CN114531474A - Network system, communication terminal, and program - Google Patents

Abstract

The problem is to provide a technique for associating a communication terminal with an electric device with less user operations. A network system (1) is provided with a server (100), an electric device (200), a communication terminal (300), and an access point (400). When the electric device is connected to the access point, the electric device provides the communication terminal with an IP address for communicating with the access point, automatically requests the server for pairing registration, and thereby acquires a connection ID for pairing from the server and provides the connection ID to the communication terminal. The communication terminal acquires a connection ID from the electrical device based on the IP address, thereby requesting pairing with the electrical device to the server.

Description

Network system, communication terminal, and program

Technical Field

The present invention relates to a technique for easily establishing association of a communication terminal with an electric device via a network.

Background

A technique for pairing an appliance with a smartphone via the internet is known. For example, in japanese patent laid-open No. 2020 and 126290 (patent document 1), there are provided a network system, an information processing method, a server, and a refrigerator. According to patent document 1, a network system capable of communicating with a refrigerator, with a terminal, and with the refrigerator and the terminal, includes: and a server serving as a guard service and providing information based on at least the opening and closing operation of the door of the refrigerator to the terminal. The refrigerator of the first user's house of the attended side is associated with the communication terminal of the second user of the attended side. When the refrigerator starts the energy saving mode, the server restricts the action related to the guard service.

Documents of the prior art

Patent document

Patent document 1: japanese patent laid-open No. 2020 and 126290

Disclosure of Invention

Problems to be solved by the invention

An object of the present invention is to provide a technique for associating a communication terminal with an electric device with less user operations.

Technical scheme

According to an aspect of the present invention, there is provided a network system including a server, an electric device, a communication terminal, and an access point. When the electrical device is connected to the access point, the electrical device provides an IP Address (Internet Protocol Address) for communication with the access point to the communication terminal, automatically requests pairing registration from the server, and thereby acquires a connection ID (Identity document) for pairing from the server and provides the connection ID to the communication terminal. The communication terminal acquires a connection ID from the electrical device based on the IP address, thereby requesting pairing with the electrical device to the server.

Advantageous effects

As described above, according to the present invention, the communication terminal and the electric device can be associated with each other with a small number of user operations.

Drawings

Fig. 1 is a schematic diagram showing the overall configuration of a network system 1 according to a first embodiment.

Fig. 2 is a schematic diagram showing an outline of the operation of the network system 1 according to the first embodiment.

Fig. 3 is a sequence diagram showing an outline of the operation of the network system 1 according to the first embodiment.

Fig. 4 is a block diagram showing the configuration of the server 100 according to the first embodiment.

Fig. 5 is a schematic diagram showing user information data 121 according to the first embodiment.

Fig. 6 is a schematic diagram showing the device information data 122 according to the first embodiment.

Fig. 7 is a schematic diagram showing pairing information data 123 according to the first embodiment.

Fig. 8 is a block diagram showing the configuration of electrical device 200 according to the first embodiment.

Fig. 9 is a block diagram showing the configuration of the communication terminal 300 according to the first embodiment.

Fig. 10 is a first sequence diagram showing information processing in the network system 1 according to the first embodiment.

Fig. 11 is a second sequence diagram showing information processing in the network system 1 according to the first embodiment.

Fig. 12 is a second sequence diagram showing information processing in the network system 1 according to the second embodiment.

Detailed Description

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same components are denoted by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

< first embodiment >

< overall configuration of network System 1 >

First, the overall configuration of the network system 1 according to the present embodiment will be described with reference to fig. 1. The network system 1 of the present embodiment mainly includes: a server 100; an electric apparatus 200 such as an air conditioner, a microwave oven, a television, a dust collector, etc.; a communication terminal 300 such as a smart phone; and an access point 400 for connecting electrical device 200 and the like to an external network such as the internet.

It should be noted that the electrical appliance 200 is not limited to a television, a microwave oven, an air conditioner, a dust collector, and the like, and may be a home appliance such as a refrigerator, a washing machine, an air cleaner, a humidifier, a dehumidifier, an automatic cooking pot, an electric cooker, lighting, and the like; AV (audio visual) devices such as personal computers, hard disk recorders, projectors, music players, game machines, and speakers; HEMS (Home Energy Management System) devices such as a solar power generation System, a battery System, and a hot water supply System; house equipment such as built-in lighting, interphones, electronic locks, water heaters, warm water cleaning toilet seat controllers and the like. Hereinafter, these are also collectively referred to as electric devices 200.

The communication terminal 300 is not limited to a smartphone, and may be a personal computer, a tablet computer, a game machine, a speaker, a wearable terminal, or the like. Hereinafter, they are collectively referred to as communication terminals 300.

< summary of operation of network System 1 >

Next, an outline of the operation of the network system 1 according to the present embodiment will be described with reference to fig. 1 and 2. First, the user inputs a command to start the listening mode to electrical appliance 200 (step S002). The electric device 200 starts the listening of the wireless communication (step S004).

The user causes communication terminal 300 to start the setting process of wireless communication of electrical device 200 (step S006). Communication terminal 300 provides electrical device 200 with the ID and password of access point 400 (step S008).

Electric device 200 performs connection with access point 400 based on information from communication terminal 300 (step S010). Electric device 200 transmits the fact that the connection with access point 400 is completed to communication terminal 300 (step S012). At this time, electrical device 200 transmits the IP address assigned to itself to communication terminal 300. In this case, even if the electrical device 200 does not explicitly transmit the IP address, the communication terminal 300 may know the IP address during communication.

In the present embodiment, electrical appliance 200 automatically accesses server 100 stored in advance in electrical appliance 200 via access point 400 (step S014). Electrical device 200 registers the device with server 100 or requests a connection ID for pairing.

Communication terminal 300 requests electrical device 200 via point 400 for a connection ID for pairing based on the acquired IP address (step S020 and step S022). If the pairing connection ID has not been acquired from server 100, electrical device 200 returns this meaning to communication terminal 300 (step S024).

Based on the acquired IP address, communication terminal 300 repeatedly requests electrical device 200 via access point 400 for a connection ID for pairing (step S022, step S026). When acquiring the connection ID for pairing from server 100, electrical device 200 replies to communication terminal 300 with the connection ID (step S028).

When communication terminal 300 acquires the connection ID of electrical device 200, it requests server 100 to associate the connection ID of communication terminal 300 (step S030). That is, the communication terminal 300 requests the server 100 for pairing of the communication terminal 300 and the electric device 200. When the server 100 communicates that the pairing is completed to the communication terminal 300, the communication terminal 300 displays information of the meaning or outputs a sound of the meaning (step S032).

As described above, in the present embodiment, when the user performs the first operation, the communication terminal 300 and the electric device 200 automatically exchange the IP address or the connection ID, and the pairing process in the cloud server 100 is completed. That is, the user operation can be simplified. Hereinafter, a specific configuration of the network system 1 for realizing such a function will be described in detail.

< construction of Server 100 >

First, one configuration of the server 100 constituting the network system 1 according to the present embodiment will be described. Referring to fig. 4, server 100 includes a CPU (Central Processing Unit) 110, a memory 120, an operation Unit 140, and a communication interface 160 as main components.

CPU110 controls each unit of server 100 by executing a program stored in memory 120. For example, the CPU110 executes a program stored in the memory 120, and refers to various data to execute various processes described later.

The Memory 120 is implemented by various RAMs (Random Access memories), various ROMs (Read-Only memories), and the like, and may be a component incorporated in the server 100, a component that is detachable from various interfaces of the server 100, or a recording medium of another device that can be accessed from the server 100. The memory 120 stores a program executed by the CPU110, data generated by the execution of the program by the CPU110, data after input, a database for other services used in the present embodiment, and the like.

For example, the memory 120 stores user information data 121 as shown in fig. 5. The user information data 121 stores, for each user registered in the service, a user ID, a user name, a family ID, a mail address, an address, identification information of various services to which the user joins, service contents, and the like.

The memory 120 stores device information data 122 as shown in fig. 6. The device information data 122 stores, for each of the electric devices registered in the service, a device ID, a user ID of the electric device, a manufacturing ID of the electric device, a model of the electric device, a manufacturer of the electric device, a connection ID for pairing, and the like.

The memory 120 stores pairing information data 123 as shown in fig. 7. Pairing information data 123 stores the correspondence relationship between communication terminal 300 and electrical device 200 for each pairing. For example, a combination of the connection ID of communication terminal 300 or electric device 200 and the connection ID of communication terminal 300 or electric device 200, or a combination of the device ID of communication terminal 300 or electric device 200 and the device ID of communication terminal 300 or electric device 200 is registered.

Returning to fig. 4, the operation unit 140 receives a command from a service manager or the like and inputs the command to the CPU 110.

Communication interface 160 transmits data from CPU110 to other devices such as electrical apparatus 200 and communication terminal 300 via the internet, a carrier network, access point 400, and the like. Conversely, communication interface 160 receives data from other devices such as electrical appliance 200 and communication terminal 300 via the internet, a carrier network, access point 400, and the like, and delivers the data to CPU 110.

< construction of Electrical apparatus 200 >

Next, one configuration of the electrical device 200 constituting the network system 1 will be described with reference to fig. 8. The electric device 200 of the present embodiment includes, as main components, a CPU210, a memory 220, a display 230, an operation unit 240, a communication interface 260, a speaker 270, a microphone 280, and a device driving unit 290.

CPU210 controls each unit of electrical device 200 by executing a program stored in memory 220 or an external storage medium.

The memory 220 is implemented by various RAMs, various ROMs, and the like, and stores a program executed by the CPU210, data generated by the execution of the program by the CPU210, data input via the operation unit 240, data received from a remote controller, data received from the server 100 via the access point 400, the internet, information necessary for utilizing various services, such as an address and a key of a management server corresponding to the electric device 200, and the like.

The display 230 outputs characters, images, and the like based on a signal from the CPU 210. The display 230 may be an LED lamp or the like.

The operation unit 240 is realized by a button, a touch panel, or the like, receives a command from a user, and inputs the command to the CPU 210. The display 230 and the operation unit 240 may constitute a touch panel 250.

The communication interface 260 is implemented by an antenna for performing wireless communication, a connector for performing wired communication, or the like. CPU210 exchanges various data with server 100, other electrical devices 200, and communication terminal 300 via router 400, the internet, and the like, using communication interface 260. For example, the CPU210 transmits the action content and the environment information to the server 100 or receives an operation command from the server 100 via the communication interface 260.

The speaker 270 outputs a voice message or the like based on voice data from the CPU 210. The microphone 280 acquires a user's voice or the like, and inputs voice data to the CPU 210.

The device driving unit 290 controls each unit (motor, heater, sensor, antenna, and the like) of the electrical device 200 based on a signal from the CPU 210. The device driving unit 290 is, for example, a compressor or a fan for an air conditioner, an antenna or a turntable for heating and cooking for a microwave oven, and a receiving antenna or a tuner for a television.

In the present embodiment, a QR code (registered trademark) 201 storing various information necessary for communication is attached to the housing of the electrical device 200.

< construction of communication terminal 300 >

Next, an embodiment of the configuration of the communication terminal 300 constituting the network system 1 will be described with reference to fig. 9. The communication terminal 300 of the present embodiment includes, as main components, a CPU310, a memory 320, a display 330, an operation unit 340, a communication interface 360, a speaker 370, a microphone 380, and a camera 390.

CPU310 controls each section of communication terminal 300 by executing a program stored in memory 320.

The memory 320 is implemented by various RAMs, various ROMs, and the like. The memory 320 stores application programs for various services, programs for notifying an agent, data generated by execution of the programs by the CPU310, data received from the server 100, data input via the operation unit 340, information for specifying a user of the communication terminal 300, and the like.

Display 330 displays images and text based on data from CPU 310. The operation unit 340 is configured by an instruction device, a switch, and the like, and inputs various commands from a user to the CPU 310. The user terminal may include a touch panel 350 including a display 330 and an operation unit 340.

The communication interface 360 transmits and receives data to and from other devices such as the server 100 and the electrical appliance 200 via the internet, a carrier network, the access point 400, and the like. For example, the CPU310 exchanges various information related to the user with the server 100 via the communication interface 360 according to the program. The CPU310 can receive various services by providing the various information to other applications.

Speaker 370 outputs a voice message or the like based on voice data from CPU 310. The microphone 380 acquires the user's voice and the like, and inputs voice data to the CPU 310. The camera 390 inputs captured still images and moving images to the CPU310 or stores them in the memory 320.

< information processing in network System >

Next, information processing in each device constituting the network system 1 will be described with reference to fig. 10. In server 100, electric device 200, and communication terminal 300, CPUs 110, 210, and 310 execute the following processes in accordance with the programs in memories 120, 220, and 320, respectively.

First, a user who installs a new electrical device 200 in a house or the like inputs a wireless communication start command to the electrical device 200 (step S102).

CPU210 of electric device 200 starts a connection process to the access point for wireless communication (step S104).

The user starts the camera 390 of the communication terminal 300 to photograph the QR code (registered trademark) 201 of the electrical appliance 200, thereby acquiring the manufacturing ID, the key, and the like of the electrical appliance 200 (step S106). The user may input various information of electrical device 200 via operation unit 340 of communication terminal 300.

CPU310 of communication terminal 300 accepts an input of an SSID and a password of access point 400 from the user via operation unit 340 (step S108). CPU310 of communication terminal 300 encrypts the password of access point 400 with the key of electrical device 200 (step S110). The CPU310 of the communication terminal 300 broadcasts the SSID, password, and random information of the access point 400 via the access point 400 by using the communication interface 360 (step S112).

When receiving the SSID, password, and random information of the access point 400 via the communication interface 260, the CPU210 of the electrical appliance 200 decodes the password with its own key (step S114). CPU210 of electrical device 200 connects to access point 400 via communication interface 260 using the SSID and password of access point 400 (step S116). CPU210 of electrical device 200 broadcasts the IP address assigned to access point 400 by adding random information from communication terminal 300 via communication interface 260 (step S118).

CPU310 of communication terminal 300 acquires the IP address of electrical device 200 based on the random information via communication interface 360 (step S120). CPU310 of communication terminal 300 displays on display 330 or the like the fact that the connection to access point 400 of electrical device 200 has been successful.

CPU210 of electrical device 200 automatically accesses server 100 stored in advance through access point 400 using communication interface 260, that is, even if no instruction is given from communication terminal 300 by a user operation (step S124).

Upon receiving a request from electrical device 200 via communication interface 160, CPU110 of server 100 associates the request with the manufacturing ID of electrical device 200 or the like, issues a connection ID, and registers the connection ID in device information data 122 of memory 120 (step S128). CPU110 of server 100 transmits the connection ID to electrical device 200 via communication interface 160 (step S130).

On the other hand, CPU310 of communication terminal 300 requests the connection ID to electrical device 200 via communication interface 360 (step S132).

When the connection ID is not acquired from server 100, CPU210 of electrical device 200 returns to communication terminal 300 that the connection ID is not acquired (step S134).

CPU310 of communication terminal 300 repeatedly requests the connection ID from electrical device 200 via communication interface 360 until the connection ID can be acquired (step S132).

When acquiring the connection ID from server 100, CPU210 of electrical device 200 transmits the acquired connection ID to communication terminal 300 (step S136).

CPU310 of communication terminal 300 automatically, that is, even if not operated by the user, transmits a pairing request to server 100 for the connection ID of electrical device 200 via communication interface 360 (step S138).

CPU110 of server 100 pairs communication terminal 300 with electrical device 200 in accordance with a request from communication terminal 300 via communication interface 160 (step S140). That is, communication terminal 300 is associated with electrical device 200 and registered in pairing information data 123. CPU110 of server 100 transmits a pairing completion notification to communication terminal 300 (step S142), and CPU310 of communication terminal 300 outputs information indicating that pairing is completed from display 330 and speaker 370 (step S144).

As shown in fig. 11, CPU310 broadcasts a request for information of electric device 200 that can be paired via access point 400, by using communication interface 360 in response to a pairing command from a user (step S152), to other communication terminal 300 associated with electric device 200 (step S154).

CPU210 of electric device 200 transmits the IP address, model, manufacturer, and the like assigned to access point 400 to other communication terminal 300 via communication interface 260 (step S156).

When receiving the IP address (step S158), CPU310 of communication terminal 300 automatically, that is, even if not subjected to a user operation, requests a connection ID to electrical device 200 via communication interface 360 (step S160).

When acquiring the connection ID from server 100, CPU210 of electrical device 200 transmits the acquired connection ID to communication terminal 300 (step S162).

CPU310 of communication terminal 300 transmits the connection ID of electrical device 200 to server 100 via communication interface 360, and makes a pairing request (step S164).

CPU110 of server 100 pairs communication terminal 300 with electrical device 200 in accordance with a request from communication terminal 300 via communication interface 160 (step S166). CPU110 of server 100 transmits a pairing completion notification to communication terminal 300 (step S168), and CPU310 of communication terminal 300 outputs information indicating that pairing has been completed from display 330 and speaker 370 (step S170).

< second embodiment >

In the above-described embodiment, with respect to other communication terminal 300, in step S158, CPU310 of communication terminal 300 automatically, that is, even if not operated by the user, requests the connection ID from electrical device 200 via communication interface 360. However, when a plurality of pairable electric devices 200 are found, the following processing may be executed.

Referring to fig. 12, CPU310 of communication terminal 300 displays a list of unpaired electrical devices 200 based on the model, manufacturer, and the like acquired from electrical device 200 (step S259).

CPU310 of communication terminal 300 receives a selection command of paired electric device 200 via operation unit 340 (step S260).

CPU310 of communication terminal 300 requests a connection ID based on the selected IP address of electric device 200 via communication interface 360 (step S261).

Other processes are the same as those in the above-described embodiment, and therefore, description thereof will not be repeated.

< third embodiment >

A part or all of the functions of each device in the network system 1 according to the above-described embodiment may be executed by another device. For example, some or all of the functions of server 100, electric device 200, and communication terminal 300 may be performed by other devices, and some or all of the functions of these devices may be shared by a plurality of devices. For example, the server 100 may be implemented by one device, or may be implemented by a plurality of devices on the cloud. Alternatively, communication terminal 300 may also assume a function of a part of the processing of server 100 and electric device 200. Alternatively, the electric device 200 may be configured by an electric device main body and a communication module attached to the rear.

< summary >

In the above-described embodiments, a network system is provided with a server, an electric device, a communication terminal, and an access point. When the electrical device is connected to the access point, the electrical device provides an IP Address (Internet Protocol Address) for communication with the access point to the communication terminal, automatically requests pairing registration from the server, and thereby acquires a connection ID (Identity document) for pairing from the server and provides the connection ID to the communication terminal. The communication terminal acquires a connection ID from the electrical device based on the IP address, thereby requesting pairing with the electrical device to the server.

Preferably, the communication terminal repeatedly requests the connection ID from the electrical device until the connection ID can be acquired from the electrical device.

Preferably, the first information related to the electrical device is displayed from the electrical device. The communication terminal encrypts second information necessary for connection with the access point based on the first information, and transmits the encrypted second information to the electrical device. The electrical device decodes the second information from the communication terminal and connects to the access point.

In the above embodiment, there is provided a communication terminal including: a communication interface for communicating with an access point; and a processor that, when acquiring an IP address from the electrical device via the access point, requests a connection ID for pairing to the electrical device via the access point based on the IP address, and requests pairing with the electrical device to a predetermined server based on the acquired connection ID.

In the above-described embodiments, there is provided a program for a communication terminal including a communication interface, a processor, and a memory. The program causes the processor to perform the steps of: a first step of acquiring an IP address from an electrical device via an access point using a communication interface; a second step of requesting a connection ID for pairing from the electrical device via the access point based on the IP address automatically using the communication interface after the first step; and a third step of requesting pairing with the electrical device to a predetermined server based on the connection ID using the communication interface.

The embodiments disclosed herein are to be considered in all respects as illustrative and not restrictive. The scope of the present invention is indicated by the claims, rather than by the foregoing description, and all changes that come within the meaning and range of equivalency of the claims are intended to be embraced therein.

Claims (5)

1. A network system comprising a server, an electric device, a communication terminal, and an access point,

the electric device, when connected to the access point, provides the communication terminal with an IP address for communication with the access point, automatically requests pairing registration from the server, thereby acquires a connection ID for pairing from the server and provides the connection ID to the communication terminal,

the communication terminal acquires the connection ID from the electrical device based on the IP address, thereby requesting pairing with the electrical device from the server.

2. The network system according to claim 1,

the communication terminal repeatedly requests the connection ID from the electric device until the connection ID can be acquired from the electric device.

3. The network system according to claim 1 or 2,

displaying first information related to the electrical device from the electrical device,

the communication terminal encrypts second information required for connection with the access point based on the first information and transmits the encrypted second information to the electric device,

and the electrical equipment decodes the second information from the communication terminal and is connected with the access point.

4. A communication terminal is provided with:

a communication interface for communicating with an access point; and

and a processor configured to, when acquiring an IP address from an electrical device via the access point, request a connection ID for pairing to the electrical device via the access point based on the IP address, and request pairing with the electrical device to a predetermined server based on the acquired connection ID.

5. A program for a communication terminal comprising a communication interface, a processor and a memory, wherein the program causes the processor to perform the steps of:

a first step of acquiring an IP address from an electrical device via an access point using the communication interface;

a second step of automatically requesting a connection ID for pairing from the electrical device via the access point based on the IP address using the communication interface after the first step; and

a third step of requesting pairing with the electrical device from a predetermined server based on the connection ID using the communication interface.

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