JP7001234B2 - Router device, communication system, and communication method - Google Patents

Description

The present disclosure relates to router devices, communication terminals, communication systems, and communication methods.

In recent years, the Internet has become widespread, routers have been installed in each home, and an environment for easy access to the Internet has been established. However, with the spread of the Internet, the risk of receiving cyber attacks from hackers and the like is increasing. The router is always energized and operating, and the IoT devices under the router are also constantly energized and operating. Therefore, the IoT device can be accessed from the Internet even when the user is absent, and a cyber attack may be received without the user's knowledge.

Patent Document 1 describes that when a smartphone is paired with an access point in a BLE (Bluetooth (registered trademark) Low Energy) communication area, it is between the printer and the like included in the wireless LAN communication area and the access point. It is disclosed that the wireless LAN connection is maintained. That is, when the smartphone cancels the pairing with the access point, the wireless LAN connection between the printer or the like included in the wireless LAN communication area and the access point is canceled.

JP-A-2017-169002

However, in the communication system disclosed in Patent Document 1, when the user holding the smartphone leaves the access point, all the wireless LAN connections of the devices included in the wireless LAN communication area are canceled. Therefore, when the user holding the smartphone pairs with the access point again, the device in the wireless LAN communication area needs to connect with the access point again. As a result, the access point needs to repeat processing related to wireless LAN connection and disconnection with many devices, which causes a problem that the processing load increases.

An object of the present disclosure is a router device, a communication terminal, which can avoid an increase in processing load due to repeated connection and disconnection of a device to a router or the like and improve the security of the device communicating via the router or the like. The purpose is to provide a communication system and a communication method.

The router device according to the first aspect of the present disclosure is a communication arranged on the Internet with a first communication unit that communicates with a specific communication terminal included in the local network and a peripheral communication terminal included in the local network. A second communication unit that communicates with the device, the specific communication terminal, the peripheral communication terminal, and the communication device arranged on the Internet after the first communication unit is connected to the specific communication terminal. Before the first communication unit connects to the specific communication terminal, the peripheral communication unit maintains the connection with the peripheral communication terminal. A communication control unit for blocking communication between a communication terminal and a communication device arranged on the Internet is provided.

The communication terminal according to the second aspect of the present disclosure is a state in which communication between a peripheral communication terminal included in a local network and a communication device arranged on the Internet is cut off with the peripheral communication terminal. When a message generator that generates a first message requesting a change to a state that allows communication with the communication device is connected to a router device included in the local network, the router device is contacted. A communication unit for transmitting the first message is provided.

The communication system according to the third aspect of the present disclosure is a first communication terminal that communicates with a specific communication terminal included in a local network, a peripheral communication terminal included in the local network, the specific communication terminal, and the peripheral communication terminal. After the communication unit, the second communication unit that communicates with the communication device arranged on the Internet, and the first communication unit are connected to the specific communication terminal, the specific communication terminal and the peripheral communication terminal are connected. , The first communication unit is connected to the peripheral communication terminal before the first communication unit is connected to the specific communication terminal by permitting communication with the communication device arranged on the Internet. A router device including a communication control unit that cuts off communication between the peripheral communication terminal and a communication device arranged on the Internet while maintaining the connection of the above.

The communication method according to the fourth aspect of the present disclosure is the peripheral communication method in a state where the connection with the peripheral communication terminal included in the local network is maintained before connecting to the specific communication terminal included in the local network. After blocking the communication between the communication terminal and the communication device arranged on the Internet, executing the connection process of the specific communication terminal, and connecting to the specific communication terminal, the specific communication terminal and the peripheral communication Allows communication between the terminal and a communication device located on the Internet.

According to the present disclosure, it is possible to avoid an increase in processing load due to repeated connection and disconnection of devices to routers and the like, and to improve the security of devices that communicate via routers and the like, router devices, communication terminals, and communication systems. , And communication methods can be provided.

It is a block diagram of the router apparatus which concerns on Embodiment 1. FIG. It is a block diagram of the communication system which concerns on Embodiment 2. FIG. It is a block diagram of the smartphone terminal which concerns on Embodiment 2. FIG. It is a figure which shows the flow of the communication cutoff release processing which concerns on Embodiment 2. It is a figure which shows the flow of the communication cutoff process which concerns on Embodiment 2. It is a figure which shows the flow of the registration process of the device which is an exception of the communication cutoff which concerns on Embodiment 3. FIG. It is a figure which shows the flow of the registration process of the device which is an exception of the communication cutoff which concerns on Embodiment 3. FIG. It is a figure which shows the flow of the registration process of the device which is an exception of the communication cutoff which concerns on Embodiment 3. FIG. It is a block diagram of the router device, the smartphone terminal, and the IoT terminal which concerns on each embodiment.

(Embodiment 1)
Hereinafter, embodiments of the present disclosure will be described with reference to the drawings. A configuration example of the router device 10 according to the first embodiment will be described with reference to FIG. The router device 10 has a communication unit 11, a communication unit 12, and a communication control unit 13. The router device 10 may be a computer device operated by the processor executing a program stored in the memory. The communication unit 11, the communication unit 12, and the communication control unit 13 may be software or modules whose processing is executed by the processor executing a program stored in the memory. Alternatively, the communication unit 11, the communication unit 12, and the communication control unit 13 may be hardware such as a circuit or a chip. The router device 10 may be used as an access point in wireless LAN (Local Area Network) communication.

The communication unit 11 communicates with a specific communication terminal included in the local network and a peripheral communication terminal included in the local network. The local network is a network constructed in the home, and may be a LAN, for example. The specific communication terminal and the peripheral communication terminal may be a computer device operated by the processor executing a program stored in the memory.

The specific communication terminal may be a terminal in which various functions are executed according to an operation by the user. The specific communication terminal may be, for example, a mobile phone terminal, a smartphone terminal, a tablet terminal, or the like. The peripheral communication terminal may be a terminal that autonomously communicates without requiring an operation by the user. The terminal that autonomously communicates may be, for example, an IoT (Internet Of Things) terminal, an M2M (Machine To Machine) terminal, an MTC (Machine Type Communication) terminal, or the like.

The communication unit 11 may perform communication using a wireless line (wireless communication) or may perform communication using a wired line (wired communication) with a specific communication terminal and a peripheral communication terminal. The wireless communication may be, for example, wireless LAN communication.

The communication unit 12 communicates with a communication device arranged on the Internet. The Internet may be paraphrased as a WAN (Wide Area Network) or a public IP (Internet Protocol) network. The communication device located on the Internet may be a computer device operated by the processor executing a program stored in the memory. The communication device may be, for example, a server device, another router device for transferring data, a relay device, or the like. The communication unit 12 communicates with a server device or the like via, for example, a plurality of relay devices.

After the communication unit 11 connects to the specific communication terminal, the communication control unit 13 permits communication between the specific communication terminal and the peripheral communication terminal and a communication device arranged on the Internet. Further, the communication control unit 13 is arranged on the peripheral communication terminal and the Internet in a state where the communication unit 11 maintains the connection with the peripheral communication terminal before the communication unit 11 connects to the specific communication terminal. Block communication with the communication device.

In other words, the communication control unit 13 permits communication between the local network and the Internet after the communication unit 11 connects to the specific communication terminal. Further, the communication control unit 13 cuts off the communication between the local network and the Internet before the communication unit 11 connects to the specific communication terminal.

When the communication unit 11 connects to the specific communication terminal, the communication unit 11 and the specific communication terminal are in a state where they can communicate with each other, and information about the specific communication terminal is registered in the communication unit 11 or the router device 10. It may include that it is in. Further, the connection of the communication unit 11 with the specific communication terminal may include the fact that the communication unit 11 is in a state of allocating communication resources to the specific communication terminal.

Further, when the communication unit 11 connects to the specific communication terminal, a wireless line is set between the communication unit 11 and the specific communication terminal, or a connection is established between the communication unit 11 and the specific communication terminal. It may include the state, etc.

Allowing communication between a specific communication terminal and a peripheral communication terminal and a communication device located on the Internet means that the router device 10 transfers data transmitted from the specific communication terminal or the peripheral communication terminal to the communication device. It may be to transfer. Further, permitting communication between the specific communication terminal and the peripheral communication terminal and the communication device arranged on the Internet means that the router device 10 uses the data transmitted from the communication device for the specific communication terminal or the peripheral communication. It may be transferred to a terminal.

The state in which the communication unit 11 maintains the connection with the peripheral communication terminal may be a state in which the communication unit 11 can communicate with the peripheral communication terminal. Further, the state in which the communication unit 11 maintains the connection with the peripheral communication terminal is a time shorter than the time from the state in which the communication unit 11 and the peripheral communication terminal are disconnected to the start of communication. It may be in a state where communication can be started. Further, the state in which the communication unit 11 maintains the connection with the peripheral communication terminal is a state in which the connection in the application layer is maintained in the state where the wireless resource between the communication unit 11 and the peripheral communication terminal is released. May be.

Blocking communication between a peripheral communication terminal and a communication device located on the Internet means that when the router device 10 receives data destined for the communication device from the peripheral communication terminal, the received data is used. It may be to destroy it. Further, blocking communication with a communication device arranged on the Internet means that when the router device 10 receives data from the communication device destined for a peripheral communication terminal, the received data is discarded. It may be. Discarding may be paraphrased as discarding. Further, discarding the received data may be paraphrased as not executing the processing related to the received data.

As described above, the router device 10 is located between a communication terminal included in the local network and a communication device arranged on the Internet, depending on whether or not the specific communication terminal is connected to the router device 10. Communication can be controlled. Further, the router device 10 can control the communication between the peripheral communication terminal and the communication device arranged on the Internet while maintaining the connection with the peripheral communication terminal.

The router device 10 maintains the connection with the peripheral communication terminal even when the communication between the peripheral communication terminal and the communication device arranged on the Internet is blocked. Therefore, the router device 10 needs to execute the connection process related to the peripheral communication terminal even when the communication between the peripheral communication terminal and the communication device is resumed by connecting the specific communication terminal to the router device 10. There is no. As a result, it is possible to prevent the processing load related to the connection processing related to the peripheral communication terminal in the router device 10 from increasing. Further, when the specific communication terminal is not connected to the router device 10, it is possible to block access to the communication terminal included in the local network from the communication device arranged on the Internet. As a result, the router device 10 can improve the security in the local network.

(Embodiment 2)
Subsequently, a configuration example of the communication system according to the second embodiment will be described with reference to FIG. The communication system includes a router device 10, a smartphone terminal 20, an IoT terminal 30, and a server device 40. Further, the local network 50 has a router device 10, a smartphone terminal 20, and an IoT terminal 30. The router device 10 communicates with the server device 40 via the Internet 60. Such a state may be referred to as the server device 40 being arranged on the Internet 60. Further, the router device 10 is used as a gateway between the local network 50 and the Internet 60.

The smartphone terminal 20 is included in the specific communication terminal according to the first embodiment. The IoT terminal 30 is included in the peripheral communication terminal according to the first embodiment. The server device 40 is included in the communication device according to the first embodiment. The IoT terminal 30 may be, for example, a peripheral device of a computer device such as a printer device, or may be a home electric appliance such as a television or a refrigerator having a communication function. The server device 40 may be, for example, a Web server, an application server, or the like. The smartphone terminal 20 and the IoT terminal 30 may perform wireless LAN communication with the router device 10. When the smartphone terminal 20 and the IoT terminal 30 are located in the communication area formed by the router device 10, they execute a connection process with the router device 10 and perform data communication with the router device 10 after the connection. The connection process may include, for example, a registration process for registering the smartphone terminal 20 and the IoT terminal 30 in the router device 10.

The router device 10 may use, for example, an optical communication line or the like as the communication line on the Internet 60 side. The router device 10 relays data transmitted or received between the smartphone terminal 20 or the IoT terminal 30 and the server device 40. In other words, the router device 10 transfers data transmitted between the smartphone terminal 20 or the IoT terminal 30 and the server device 40. Further, the router device 10 may transfer or relay the data transmitted between the smartphone terminal 20 and the IoT terminal 30 and the data transmitted between the IoT terminals.

Subsequently, a configuration example of the smartphone terminal 20 according to the second embodiment will be described with reference to FIG. The smartphone terminal 20 may be a computer device operated by the processor executing a program stored in the memory. The smartphone terminal 20 has a message generation unit 21 and a communication unit 22. The message generation unit 21 and the communication unit 22 may be software or modules whose processing is executed by the processor executing a program stored in the memory. Alternatively, the message generation unit 21 and the communication unit 22 may be hardware such as a circuit or a chip.

The message generation unit 21 requests to change the state in which the communication between the IoT terminal 30 and the server device 40 is blocked to the state in which the communication between the IoT terminal 30 and the server device 40 is permitted. Generate a message.

When the smartphone terminal 20 is connected to the router device 10, the communication unit 22 transmits the request message generated by the message generation unit 21 to the router device 10.

Subsequently, the flow of the communication cutoff release process according to the second embodiment will be described with reference to FIG. First, it is assumed that the IoT terminal 30 and the router device 10 are in a connected state (S11). On the other hand, the smartphone terminal 20 is not connected to the router device 10. Therefore, the router device 10 is in a state of blocking communication between the IoT terminal 30 and the server device 40 (S12). In such a state, when the server device 40 transmits data destined for the IoT terminal 30 to the router device 10, the router device 10 discards or discards the received data (S13). The data to be discarded or discarded by the router device 10 may be data destined for a device located in the local network 50 in addition to the data destined for the IoT terminal 30. Further, when the IoT terminal 30 transmits data destined for the server device 40 to the router device 10, the router device 10 discards or discards the received data (S14). The data to be discarded or discarded by the router device 10 may be data destined for a device located on the Internet 60, in addition to data destined for the server device 40. The router device 10 may temporarily hold the received data without relaying or transferring it in order to block the communication between the local network 50 and the Internet 60. In this case, the router device 10 may relay or transfer the held data after the communication cutoff state is released.

Further, the router device 10 relays or transfers data transmitted between the IoT terminals included in the local network 50 even when the communication between the IoT terminal 30 and the server device 40 is blocked. May be good. For example, the router device 10 may transmit the received data to the destination address when the source address and the destination address of the received data are IoT terminals included in the local network 50.

Next, when the smartphone terminal 20 moves into the communication area formed by the router device, a connection process is performed between the smartphone terminal 20 and the router device 10 (S15). The connection process includes, for example, a process in which the smartphone terminal 20 receives a broadcast signal delivered from the router device 10, a process for establishing a connection between the smartphone terminal 20 and the router device 10, and the like. Further, the connection process includes a process in which the router device 10 registers information about the smartphone terminal 20 in its own device.

When the smartphone terminal 20 is connected to the router device 10 in step S15, the smartphone terminal 20 transmits a request message requesting the cancellation of the communication cutoff to the router device 10 (S16). The request message is a message requesting cancellation of the state in which communication is cut off between the IoT terminal 30 and the like and the server device 40 and the like. In other words, the request message is a message requesting cancellation of the state in which communication is cut off between the device located in the local network 50 and the device located in the Internet 60. For example, when the address of the transmission source of the received message is the smartphone terminal 20, the router device 10 may determine that it is a request message requesting the cancellation of the communication cutoff. Further, the router device 10 may determine that, for example, when the source address of the received message is the IoT terminal 30, it is not a request message requesting the cancellation of the communication cutoff.

Next, when the router device 10 receives the request message requesting the cancellation of the communication cutoff, the communication is cut off between the device located in the local network 50 and the device located in the Internet 60. Is released (S17). That is, the router device 10 relays the data transmitted between the device located in the local network 50 and the device located in the Internet 60.

In steps S13 and S14, when the router device 10 temporarily holds the received data without relaying or transferring the data, the router device 10 cancels the state in which the communication is cut off and then saves the data. It may be transmitted to the destination device.

After the router device 10 releases the state in which communication is cut off, data is transmitted between the IoT terminal 30 and the server device 40 via the router device 10 (S18). Further, after the router device 10 releases the state in which communication is cut off, data is transmitted between the smartphone terminal 20 and the server device 40 via the router device 10 (S19).

Subsequently, the flow of the communication cutoff process according to the second embodiment will be described with reference to FIG. First, it is assumed that the IoT terminal 30 and the smartphone terminal 20 are in a state of being connected to the router device 10, respectively (S21, S22). Therefore, the router device 10 is in a state of canceling the cutoff of communication between the device located in the local network 50 and the device located in the Internet 60 (S23). In such a state, data is transmitted between the smartphone terminal 20 and the server device 40 via the router device 10 (S24). Further, data is transmitted between the IoT terminal 30 and the server device 40 via the router device 10 (S25).

Next, when the smartphone terminal 20 moves from the communication area formed by the router device 10 to the outside of the communication area, a disconnection process is executed between the smartphone terminal 20 and the router device 10 (S26). The disconnection process may be, for example, a process in which the router device 10 disconnects the connection established with the smartphone terminal 20. Alternatively, in the disconnection process, the smartphone terminal 20 may send a disconnection request message to the router device 10, and the router device 10 may disconnect the connection after receiving the disconnection request message.

For example, the smartphone terminal 20 may start the disconnection process when the power of the signal received from the router device 10 is below a predetermined threshold value. Alternatively, the smartphone terminal 20 may start the disconnection process when the radio wave strength or the electric field strength is below a predetermined threshold value.

After disconnecting the connection with the smartphone terminal 20, the router device 10 cuts off the communication between the connected IoT terminal 30 and the server device 40 (S27). For example, the router device 10 may cut off the communication between the connected IoT terminal 30 and the server device 40 after a predetermined period of time has elapsed after disconnecting the connection with the smartphone terminal 20. Alternatively, the router device 10 sends a message requesting that the smartphone terminal 20 cut off the communication between the connected IoT terminal 30 and the server device 40 before the connection with the smartphone terminal 20 is disconnected. You may receive it. Upon receiving the message requesting that the communication be cut off, the router device 10 may cut off the communication between the connected IoT terminal 30 and the server device 40. In such a state, when the server device 40 transmits data destined for the IoT terminal 30 to the router device 10, the router device 10 discards or discards the received data (S28). Further, when the IoT terminal 30 transmits data destined for the server device 40 to the router device 10, the router device 10 discards or discards the received data (S29).

As described above, the router device 10 includes an IoT terminal 30 arranged on a local network and a server device 40 arranged on the Internet, depending on whether or not the smartphone terminal 20 is connected to the router device 10. You can control the communication with. Further, even while the router device 10 is blocking the communication between the IoT terminal 30 and the server device 40, the router device 10 maintains the state of being connected to the IoT terminal 30. Therefore, after the smartphone terminal 20 connects to its own device, the router device 10 can resume communication between the IoT terminal 30 and the server device 40 without executing a connection process or the like.

(Embodiment 3)
Subsequently, the flow of the registration process of the device, which is an exception to the communication interruption according to the third embodiment, will be described with reference to FIG. In FIG. 6, it is assumed that the IoT terminal 30, the IoT terminal 31, and the smartphone terminal 20 are in a state of being connected to the router device 10, respectively (S31, S32, S33). Therefore, the router device 10 is in a state of releasing the cutoff of communication between the device located in the local network 50 and the device located in the Internet 60 (S34). That is, the IoT terminal 30, the IoT terminal 31, and the smartphone terminal 20 can transmit data to the server device 40 located on the Internet via the router device 10. Further, the server device 40 can transmit to the IoT terminal 30, the IoT terminal 31 and the smartphone terminal 20 via the router device 10.

Next, the IoT terminal 31 transmits an exception device registration request message to the router device 10 (S35). The IoT terminal 31 sets the destination of the exception device registration request message to the router device 10. The exception device registration request message permits communication between the IoT terminal 31 and the server device 40 via the router device 10 even when the connection between the smartphone terminal 20 and the router device 10 is disconnected. This is the message used to request that. The case where the connection between the smartphone terminal 20 and the router device 10 is disconnected may be rephrased as the case where the connection between the smartphone terminal 20 and the router device 10 is disconnected.

Next, the router device 10 registers the IoT terminal 31 as an exception device (S36). The exception device is a terminal capable of communicating with a device on the Internet 60 via the router device 10 even when the connection between the smartphone terminal 20 and the router device 10 is disconnected. For example, the router device 10 may manage a list of terminals that can be registered as exceptional devices. The list may include terminal identification information, for example, the identification information may be address information such as an IP address or a MAC (Media Access Control) address.

The router device 10 may register the IoT terminal 31 as an exception device when the identification information about the source IoT terminal 31 included in the exception device registration request message is included in the list. Registering the IoT terminal 31 as an exception device may be paraphrased as managing the IoT terminal 31 as an exception device. The router device 10 may manage list information of terminals managed as exceptional devices in, for example, a memory in its own device. The router device 10 may add the identification information of the IoT terminal 31 to the list information of the terminals managed as exception devices. Further, if the identification information about the source IoT terminal 31 included in the exception device registration request message is not included in the list, the router device 10 transmits a message for rejecting the registration of the exception device to the IoT terminal 31. May be good.

Next, when the smartphone terminal 20 moves from the communication area formed by the router device 10 to the outside of the communication area, a disconnection process is executed between the smartphone terminal 20 and the router device 10 (S37).

After disconnecting the connection with the smartphone terminal 20, the router device 10 cuts off the communication between the connected IoT terminal 30 and the server device 40 (S38). In such a state, when the server device 40 transmits data destined for the IoT terminal 30 to the router device 10, the router device 10 discards or discards the received data (S39). Further, when the IoT terminal 30 transmits data destined for the server device 40 to the router device 10, the router device 10 discards or discards the received data (S40).

Further, the router device 10 transfers or transmits data received from the IoT terminal 31 and destined for the server device 40 to the server device 40 (S41). Further, the router device 10 transfers or transmits the data received from the server device 40 and destined for the IoT terminal 31 to the IoT terminal 31 (S41).

When the router device 10 receives data, it may determine whether or not the terminal or communication device indicated as the source or destination of the data is managed as an exception device. The router device 10 transfers or transmits data to the terminal or communication device indicated as the destination when the terminal or communication device indicated as the source or destination of the data is managed as an exception device. May be good. The router device 10 may discard the data if the source of the data and the terminal or communication device indicated as the transmission destination are not managed as exception devices.

As described above, the router device 10 according to the third embodiment registers an exceptional device capable of communicating with the server device 40 via the router device 10 when the smartphone terminal 20 is not connected to the router device 10. be able to. As a result, even when the user holding the smartphone terminal 20 is away from the router device 10, the communication of the IoT terminal, which requires periodic communication, can be continued.

Further, in FIG. 6, the flow of processing in which the IoT terminal 31 transmits a message requesting registration of its own device as an exception device to the router device 10 has been described. For example, as shown in FIG. 7 or FIG. Exceptional devices may be registered.

FIG. 7 shows a flow of processing in which the smartphone terminal 20 transmits a message requesting registration of the IoT terminal 31 as an exception device to the router device 10. Specifically, instead of step S35 in FIG. 6, the smartphone terminal 20 transmits an exception device registration request message to the router device 10 (S45). The exception device registration request message transmitted in step S45 includes the identification information of the IoT terminal 31 requesting registration as an exception device. The router device 10 registers the IoT terminal 31 included in the exception device registration request message as an exception device. In FIG. 7, the processes other than step S45 are the same as those in FIG. 6, and detailed description thereof will be omitted.

FIG. 8 shows a flow of processing in which the IoT terminal 30 transmits a message requesting that the IoT terminal 31 be registered as an exception device to the router device 10. Specifically, instead of step S35 in FIG. 6, the IoT terminal 30 transmits an exception device registration request message to the router device 10 (S55). The exception device registration request message transmitted in step S55 includes the identification information of the IoT terminal 31 requesting registration as an exception device. The router device 10 registers the IoT terminal 31 included in the exception device registration request message as an exception device. In FIG. 8, the processes other than step S55 are the same as those in FIG. 6, and detailed description thereof will be omitted.

FIG. 9 is a block diagram showing a configuration example of a router device 10, a smartphone terminal 20, and an IoT terminal 30 (hereinafter, referred to as a router device 10 and the like). Referring to FIG. 9, the router device 10 and the like include a network interface 1201, a processor 1202, and a memory 1203. The network interface 1201 is used to communicate with other network node devices constituting the communication system. The network interface 1201 may include, for example, an IEEE 802.3 series compliant network interface card (NIC). Alternatively, network interface 1201 may be used to perform wireless communication. For example, the network interface 1201 may be used for wireless LAN communication or mobile communication specified in 3GPP (3rd Generation Partnership Project).

The processor 1202 reads software (computer program) from the memory 1203 and executes it to perform processing of the router device 10 or the like described by using the flowchart or the sequence in the above-described embodiment. The processor 1202 may be, for example, a microprocessor, an MPU (Micro Processing Unit), or a CPU (Central Processing Unit). Processor 1202 may include a plurality of processors.

The memory 1203 is composed of a combination of a volatile memory and a non-volatile memory. Memory 1203 may include storage located away from processor 1202. In this case, processor 1202 may access memory 1203 via an I / O interface (not shown).

In the example of FIG. 9, memory 1203 is used to store software modules. By reading these software modules and executing them from the memory 1203, the processor 1202 can perform the processing of the router device 10 and the like described in the above-described embodiment.

As described with reference to FIG. 9, each of the processors included in the router device 10 and the like executes one or more programs including a set of instructions for causing the computer to perform the algorithm described with reference to the drawings.

In the above example, the program can be stored and supplied to the computer using various types of non-transitory computer readable medium. Non-temporary computer-readable media include various types of tangible storage media. Examples of non-temporary computer-readable media include magnetic recording media, magneto-optical recording media (eg, magneto-optical disks), CD-ROMs (Read Only Memory), CD-Rs, CD-R / Ws, and semiconductor memories. The magnetic recording medium may be, for example, a flexible disk, a magnetic tape, or a hard disk drive. The semiconductor memory may be, for example, a mask ROM, a PROM (Programmable ROM), an EPROM (Erasable PROM), a flash ROM, or a RAM (Random Access Memory). The program may also be supplied to the computer by various types of transient computer readable medium. Examples of temporary computer readable media include electrical, optical, 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.

The present disclosure is not limited to the above embodiment, and can be appropriately modified without departing from the spirit.

Some or all of the above embodiments may also be described, but not limited to:
(Appendix 1)
A first communication unit that communicates with a specific communication terminal included in a local network and a peripheral communication terminal included in the local network.
A second communication unit that communicates with communication devices located on the Internet,
After the first communication unit connects to the specific communication terminal, communication between the specific communication terminal and the peripheral communication terminal and a communication device arranged on the Internet is permitted, and the first communication unit is permitted. Before the communication unit connects to the specific communication terminal, the peripheral communication terminal and the peripheral communication terminal are arranged on the Internet in a state where the first communication unit maintains the connection with the peripheral communication terminal. A router device including a communication control unit that blocks communication with a communication device.
(Appendix 2)
The communication control unit
When a message requesting to release the interruption of communication between the peripheral communication terminal and the communication device arranged on the Internet is received from the specific communication terminal, the specific communication terminal and the peripheral communication are received. The router device according to Appendix 1, which permits communication between the terminal and the communication device arranged on the Internet.
(Appendix 3)
The communication control unit
When the source address of the received message is an address associated with the specific communication terminal, the received message is a communication between the peripheral communication terminal and a communication device arranged on the Internet. The router device according to Appendix 2, which determines that the message requests that the cutoff be released.
(Appendix 4)
The communication control unit
When the first communication unit disconnects from the specific communication terminal, any one of Supplementary note 1 to 3 that blocks communication between the peripheral communication terminal and the communication device arranged on the Internet. The router device according to item 1.
(Appendix 5)
The communication control unit
Among the plurality of peripheral communication terminals, the address information of the first peripheral communication terminal is retained,
Appendix 1 to 4 permitting communication between the communication device arranged on the Internet and the first peripheral communication terminal in a state where the first communication unit is disconnected from the specific communication terminal. The router device according to any one of the above items.
(Appendix 6)
The communication control unit
The router device according to Appendix 5, which determines whether or not the destination of a message received from a communication device arranged on the Internet is the first peripheral communication terminal.
(Appendix 7)
The communication control unit
The destination of a message received from the second peripheral communication terminal among the plurality of peripheral communication terminals when the communication between the peripheral communication terminal and the communication device arranged on the Internet is blocked. When is a third peripheral communication terminal included in the plurality of peripheral communication terminals, the message received from the second peripheral communication terminal is transmitted to the third peripheral communication terminal. The router device according to any one.
(Appendix 8)
The first communication unit is
The router device according to any one of Supplementary note 1 to 7, which performs wireless communication with the specific communication terminal connected to the router device.
(Appendix 9)
The state in which communication between the peripheral communication terminal included in the local network and the communication device located on the Internet is blocked is changed to the state in which communication between the peripheral communication terminal and the communication device is permitted. A message generator that generates a first message that requests changes,
A communication terminal including a communication unit that transmits the first message to the router device when connected to a router device included in the local network.
(Appendix 10)
The message generation unit
In a state where communication between the plurality of peripheral communication terminals and the communication device is cut off, communication between the first peripheral communication terminal included in the plurality of peripheral communication terminals and the communication device is permitted. Generates a second message requesting to change to a state that
The communication unit
The communication terminal according to Appendix 9, which transmits the second message to the router device when connected to the router device included in the local network.
(Appendix 11)
With specific communication terminals included in the local network,
Peripheral communication terminals included in the local network and
A first communication unit that communicates with the specific communication terminal and the peripheral communication terminal, a second communication unit that communicates with a communication device arranged on the Internet, and the first communication unit are the specific communication. After connecting to the terminal, communication between the specific communication terminal and the peripheral communication terminal and the communication device arranged on the Internet is permitted, and the first communication unit connects to the specific communication terminal. Previously, in a state where the first communication unit maintains a connection with the peripheral communication terminal, communication between the peripheral communication terminal and a communication device arranged on the Internet is cut off. A communication system including a communication control unit and a router device having the communication control unit.
(Appendix 12)
The communication control unit
When a message requesting to release the interruption of communication between the peripheral communication terminal and the communication device arranged on the Internet is received from the specific communication terminal, the specific communication terminal and the peripheral communication are received. The communication system according to Appendix 11, which permits communication between a terminal and a communication device arranged on the Internet.
(Appendix 13)
Before connecting to a specific communication terminal included in a local network, the peripheral communication terminal and a communication device arranged on the Internet are maintained in a state where the connection with the peripheral communication terminal included in the local network is maintained. Block communication with
Execute the connection process of the specific communication terminal,
A communication method in a router that permits communication between the specific communication terminal and the peripheral communication terminal and a communication device arranged on the Internet after connecting to the specific communication terminal.
(Appendix 14)
The state in which communication between the peripheral communication terminal included in the local network and the communication device located on the Internet is blocked is changed to the state in which communication between the peripheral communication terminal and the communication device is permitted. Generates a first message requesting to change,
A communication method in a communication terminal that transmits the first message to the router device when connected to a router device included in the local network.
(Appendix 15)
Before connecting to a specific communication terminal included in a local network, the peripheral communication terminal and a communication device arranged on the Internet are maintained in a state where the connection with the peripheral communication terminal included in the local network is maintained. Block communication with
Execute the connection process of the specific communication terminal,
A program that causes a computer to execute communication between the specific communication terminal and the peripheral communication terminal and a communication device arranged on the Internet after connecting to the specific communication terminal.
(Appendix 16)
The state in which communication between the peripheral communication terminal included in the local network and the communication device located on the Internet is blocked is changed to the state in which communication between the peripheral communication terminal and the communication device is permitted. Generates a first message requesting to change,
A program that causes a computer to send the first message to the router device when connected to a router device included in the local network.

The present disclosure is not limited to the above embodiment, and can be appropriately modified without departing from the spirit.

10 Router device 11 Communication unit 12 Communication unit 13 Communication control unit 20 Smartphone terminal 21 Message generation unit 22 Communication unit 30 IoT terminal 31 IoT terminal 40 Server equipment 50 Local network 60 Internet

Claims (7)

A first communication unit that communicates with a specific communication terminal included in a local network and a peripheral communication terminal included in the local network.
A second communication unit that communicates with communication devices located on the Internet,
After the first communication unit connects to the specific communication terminal, communication between the specific communication terminal and the peripheral communication terminal and a communication device arranged on the Internet is permitted, and the first communication unit is permitted. Before the communication unit connects to the specific communication terminal, the peripheral communication terminal and the peripheral communication terminal are arranged on the Internet in a state where the first communication unit maintains the connection with the peripheral communication terminal. It is equipped with a communication control unit that blocks communication with the communication device .
The communication control unit
Exception device registration request message from the peripheral communication terminal while the address information of the first peripheral communication terminal is held among the plurality of peripheral communication terminals and the first communication unit is connected to the specific communication terminal. When the peripheral communication terminal corresponds to the first peripheral communication terminal, the peripheral communication terminal is communicated with the peripheral communication terminal even when the first communication unit is disconnected from the specific communication terminal. Registered as a device that is an exception to the cutoff, and in a state where the first communication unit is disconnected from the specific communication terminal, between the communication device arranged on the Internet and the first peripheral communication terminal. A router device that allows communication . The communication control unit
When a message requesting to release the interruption of communication between the peripheral communication terminal and the communication device arranged on the Internet is received from the specific communication terminal, the specific communication terminal and the peripheral communication are received. The router device according to claim 1, which permits communication between the terminal and the communication device arranged on the Internet. The communication control unit
When the source address of the received message is an address associated with the specific communication terminal, the received message is a communication between the peripheral communication terminal and a communication device arranged on the Internet. The router device according to claim 2, wherein it is determined that the message is a request to release the cutoff. The communication control unit
Any of claims 1 to 3, wherein when the first communication unit disconnects from the specific communication terminal, the communication between the peripheral communication terminal and the communication device arranged on the Internet is cut off. The router device according to item 1. The communication control unit
When it is determined whether or not the destination of the message received from the communication device arranged on the Internet is the first peripheral communication terminal, and it is determined that the destination of the message is the first peripheral communication terminal. 1. The first communication unit is disconnected from the specific communication terminal, and communication between the communication device arranged on the Internet and the first peripheral communication terminal is permitted . The router device described in. With specific communication terminals included in the local network,
Peripheral communication terminals included in the local network and
A first communication unit that communicates with the specific communication terminal and the peripheral communication terminal, a second communication unit that communicates with a communication device arranged on the Internet, and the first communication unit are the specific communication. After connecting to the terminal, communication between the specific communication terminal and the peripheral communication terminal and the communication device arranged on the Internet is permitted, and the first communication unit connects to the specific communication terminal. Previously, in a state where the first communication unit maintains a connection with the peripheral communication terminal, communication between the peripheral communication terminal and a communication device arranged on the Internet is cut off. , The peripheral communication terminal holds the address information of the first peripheral communication terminal among the plurality of peripheral communication terminals, and the peripheral communication terminal requests the exception device registration while the first communication unit is connected to the specific communication terminal. When a message is received, if the peripheral communication terminal corresponds to the first peripheral communication terminal, the peripheral communication terminal may be disconnected from the specific communication terminal even if the first communication unit is disconnected from the specific communication terminal. The communication device arranged on the Internet and the first peripheral communication terminal are registered as a device that is an exception to the communication interruption, and the first communication unit is disconnected from the specific communication terminal. A communication system including a communication control unit that allows communication between and a router device. Before connecting to a specific communication terminal included in a local network, the peripheral communication terminal and a communication device arranged on the Internet are maintained in a state where the connection with the peripheral communication terminal included in the local network is maintained. Block communication with
Execute the connection process of the specific communication terminal,
After connecting to the specific communication terminal, communication between the specific communication terminal and the peripheral communication terminal and a communication device arranged on the Internet is permitted.
When the exception device registration request message is received from the peripheral communication terminal while the router holds the address information of the first peripheral communication terminal among the plurality of peripheral communication terminals and the router is connected to the specific communication terminal. When the peripheral communication terminal corresponds to the first peripheral communication terminal, the peripheral communication terminal is registered as a device that is an exception to communication interruption even when the router is disconnected from the specific communication terminal. ,
A communication method in a router that permits communication between a communication device arranged on the Internet and the first peripheral communication terminal while the router is disconnected from the specific communication terminal .

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