real-time application (for example, the mobile phone network 71 or the satellite communication network 72 in FIG. 4) are used. There is a call switching method for making a call.

The notification unit 107 notifies the user of information regarding the reconnection while the reconnection is being performed. The reconnection information is information indicating that the network is being reconnected due to deterioration of the network, or information indicating the time required for recovery.
The call control unit 108 switches a call made using the real-time application to a call using a communication network different from the communication network used in the real-time application.
The second communication unit 109 communicates with the communication terminal 40a via the mobile phone network or the satellite communication network.

FIG. 6 is a schematic block diagram showing a functional configuration of the relay server 30a. The relay server 30a includes a CPU, a memory, an auxiliary storage device, and the like connected by a bus, and executes a relay program. By executing the relay program, the relay server 30a functions as a device including the first communication unit 301, the second communication unit 302, the relay unit 303, the status monitoring unit 304, and the notification unit 305. In addition, all or a part of each function of the relay server 30a may be realized by using hardware such as ASIC, PLD and FPGA. Further, the relay program may be recorded on a computer-readable recording medium. The computer-readable recording medium is, for example, a flexible disk, a magneto-optical disk, a portable medium such as a ROM or a CD-ROM, or a storage device such as a hard disk built in a computer system. Further, the relay program may be transmitted and received via a telecommunication line.

The first communication unit 301 communicates with the relay device 20 via the carrier network 60 and the external network 70.
The second communication unit 302 communicates with the communication terminal 40a.
The relay unit 303 relays communication between the first communication unit 301 and the second communication unit 302.
The status monitoring unit 304 monitors the status of communication via the first communication unit 301.
The notification unit 305 notifies the user of the communication terminal 40a of the information regarding the reconnection while the reconnection is being performed.

FIG. 7 is a flowchart showing the flow of the anxiety avoidance method processing by the communication terminal 10a.
The process shown in FIG. 7 is executed during reconnection. The connection control unit 106a determines the anxiety avoidance method to be executed (step S201). The anxiety avoidant method to be executed may be preset or may be a method different from the method executed immediately before. When the anxiety avoidance method to be executed is determined to be the guidance method (step S201-guidance), the connection control unit 106a instructs the notification unit 107 to notify the user. When the connection control unit 106a gives an instruction, the notification unit 107 generates guidance including information on the reconnection (step S202). The notification unit 107 notifies the user of the generated guidance (step S203). The notification method may be voice notification, guidance may be displayed on the screen of the communication terminal 10a, or other methods may be used for notification. After that, the process of FIG. 7 ends.

Further, in the process of step S201, when the anxiety avoidance method to be executed is determined to be the call switching method (step S201-call switching), the connection control unit 106a instructs the call control unit 108 to switch to the detour route. .. When the connection control unit 106a gives an instruction to switch to the detour route, the call control unit 108 switches the call to the detour route such as the mobile phone network or the satellite communication network via the second communication unit 109 (step S204). Specifically, the call control unit 108 enables a call by establishing a connection with the communication terminal 40a via a detour route such as a mobile phone network or a satellite communication network, and switches the call. At this time, the application call control unit 104 may or may not stop the real-time application.

The condition monitoring unit 105 determines whether or not the deterioration of the first communication unit 102 has been improved (step S205). If it is determined that the deterioration has not been improved (step S205-NO), the process of step S205 is repeatedly executed.
On the other hand, when it is determined that the deterioration has been improved (step S205-YES), the connection control unit 106a instructs the call control unit 108 to switch to the call by the real-time application. When the connection control unit 106a gives an instruction to switch to a call by the real-time application, the call control unit 108 switches the call by the detour route to the call by the real-time application (step S206). After that, the process of FIG. 7 ends.

FIG. 8 is a sequence diagram showing a processing flow in the communication system 100a. In the description of FIG. 8, for the sake of simplification of the description, the communication terminal 10a, the relay server 30a, and the communication terminal 40a will be used. In addition, guidance will be explained as an example of anxiety avoidance method.
A call is being made by the user of the communication terminal 10a and the user of the communication terminal 40a in a real-time application (step S301). The status monitoring unit 105 detects deterioration of the communication status as a result of monitoring the communication status (step S302). As a result, the connection control unit 106a starts the reconnection process (step S303). The description of the reconnection process will be omitted. When the connection control unit 106a starts the reconnection process, the connection control unit 106a instructs the notification unit 107 to notify the guidance.

Further, the status monitoring unit 304 of the relay server 30a monitors the communication status of the first communication unit 301, and as a result of the monitoring, detects that the communication terminal 10a is being reconnected (step S304). The fact that the communication terminal 10a is being reconnected may be detected by receiving information indicating that the communication terminal 10a is being reconnected. When the condition monitoring unit 304 detects that the connection is being reconnected, the condition monitoring unit 304 instructs the notification unit 305 to notify the guidance.

When the connection control unit 106a gives an instruction, the notification unit 107 of the communication terminal 10a generates guidance including information on the reconnection (step S305). Further, the notification unit 305 of the relay server 30a generates guidance including information on reconnection when an instruction is given from the condition monitoring unit 304 (step S306). The notification unit 107 of the communication terminal 10a notifies the user of the generated guidance (step S307). Further, the notification unit 305 of the relay server 30a notifies the communication terminal 40a of the generated guidance (step S308).

According to the communication system 100a configured as described above, the same effect as that of the first embodiment can be obtained.
Further, the communication terminal 10a and the relay server 30a notify the user of the communication terminal 10a and the user of the communication terminal 40a that the reconnection is in progress. This allows the user to know that the connection is in progress. Therefore, anxiety can be dispelled.
Further, the communication terminal 10a switches the call by the real-time application to the call using the mobile phone network or the satellite communication network. This enables continuous calls. Further, since the mobile phone network or the satellite communication network is less likely to deteriorate than the cellular network 50, it is possible to provide a stable real-time application service.

Further, when the communication terminal 10a is connected to the relay server 30a, if the communication terminal 10a moves significantly, the relay device 20 to which the communication terminal 10a connects changes with the movement, and the IP address of the communication terminal 10a is changed accordingly. It is also possible that the connection between the relay server 30a and the communication terminal 10a cannot be maintained. On the other hand, such a problem can be avoided by reconnecting the connection between the communication terminal 10a and the relay server 30a as in the communication terminal 10a.

<Modification example>
The second embodiment may be modified in the same manner as the first embodiment.
In the present embodiment, a configuration using any of the anxiety avoidance methods is shown, but the communication terminal 10a may be configured to use all the anxiety avoidance methods. For example, the communication terminal 10a notifies the user of the guidance and switches the call to the detour route. With this configuration, the user can know that he / she is currently reconnecting and is using the mobile phone network or the satellite communication network.
In the present embodiment, the case where the process of FIG. 7 is executed during the reconnection has been described, but the process of FIG. 7 is the case where all the wireless IF12s included in the communication terminal 10a must be reconnected. May only be executed. With such a configuration, the guidance notification and the call switching to the detour route are not performed every time the reconnection is performed. Therefore, the load related to the processing can be reduced. Further, it is possible to improve the annoyance caused by being notified of the guidance each time the reconnection is performed. Further, it is possible to reduce the charge caused by switching the call to the detour route every time the reconnection is performed.

[Third Embodiment]
In the first embodiment, an example in which deterioration is improved by reconnecting when deterioration is detected has been described. Further, in the second embodiment, an example of reducing the anxiety of the user that may occur during reconnection has been described. If a plurality of wireless IF12s are to be realized by a mobile phone service provided by a telecommunications carrier as in the first embodiment and the second embodiment, it is necessary to conclude a mobile phone communication contract for the wireless IF12, and a general user. It is difficult to achieve at a low cost that can be used. Therefore, in the third embodiment, such a problem is solved.

(First method of cost reduction)
The first cost reduction method is a method of using a subscriber information recording medium for MVNO (Mobile Virtual Network Operator) in association with each of a plurality of wireless IF12s.
When using the first cost reduction method, it is assumed that the user of the communication terminal has a contract with the MVNO. Then, the first communication unit of the communication terminal communicates using the subscriber information recording medium of the MVNO associated with each of the plurality of wireless IFs.

(Second cost reduction method)
The second cost reduction method is a method of using virtual subscriber information (for example, virtual SIM). The second cost reduction method will be specifically described. FIG. 9 is a diagram showing a functional configuration of the communication system 100b when the second cost reduction method according to the third embodiment of the present invention is used. The communication system 100b includes a plurality of communication terminals 10b (10b-1 to 10bl (l is an integer of 2 or more)), a plurality of relay devices 20 (20-1 to 20-m), a relay server 30, and subscriber information. A control server 80 is provided. A communication terminal 40 that communicates with the communication terminal 10b is connected to the relay server 30. The communication terminal 10b and the plurality of relay devices 20 are connected via the cellular network 50. The relay device 20 and the relay server 30 are connected to each other via the carrier network 60 and the external network 70. The communication terminal 10b and the subscriber information control server 80 are connected via the external network 70. In the communication system 100a, the relay device 20, the relay server 30, and the communication terminal 40 are the same as those of the communication system 100.

The communication terminal 10b is configured by using an information processing device such as a mobile phone, a smartphone, or a tablet device. The communication terminal 10b performs wireless communication with the relay device 20. Further, the plurality of communication terminals 10b-1 to 10bl store the same plurality of subscriber identification information. For example, the plurality of communication terminals 10b-1 to 10bl store the subscriber identification information "A", "B", and "C".
The subscriber information control server 80 manages the subscriber identification information stored in the plurality of communication terminals 10b-1 to 10bl. Specifically, the subscriber information control server 80 instructs each communication terminal 10b to use the subscriber identification information so that the communication terminals 10b do not use the same subscriber identification information at the same time.

FIG. 10 is a schematic block diagram showing a functional configuration of the communication terminal 10b. Since the communication terminals 10b-1 to 10bl have the same configuration, they will be described together. The communication terminal 10b includes a CPU, a memory, an auxiliary storage device, and the like connected by a bus, and executes a reconnection program. By executing the reconnection program, the communication terminal 10b functions as a device including the first communication unit 102, the application storage unit 103, the application call control unit 104, the status monitoring unit 105, the connection control unit 106b, and the subscriber information storage unit 110. To do. In addition, all or a part of each function of the communication terminal 10b may be realized by using hardware such as ASIC, PLD and FPGA.
The reconnect program may also be recorded on a computer-readable recording medium.
The computer-readable recording medium is, for example, a flexible disk, a magneto-optical disk, a portable medium such as a ROM or a CD-ROM, or a storage device such as a hard disk built in a computer system. Further, the reconnection program may be transmitted and received via a telecommunication line.

The communication terminal 10b is different from the communication terminal 10 in that the connection control unit 106a is provided instead of the connection control unit 106, the subscriber information storage unit 110 is newly provided, and the recording medium holding unit 101 is not provided. The communication terminal 10b is the same as the communication terminal 10 in other configurations. Therefore, the description of the entire communication terminal 10b will be omitted, and the connection control unit 106b and the subscriber information storage unit 110 will be described.

The subscriber information storage unit 110 is configured by using a storage device such as a magnetic hard disk device or a semiconductor storage device. The subscriber information storage unit 110 stores a plurality of subscriber identification information. The subscriber identification information stored in the subscriber information storage unit 110 is, for example, identification information of a recording medium provided by a telecommunications carrier, identification information of a subscriber information recording medium for MVNO, and the like. The subscriber identification information stored in the subscriber information storage unit 110 may be stored in the subscriber information storage unit 110 in advance, or a server that stores the subscriber identification information at a predetermined timing (for example, subscription). It may be acquired from the person information control server 80) and stored in the subscriber information storage unit 110. The predetermined timing may be, for example, the timing at which a predetermined time has elapsed since the connection between the communication terminal 10b and the server was made, the timing at which the predetermined time has come, and the subscriber identification information is stored. It may be the timing when the instruction from the server is given, or it may be another timing.

The connection control unit 106b reconnects the wireless IF 12 based on the monitoring result of the condition monitoring unit 105. Further, the connection control unit 106b is configured to be communicable by associating the subscriber identification information used according to the instruction from the subscriber information control server 80 with each wireless IF 12 using the subscriber information storage unit 110. As a result, the first communication unit 102 can perform communication using the subscriber identification information stored in the subscriber information storage unit 110.

FIG. 11 is a schematic block diagram showing a functional configuration of the subscriber information control server 80. The subscriber information control server 80 includes a CPU, a memory, an auxiliary storage device, and the like connected by a bus, and executes a management program. By executing the management program, the subscriber information control server 80 functions as a device including a communication unit 801, a subscriber identification information storage unit 802, a usage status storage unit 803, and a management unit 804. In addition, all or a part of each function of the subscriber information control server 80 may be realized by using hardware such as ASIC, PLD and FPGA. Further, the management program may be recorded on a computer-readable recording medium. The computer-readable recording medium is, for example, a flexible disk, a magneto-optical disk, a portable medium such as a ROM or a CD-ROM, or a storage device such as a hard disk built in a computer system. Further, the management program may be transmitted and received via a telecommunication line.

The communication unit 801 communicates with the communication terminal 10b via the relay device 20.
The subscriber identification information storage unit 802 is configured by using a storage device such as a magnetic hard disk device or a semiconductor storage device. The subscriber identification information storage unit 802 stores a plurality of subscriber identification information.
The usage state storage unit 803 is configured by using a storage device such as a magnetic hard disk device or a semiconductor storage device. The usage status storage unit 803 stores the usage status of the subscriber identification information of the plurality of communication terminals 10b-1 to 10bl. Specifically, the usage state storage unit 803 stores the identification information of the plurality of communication terminals 10b-1 to 10bl in association with the subscriber identification information used by each communication terminal 10b.
The management unit 804 has different subscribers for each of the plurality of communication terminals 10b-1 to 10bl so that the plurality of communication terminals 10b-1 to 10bl do not use the same subscriber identification information. Instruct the use of identification information.

FIG. 12 is a sequence diagram showing a processing flow in the communication system 100b. In the description of FIG. 12, for simplification of the description, two communication terminals 10b-1 to 10b-2 and a subscriber information control server 80 will be used. Further, the same plurality of subscriber identification information is stored in advance in the communication terminals 10b-1 and 10b-2, and the communication terminals 10b-1 and 10b-2 are stored in the subscriber information control server 80. It is assumed that the subscriber identification information is stored.

The connection control unit 106b of the communication terminal 10b-1 transmits a usage request requesting the use of the subscriber identification information to the subscriber information control server 80 (step S401). Further, the connection control unit 106b of the communication terminal 10b-2 transmits a usage request requesting the use of the subscriber identification information to the subscriber information control server 80 (step S402). The communication unit 801 of the subscriber information control server 80 receives the usage request transmitted from the communication terminal 10b-1 and the communication terminal 10b-2. The management unit 804 receives the usage request, and based on the plurality of subscriber identification information stored in the subscriber identification information storage unit 802, the management unit 804 makes the communication terminals 10b-1 and 10b-2 use the subscriber identification. The information is determined (step S403). Specifically, the management unit 804 that receives the usage request from the communication terminals 10b-1 and 10b-2 has the communication terminal 10b among the plurality of subscriber identification information stored in the subscriber identification information storage unit 802. Different subscriber identification information is determined as the subscriber identification information used by the communication terminals 10b-1 and 10b-2 so that -1 and 10b-2 do not use the same subscriber identification information. The method of determining the subscriber identification information used by each communication terminal 10b may be determined so that the subscriber identification information used by each communication terminal 10b is not covered. This process prevents the communication terminals 10b-1 and 10b-2 from using the same subscriber identification information. The management unit 804 stores the determined subscriber identification information for each communication terminal 10b in the usage state storage unit 803 in association with the identification information of the communication terminal 10b. After that, the management unit 804 transmits a usage instruction to the communication terminal 10b-1 and the communication terminal 10b-2 so as to use the determined subscriber identification information via the communication unit 801 (step S404 and step S405). .. The usage instruction includes information indicating which subscriber identification information is available.

The communication terminal 10b-1 receives the usage instruction transmitted from the subscriber information control server 80. The connection control unit 106b is configured to be communicable by associating the available subscriber identification information indicated by the received usage instruction with each wireless IF 12. After that, the communication terminal 10b-1 communicates using the associated subscriber identification information (step S406).
The communication terminal 10b-2 receives the usage instruction transmitted from the subscriber information control server 80. The connection control unit 106b is configured to be communicable by associating the available subscriber identification information indicated by the received usage instruction with each wireless IF 12. After that, the communication terminal 10b-2 communicates using the associated subscriber identification information (step S407).

Further, the communication terminal 10b-1 transmits the end of use to the subscriber information control server 80 when the communication is completed (step S408). Similarly, the communication terminal 10b-2 also transmits the end of use to the subscriber information control server 80 when the communication is completed (step S409). The termination of use includes information indicating which subscriber identification information is to be terminated. As a result, the subscriber information control server 80 can grasp which subscriber identification information has been used. When the end of use is received, the management unit 804 corresponds to the identification information of the communication terminal 10b indicated by the end of use and the identification information of the communication terminal 10b among the information stored in the use state storage unit 803. Delete the attached subscriber identification information.

According to the communication system 100b configured as described above, the same effect as that of the first embodiment can be obtained.
Further, the communication terminal 10b communicates using the MVNO subscriber information recording medium or virtual subscriber information. This makes it possible to realize the use of a plurality of wireless IF12s at low cost.
Further, the subscriber information control server 80 controls the subscriber identification information used by each communication terminal 10b so that the same subscriber identification information is not used in the plurality of communication terminals 10b. As a result, it is possible to prevent the same subscriber identification information from being used by a plurality of communication terminals 10b.

<Modification example>
The first communication unit 102, the state monitoring unit 105, the connection control unit 106b, and the subscriber information storage unit 110 included in the communication terminal 10b are configured to be provided in a wireless LAN communication device such as a pocket wireless LAN router. You may. With this configuration, the technology of the present invention can be applied even to an existing communication terminal such as a smartphone.
Further, the first communication unit 102, the state monitoring unit 105, and the connection control unit 106b included in the communication terminal 10b may be provided in a wireless LAN communication device such as a pocket wireless LAN router. With this configuration, the technology of the present invention can be applied even to an existing communication terminal such as a smartphone having a subscriber information storage unit 110.
The communication terminal 10b may be configured to further include a notification unit 107, a call control unit 108, and a second communication unit 109 of the communication terminal 10a according to the second embodiment.

The management unit 804 of the subscriber information control server 80 schedules the subscriber identification information used by each communication terminal 10b, and controls the subscriber identification information used by each communication terminal 10b by instructing the scheduling result. You may. Here, scheduling means controlling the procedure for using the subscriber identification information for each communication terminal 10b. Specific processing will be described with reference to FIG. FIG. 13 is a sequence diagram showing a processing flow of another example in the communication system 100b. In the description of FIG. 13, for simplification of the description, two communication terminals 10b-1 to 10b-2 and a subscriber information control server 80 will be used.
Further, the same plurality of subscriber identification information is stored in advance in the communication terminals 10b-1 and 10b-2, and the communication terminals 10b-1 and 10b-2 are stored in the subscriber information control server 80. It is assumed that the subscriber identification information is stored.

The management unit 804 performs scheduling for each of the communication terminals 10b-1 and 10b-2 based on the plurality of subscriber identification information stored in the subscriber identification information storage unit 802 (step S501). Specifically, the management unit 804 uses the subscriber identification information to be used by the communication terminal 10b-1 among the plurality of subscriber identification information stored in the subscriber identification information storage unit 802 in a predetermined time zone. It is determined every (for example, 10:00 to 15:00, 15:00 to 20:00, etc.). Further, the management unit 804 determines the subscriber identification information to be used for the communication terminal 10b-2 for each predetermined time zone among the plurality of subscriber identification information stored in the subscriber identification information storage unit 802. To do. The management unit 804 has subscriber identification information for each time zone used by the communication terminals 10b-1 and 10b-2 so that the subscriber identification information used by the communication terminals 10b-1 and 10b-2 does not have a time zone. To determine. In this way, the management unit 804 controls the procedure for using the subscriber identification information for each communication terminal 10b.

The management unit 804 stores the determined scheduling result for each communication terminal 10b in the usage state storage unit 803 in association with the identification information of the communication terminal 10b. After that, the management unit 804 transmits the determined scheduling result to the communication terminal 10b-1 and the communication terminal 10b-2, respectively, via the communication unit 801 (step S502 and step S503). The scheduling result includes information indicating which subscriber identification information is available at which time zone.

The communication terminal 10b-1 receives the scheduling result transmitted from the subscriber information control server 80. The connection control unit 106b refers to the received scheduling result and determines the subscriber identification information to be used in the own device (step S504). Then, the connection control unit 106b is configured to be communicable by associating the currently available subscriber identification information with each wireless IF 12. The communication terminal 10b-1 communicates using the associated subscriber identification information (step S505). After that, the connection control unit 106b changes the subscriber identification information to be used for each time zone indicated by the scheduling result.

The communication terminal 10b-2 receives the scheduling result transmitted from the subscriber information control server 80. The connection control unit 106b refers to the received scheduling result and determines the subscriber identification information to be used in the own device (step S506). Then, the connection control unit 106b is configured to be communicable by associating the currently available subscriber identification information with each wireless IF 12. The communication terminal 10b-2 communicates using the associated subscriber identification information (step S507). After that, the connection control unit 106b changes the subscriber identification information to be used for each time zone indicated by the scheduling result.

Although the embodiments of the present invention have been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and includes designs and the like within a range that does not deviate from the gist of the present invention.

10, 10a, 10b ... Communication terminal, 11 (11-1 to 11-n) ... Subscriber information recording medium, 12 (12-1 to 12-n) ... Wireless IF, 20 (20-1 to 20-m) ... Relay device, 30, 30a ... Relay server, 40, 40a ... Communication terminal, 50 ... Cellular network, 60 ... Carrier network, 70 ... External network, 80 ... Subscriber information control server, 101 ... Recording medium holding unit, 102 ... First communication unit, 103 ... App storage unit, 104 ... App call control unit, 105 ... Status monitoring unit, 106, 106a, 106b ... Connection control unit, 107 ... Notification unit, 108 ... Call control unit, 109 ... Second communication Unit, 110 ... Subscriber information storage unit, 301 ... First communication unit, 302 ... Second communication unit, 303 ... Relay unit, 304 ... Status monitoring unit, 305 ... Notification unit, 801 ... Communication unit, 802 ... Subscriber identification Information storage unit, 803 ... Usage status storage unit, 804 ... Management department

Claims (14)

A communication unit that communicates with multiple wireless interfaces,
A condition monitoring unit that monitors the deterioration of the communication status via each wireless interface,
A connection control unit that reconnects the wireless interface in which the deterioration of the communication state is detected when the deterioration of the communication state is detected.
With
The connection control unit is a communication device that reconnects a section in which communication is not performed using a network address via a wireless interface in which deterioration of the communication state is detected. A communication unit that communicates with multiple wireless interfaces,
A condition monitoring unit that monitors the deterioration of the communication status via each wireless interface,
A connection control unit that reconnects the wireless interface when deterioration of the communication status is detected.
With
The connection control unit is a communication device that once disconnects and reconnects communication in a section for communication using a network address via a wireless interface in which deterioration of the communication state is detected. A communication unit that communicates with multiple wireless interfaces,
A condition monitoring unit that monitors the deterioration of the communication status via each wireless interface,
A connection control unit that reconnects the wireless interface when deterioration of the communication status is detected.
With
The connection control unit detects deterioration of the communication state, which is a first method of reconnecting a section in which communication is not performed using a network address via a wireless interface in which deterioration of the communication state is detected. The second method of reconnecting the section for communication using the network address via the wireless interface and the identification information different from the identification information associated with the wireless interface in which the deterioration of the communication state is detected. A communication device that performs a third method of reconnecting a wireless interface by switching to a wireless interface in an order determined by a certain standard until the deterioration of the communication state is improved . A communication unit that communicates with multiple wireless interfaces,
A condition monitoring unit that monitors the deterioration of the communication status via each wireless interface,
A connection control unit that reconnects the wireless interface when deterioration of the communication status is detected.
A call control unit that switches calls made using applications that require real-time performance to calls using other communication networks,
With
While the reconnection is being performed, the call control unit switches the call to a call using a communication network different from the communication network used by the application when the application is used, and the communication is performed. A communication device that switches from a call using the communication network to a call using the application after the deterioration of the state of the above is improved. The communication device according to any one of claims 1 to 4, further comprising a notification unit for notifying the user of information regarding the reconnection while the reconnection is being performed. The invention according to any one of claims 1 to 5, wherein a recording medium on which identification information for identifying a subscriber for an MVNO (Mobile Virtual Network Operator) is recorded is associated with each of the plurality of wireless interfaces. Communication device. It also has a storage unit that stores a plurality of subscriber identification information, which is identification information for identifying the subscriber.
The plurality of subscriber identification information stored in the storage unit is information stored in the plurality of communication devices, and is the information stored in the plurality of communication devices.
Any one of claims 1 to 5, wherein the communication unit communicates using the subscriber identification information that is not used by another communication device among the plurality of subscriber identification information stored in the storage unit. The communication device according to paragraph 1. The communication device according to claim 7, wherein the plurality of subscriber identification information stored in the storage unit is acquired from a server that stores the plurality of subscriber identification information and stored in the storage unit at a predetermined timing. .. The method according to any one of claims 1 to 8, wherein the communication unit relays a call transmitted from an external communication device using an application that requires real-time performance to another device. Communication device. A communication device equipped with a communication unit that communicates with multiple wireless interfaces
A status monitoring step that monitors the deterioration of the communication status via each wireless interface,
A connection control step for reconnecting the wireless interface in which the deterioration of the communication state is detected when the deterioration of the communication state is detected, and
Have,
A connection control method for reconnecting a section in which communication is not performed using a network address via a wireless interface in which deterioration of the communication state is detected in the connection control step. A communication device equipped with a communication unit that communicates with multiple wireless interfaces
A status monitoring step that monitors the deterioration of the communication status via each wireless interface,
A connection control step for reconnecting the wireless interface when the deterioration of the communication state is detected, and
Have,
A connection control method in which, in the connection control step, communication in a section for performing communication using a network address via a wireless interface in which deterioration of the communication state is detected is once disconnected and reconnected. A communication device equipped with a communication unit that communicates with multiple wireless interfaces
A status monitoring step that monitors the deterioration of the communication status via each wireless interface,
A connection control step for reconnecting the wireless interface when the deterioration of the communication state is detected, and
Have,
In the connection control step, a first method of reconnecting a section in which communication is not performed using a network address via a wireless interface in which deterioration of the communication state is detected, deterioration of the communication state is detected. The second method of reconnecting the section for communication using the network address via the wireless interface and the identification information different from the identification information associated with the wireless interface in which the deterioration of the communication state is detected. A connection control method in which a third method of reconnecting a wireless interface by switching to a wireless interface is performed in an order determined by a certain standard until the deterioration of the communication state is improved. A communication device equipped with a communication unit that communicates with multiple wireless interfaces
A status monitoring step that monitors the deterioration of the communication status via each wireless interface,
A connection control step for reconnecting the wireless interface when the deterioration of the communication state is detected, and
A call control step that switches a call made using an application that requires real-time performance to a call using another communication network, and
Have,
In the call control step, while the reconnection is being performed, when the application is used, the call is switched to a call using a communication network different from the communication network used by the application, and the communication is performed. A connection control method for switching from a call using the communication network to a call using the application after the deterioration of the state of the above is improved. A computer program for causing a computer to function as the communication device according to any one of claims 1 to 9.

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