JP2021034758A - Equipment apparatus system and equipment apparatus control method - Google Patents

Abstract

To implement control of an equipment apparatus using a radio terminal without requiring another communication interface.SOLUTION: A portable terminal 4 comprises: an operation reception section 400 for receiving operation on an equipment apparatus from a user; an environmental information acquisition section 402 for performing communication with an environment sensor 6 through a short-range wireless network to acquire environmental information from the environment sensor 6; an operation information transmission section 401 for transmitting operation information indicating the received operation to an equipment apparatus controller 5 through a private wireless network; and an environmental information transmission section 403 for transmitting the acquired environmental information to the equipment apparatus controller 5 through the private wireless network. The equipment apparatus controller 5 comprises: an operation information reception section 500 for receiving the operation information transmitted from the portable terminal 4, through the private wireless network; an environmental information reception section 501 for receiving the environmental information transmitted from the portable terminal 4, through the private wireless network; and an apparatus control section 503 for controlling the equipment apparatus 3 on the basis of the operation information and the environmental information.SELECTED DRAWING: Figure 4

Description

The present invention relates to an equipment system and an equipment control method.

Conventionally, in an equipment system in which a plurality of equipment such as air conditioners and lighting equipment are connected, a configuration using a dedicated wired network has been widely adopted.

In such an equipment system, for example, as disclosed in Patent Document 1, a configuration in which a user can operate one or a plurality of desired equipment via a mobile terminal is well known. It is also well known that information obtained from wireless sensors that detect temperature, humidity, illuminance, various gas concentrations, and the presence or absence of a person is used to control each equipment.

International Publication No. 2018/146724

As described above, when a mobile terminal is used as a user interface or the detection result of a wireless sensor or the like is used to control each equipment, in the conventional equipment system, the equipment controller that controls each equipment is used. A configuration for data communication with a wireless terminal such as a mobile terminal or a wireless sensor is generally adopted.

Therefore, the equipment controller needs to be separately provided with a wireless communication interface for wireless communication with a wireless terminal in addition to a wired communication interface corresponding to the wired network in the equipment system, and timing adjustment between networks, There is a problem that the development cost increases because complicated processing such as control arbitration is required.

The present invention has been made to solve the above problems, and the equipment controller does not need to be provided with a separate communication interface for communicating with the wireless terminal, and can control the equipment using the wireless terminal. The purpose is to provide equipment systems and the like that can be used.

In order to achieve the above object, the equipment system according to the present invention is
A self-employed radio base station that guarantees low latency performance at least in 5G mobile communication systems,
Equipment and
Mobile terminals carried by users and
Equipment controller and
It is equipped with an environmental sensor that detects the environmental state related to the environment in which the equipment is installed.
The mobile terminal
An operation receiving means for receiving an operation related to the equipment from the user,
An environmental information acquisition means that communicates with the environmental sensor via a short-range wireless network conforming to a short-range wireless standard to acquire environmental information indicating the detected environmental state from the environmental sensor.
An operation information transmitting means for transmitting operation information indicating the received operation to the equipment controller via the self-employed radio network constructed based on the self-employed radio base station.
It is provided with an environmental information transmitting means for transmitting the acquired environmental information to the equipment controller via the self-employed wireless network.
The equipment controller is
An operation information receiving means for receiving the operation information transmitted from the mobile terminal via the self-employed wireless network, and
An environmental information receiving means for receiving the environmental information transmitted from the mobile terminal via the self-employed wireless network, and
The equipment control means for controlling the equipment based on the received operation information and the received environmental information is provided.

According to the present invention, the equipment controller does not need to be provided with a separate communication interface for communicating with a wireless terminal such as a mobile terminal or an environment sensor, and can control the equipment using the wireless terminal.

The figure which shows the whole structure of the equipment system which concerns on Embodiment 1 of this invention. Block diagram showing the hardware configuration of the mobile terminal of the first embodiment Block diagram showing the hardware configuration of the equipment controller of the first embodiment In the first embodiment, a block diagram showing each functional configuration of a mobile terminal and an equipment controller. A flowchart showing a procedure of information transmission processing executed by the mobile terminal of the first embodiment. A flowchart showing a procedure of equipment control processing executed by the equipment controller of the first embodiment. The figure which shows the whole structure of the equipment system which concerns on Embodiment 2 of this invention. Block diagram showing the hardware configuration of the management server of the second embodiment Block diagram showing the hardware configuration of the mobile terminal of the second embodiment Block diagram showing the functional configuration of the mobile terminal of the second embodiment The figure which shows the whole structure of the equipment system which concerns on Embodiment 3 of this invention. Block diagram showing the hardware configuration of the mobile terminal of the third embodiment In the third embodiment, a block diagram showing each functional configuration of the mobile terminal and the equipment controller. The figure which shows the whole structure of the equipment system which concerns on Embodiment 4 of this invention. Block diagram showing the hardware configuration of the mobile terminal of the fourth embodiment Block diagram showing the functional configuration of the mobile terminal of the fourth embodiment

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

(Embodiment 1)
FIG. 1 is a diagram showing an overall configuration of an equipment system 1 according to a first embodiment of the present invention. The equipment system 1 is a system for controlling and managing a plurality of equipment 3 installed in a building such as an office building, a commercial building, or a factory.

The equipment system 1 includes a self-employed radio base station 2, a plurality of equipment 3, a mobile terminal 4, an equipment controller 5, an environment sensor 6, and a biosensor 7. The self-employed radio base station 2 is an example of the self-employed radio base station according to the present invention. The self-employed radio base station 2 is a self-employed radio base station intended for use in the building or in the site including the building (hereinafter, referred to as a self-employed radio network area). Specifically, the self-employed radio base station 2 is a radio base station for enabling wireless communication with 5G (5th generation mobile communication system) specifications within this self-employed radio network area, and is a so-called local 5G. It is a radio base station for.

Each equipment 3 is an example of equipment according to the present invention, and is, for example, lighting equipment, air conditioning equipment, and the like. Each equipment device 3 wirelessly communicates with another device (specifically, the equipment device controller 5) via a self-employed radio network (in other words, a local 5G network) constructed based on the self-employed radio base station 2. It is equipped with a communication interface. Each equipment device 3 may be connected to a self-employed wireless network by an external communication adapter so that it can wirelessly communicate with the equipment controller 5.

The mobile terminal 4 is an example of a mobile terminal according to the present invention. The mobile terminal 4 is an electronic device carried by a user such as a smartphone or a tablet terminal. As shown in FIG. 2, the mobile terminal 4 includes a user interface 40, a first communication interface 41, a second communication interface 42, a CPU (Central Processing Unit) 43, a ROM (Read Only Memory) 44, and a RAM. (Random Access Memory) 45 and a secondary storage device 46 are provided. These components are connected to each other via a bus 47.

The user interface 40 includes a display device such as a liquid crystal display and an organic EL display, and an input device such as a push button, a touch panel, and a touch pad. Under the control of the CPU 43, the user interface 40 displays various screens and the like according to the user operation, receives an operation input from the user, and sends a signal related to the accepted operation to the CPU 43.

The first communication interface 41 is hardware for wirelessly communicating with other devices via the self-employed wireless network. The second communication interface 42 communicates with other devices via a short-range wireless network conforming to a predetermined short-range wireless standard such as Wi-Fi (registered trademark) and BLE (Bluetooth (registered trademark) Low Energy). Hardware for wireless communication.

The CPU 43 controls the mobile terminal 4 in an integrated manner. The ROM 44 stores a plurality of firmwares and data used when executing these firmwares. The RAM 45 is used as a work area of the CPU 43.

The secondary storage device 46 includes an EEPROM (Electrically Erasable Programmable Read-Only Memory), a readable and writable non-volatile semiconductor memory such as a flash memory, and the like. The secondary storage device 46 stores various programs including application programs (hereinafter, referred to as operation applications) for operating each equipment device 3, and data used when executing these programs. Details of the functions of the mobile terminal 4 will be described later.

The equipment controller 5 is an example of the equipment controller according to the present invention. The equipment controller 5 is a device that is communicably connected to each equipment 3 and a mobile terminal 4 via a self-employed wireless network and controls each equipment 3 based on each information to be described later received from the mobile terminal 4. is there.

As shown in FIG. 3, the equipment controller 5 includes a communication interface 50, a CPU 51, a ROM 52, a RAM 53, and a secondary storage device 54. These components are connected to each other via a bus 55.

The communication interface 50 is hardware for wirelessly communicating with other devices via a self-employed wireless network. The CPU 51 comprehensively controls the equipment controller 5. The ROM 52 stores a plurality of firmwares and data used when executing these firmwares. The RAM 53 is used as a work area of the CPU 51.

The secondary storage device 54 is composed of a readable and writable non-volatile semiconductor memory such as an EEPROM and a flash memory, an HDD (Hard Disk Drive), and the like. The secondary storage device 54 stores various programs including a program for controlling each equipment device 3 (hereinafter, referred to as a device control program) and data used when executing these programs. Details of the functions of the equipment controller 5 will be described later.

The environmental sensor 6 is an example of the environmental sensor according to the present invention. The environmental sensor 6 is a sensor that detects an environmental state related to the environment in which the equipment 3 is installed. Environmental conditions include, for example, air temperature, humidity, illuminance, various gas concentrations, presence or absence of humans, and the like. Although not shown, the environment sensor 6 includes a sensor circuit, a communication interface, a CPU, a ROM, a RAM, a readable and writable non-volatile semiconductor memory such as an EEPROM and a flash memory, and a primary battery or a secondary battery. And.

The environmental sensor 6 detects the environmental state at regular time intervals, and transmits the environmental information indicating the detected environmental state to the mobile terminal 4 via the above-mentioned short-range wireless network.

The biosensor 7 is an example of the biosensor according to the present invention. The biosensor 7 is a human body-worn (for example, wristband type) device that detects biometric data of a user carrying a mobile terminal 4. Biological data includes body temperature, heart rate, sweating amount and the like. Although not shown, the biosensor 7 includes a sensor circuit, a communication interface, a CPU, a ROM, a RAM, a readable and writable non-volatile semiconductor memory such as an EEPROM and a flash memory, and a primary battery or a secondary battery. And.

The biosensor 7 detects biometric data at regular time intervals, and transmits biometric information indicating the detected biometric data to the mobile terminal 4 via the short-range wireless network.

Subsequently, each function of the mobile terminal 4 and the equipment controller 5 will be described in detail. FIG. 4 is a block diagram showing a functional configuration of the mobile terminal 4 and the equipment controller 5. As shown in FIG. 4, the mobile terminal 4 includes an operation reception unit 400, an operation information transmission unit 401, an environmental information acquisition unit 402, an environmental information transmission unit 403, a biometric information acquisition unit 404, and a biometric information transmission unit. It includes 405. These functional units of the mobile terminal 4 are realized by the CPU 43 of the mobile terminal 4 executing the above-mentioned operation application stored in the secondary storage device 46.

The equipment controller 5 includes an operation information receiving unit 500, an environmental information receiving unit 501, a biological information receiving unit 502, and an equipment control unit 503. These functional units of the equipment equipment controller 5 are realized by the CPU 51 of the equipment equipment controller 5 executing the above-mentioned equipment control program stored in the secondary storage device 54.

In the mobile terminal 4, the operation receiving unit 400 is an example of the operation receiving means according to the present invention, and receives an operation related to the equipment 3 from the user. Specifically, the operation reception unit 400 displays a device operation screen (not shown), and the user specifies the equipment device 3 to be operated, the content of the operation instruction to the designated facility device 3, and the like via the device operation screen. Accepts input. The operation information transmission unit 401 is an example of the operation information transmission means according to the present invention, and transmits the operation information indicating the operation received from the user to the equipment controller 5 via the self-employed wireless network.

The environmental information acquisition unit 402 is an example of the environmental information acquisition means according to the present invention, and communicates with the environmental sensor 6 via a short-range wireless network to obtain environmental information indicating an environmental state detected by the environmental sensor 6. get. The environmental information transmission unit 403 is an example of the environmental information transmission means according to the present invention, and transmits the environmental information acquired by the environmental information acquisition unit 402 to the equipment controller 5 via the self-employed wireless network.

The biometric information acquisition unit 404 is an example of the biometric information acquisition means according to the present invention, and communicates with the biometric sensor 7 via a short-range wireless network to obtain biometric information indicating biometric data detected by the biometric sensor 7. get. The biological information transmission unit 405 is an example of the biological information transmission means according to the present invention, and transmits the biological information acquired by the biological information acquisition unit 404 to the equipment controller 5 via the self-employed wireless network.

In the equipment controller 5, the operation information receiving unit 500 is an example of the operation information receiving means according to the present invention, and receives the operation information transmitted from the mobile terminal 4 via the self-employed wireless network. The environmental information receiving unit 501 is an example of the environmental information receiving means according to the present invention, and receives the environmental information transmitted from the mobile terminal 4 via the self-employed wireless network. The biological information receiving unit 502 is an example of the biological information receiving means according to the present invention, and receives the biological information transmitted from the mobile terminal 4 via the self-employed wireless network.

The device control unit 503 is an example of the device control means according to the present invention. The device control unit 503 controls the equipment device 3 based on the operation information received by the operation information receiving unit 500.

Specifically, the equipment control unit 503 individually generates control commands for controlling the designated equipment 3 based on the operation information, and each generated control command is generated for each equipment via the self-employed wireless network. Send to 3. For example, when the equipment 3 is a lighting device and the operation information received by the operation information receiving unit 500 is all the equipment 3's simultaneous lighting, the equipment control unit 503 lights each equipment 3. The control commands to be instructed are individually generated, and each generated control command is transmitted to each equipment 3 via the self-employed wireless network.

Further, the device control unit 503 controls the equipment device 3 based on the environmental information received by the environmental information receiving unit 501.

Specifically, the equipment control unit 503 individually generates control commands for controlling all the equipment 3 based on the environmental information, and each generated control command is generated for each equipment 3 via the self-employed wireless network. Send to. For example, when the equipment 3 is an air conditioner and the environmental information received by the environmental information receiving unit 501 includes the air temperature in the building, the equipment control unit 503 determines each equipment 3 based on the air temperature. The control commands for are individually generated, and each generated control command is transmitted to each equipment 3 via the self-employed wireless network. Alternatively, when the equipment 3 is a lighting device and the environmental information received by the environmental information receiving unit 501 includes the illuminance in the building, the equipment control unit 503 controls each equipment 3 based on the illuminance. Commands are individually generated, and each generated control command is transmitted to each equipment 3 via a self-employed wireless network.

Further, the device control unit 503 controls the equipment device 3 based on the biological information received by the biological information receiving unit 502.

Specifically, the device control unit 503 individually generates control commands for controlling all the equipment 3 based on the biological information, and each generated control command is generated for each equipment 3 via the self-employed wireless network. Send to. For example, when the equipment 3 is an air conditioner and the biometric information received by the biometric information receiving unit 502 includes the body temperature of the user, the equipment control unit 503 gives a control command to each equipment 3 based on the body temperature. Is individually generated, and each generated control command is transmitted to each equipment 3 via the self-employed wireless network.

FIG. 5 is a flowchart showing a procedure of information transmission processing executed by the mobile terminal 4. The information transmission process is started by the CPU 43 of the mobile terminal 4 activating the operation application stored in the secondary storage device 46.

When the environmental information transmitted from the environmental sensor 6 is acquired by communication via the short-range wireless network (step S101; YES), the mobile terminal 4 transmits the acquired environmental information to the equipment controller 5 via the self-employed wireless network. (Step S102). Then, the process returns to step S101.

When the biometric information transmitted from the biosensor 7 is acquired by communication via the short-range wireless network (step S103; YES) instead of acquiring the environmental information (step S101; NO), the mobile terminal 4 receives the acquired biometric information. Is transmitted to the equipment controller 5 via the self-employed wireless network (step S104). Then, the process returns to step S101.

When the operation related to the equipment 3 is received from the user (step S105; YES) without acquiring either the environmental information or the biological information (step S101; NO and step S103; NO), the mobile terminal 4 is sent from the user. The operation information indicating the accepted operation is transmitted to the equipment controller 5 via the self-employed wireless network (step S106). NO in step S105, or after step S106, the process returns to step S101.

FIG. 6 is a flowchart showing a procedure of equipment control processing executed by the equipment equipment controller 5. The device control process is started when the CPU 51 of the equipment controller 5 activates the device control program stored in the secondary storage device 54.

When the environmental information transmitted from the mobile terminal 4 is received via the self-employed wireless network (step S201; YES), the equipment controller 5 controls all the equipment 3 based on the received environmental information. Is individually generated, and each generated control command is transmitted to each equipment 3 via the self-employed wireless network. (Step S202). Then, the process returns to step S201.

When the biometric information transmitted from the mobile terminal 4 is received via the self-employed wireless network (step S203; YES) instead of receiving the environmental information (step S201; NO), the equipment controller 5 is based on the received biometric information. The control commands for controlling all the equipment 3 are individually generated, and each generated control command is transmitted to each equipment 3 via the self-employed wireless network. (Step S204). Then, the process returns to step S201.

When the operation information transmitted from the mobile terminal 4 is received via the self-employed wireless network (step S205; YES) without receiving any of the environmental information and the biological information (step S201; NO and step S203; NO), The equipment controller 5 individually generates control commands for controlling the designated equipment 3 based on the received operation information, and each of the generated control commands is generated via the self-employed wireless network. It is transmitted to the equipment 3 (step S206). NO in step S205, or after step S206, the process returns to step S201.

As described above, according to the equipment system 1 of the first embodiment, the self-employed radio base station 2 constructs a self-employed wireless network which is a local 5G network, and the equipment controller 5 uses the self-employed wireless network. Then, it communicates with each equipment 3 and the mobile terminal 4. Then, the equipment controller 5 transmits the operation information based on the user operation, the environmental information based on the detection result of the environmental sensor 6, and the biometric information based on the detection result of the biosensor 7 from the mobile terminal 4 via the self-employed wireless network. It receives and controls the equipment 3 based on each received information.

In this way, since the information from the wireless terminal can be utilized, it is possible to realize the control of the highly functional equipment 3. Further, the equipment controller 5 does not need to be provided with a separate communication interface for communicating with wireless terminals such as the environment sensor 6 and the biosensor 7, and does not require complicated processing such as timing adjustment between networks and control arbitration. It is necessary and the development cost can be suppressed.

In the equipment system 1, the equipment controller 5 communicates with each equipment 3 individually, but in 5G, the end-to-end delay time is as low as 1 ms or less. Therefore, for example, the user can use a mobile terminal. Even when 100 lighting devices are operated all at once via 4, the control is completed in 0.1 seconds, and the user does not feel uncomfortable.

(Embodiment 2)
Subsequently, a second embodiment of the present invention will be described. In the following description, components and the like common to the first embodiment are designated by the same reference numerals, and the description thereof will be omitted.

FIG. 7 is a diagram showing an overall configuration of the equipment system 1A according to the second embodiment of the present invention. The equipment system 1A includes a self-employed radio base station 2, a plurality of equipment 3, a mobile terminal 4A, an equipment controller 5, an environment sensor 6, a biosensor 7, a wide area radio base station 8, and a management server. 9 and.

The wide area wireless base station 8 is a wireless base station installed by a telecommunications carrier, which is a so-called carrier, and enables a wide range of wireless communication covering the self-employed wireless network area. For example, the wide area wireless base station 8 enables wireless communication with specifications such as 3G (3rd generation mobile communication system), LTE (Long Term Evolution), 4G (4th generation mobile communication system), and 5G. Hereinafter, the radio network constructed based on the wide area radio base station 8 will be referred to as a wide area radio network.

The management server 9 is an example of the management server according to the present invention. The management server 9 is a server computer installed and operated by a manufacturer, a sales company, an affiliated company, or the like of the equipment 3, and is connected to the above-mentioned wide area wireless network. As shown in FIG. 8, the management server 9 includes a communication interface 90, a CPU 91, a ROM 92, a RAM 93, and a secondary storage device 94. These components are connected to each other via a bus 95.

The communication interface 90 is hardware for wirelessly communicating with other devices via the wide area wireless network. The CPU 91 comprehensively controls the management server 9. The ROM 92 stores a plurality of firmwares and data used when executing these firmwares. The RAM 93 is used as a work area of the CPU 91.

The secondary storage device 94 is composed of a readable and writable non-volatile semiconductor memory such as an EEPROM and a flash memory, an HDD, and the like. The secondary storage device 94 stores various programs including a program for managing the location of each equipment 3 and data used when executing these programs.

The mobile terminal 4A is an example of the mobile terminal according to the present invention. The mobile terminal 4A is an electronic device carried by a user such as a smartphone or a tablet terminal, similar to the mobile terminal 4 of the first embodiment. As shown in FIG. 9, the mobile terminal 4A includes a user interface 40, a first communication interface 41, a second communication interface 42, a CPU 43, a ROM 44, a RAM 45, a secondary storage device 46, and a third communication. It includes an interface 48 and a GPS signal receiving circuit 49. These components are connected to each other via a bus 47.

The third communication interface 48 is hardware for wirelessly communicating with other devices via the wide area wireless network. The GPS signal receiving circuit 49 is a circuit that receives GPS signals from GPS (Global Positioning System) satellites, calculates latitude and longitude based on the received GPS signals, and outputs them to the CPU 43.

Subsequently, the function of the mobile terminal 4A will be described in detail. FIG. 10 is a block diagram showing a functional configuration of the mobile terminal 4A. As shown in FIG. 10, the mobile terminal 4A includes an operation reception unit 400, an operation information transmission unit 401, an environment information acquisition unit 402, an environment information transmission unit 403, a biometric information acquisition unit 404, and a biometric information transmission unit. It includes a communication switching unit 406, an identification information acquisition unit 407, a position information acquisition unit 408, and a location information transmission unit 409. These functional units of the mobile terminal 4A are realized by the CPU 43 of the mobile terminal 4A executing an operation application which is an application program for operating each equipment 3 stored in the secondary storage device 46. To.

The communication switching unit 406 is an example of the communication switching means according to the present invention. The communication switching unit 406 selectively switches between communication via the wide area wireless network (that is, communication by the third communication interface 48) and communication via the self-employed wireless network (that is, communication by the first communication interface 41). .. Specifically, when the mobile terminal 4A moves from outside the self-employed wireless network area to within the self-employed wireless network area, the communication switching unit 406 switches from communication via the wide area wireless network to communication via the self-employed wireless network. Further, when the mobile terminal 4A moves from the self-employed wireless network area to the outside of the self-employed wireless network area, the communication switching unit 406 switches from the communication via the self-employed wireless network to the communication via the wide area wireless network.

The identification information acquisition unit 407 is an example of the identification information acquisition means according to the present invention. The identification information acquisition unit 407 acquires the identification information of the equipment 3 from each equipment 3. Specifically, when the elapsed time from switching from the communication via the wide area wireless network to the communication via the self-employed wireless network exceeds a predetermined time, the identification information acquisition unit 407 uses the self-employed wireless network. The identification information of the equipment 3 is acquired from each equipment 3 by communicating with the equipment 3. The identification information of the equipment 3 includes, for example, a model name, a model name, a serial number, and the like.

The position information acquisition unit 408 is an example of the position information acquisition means according to the present invention. When the identification information acquisition unit 407 acquires the identification information of each equipment 3, the position information acquisition unit 408 acquires the latitude and longitude output by the GPS signal receiving circuit 49 as the position information of each equipment 3. ..

The location information transmission unit 409 is an example of the location information transmission means according to the present invention. When the location information transmission unit 409 is switched from the communication via the self-employed wireless network to the communication via the wide area wireless network by the communication switching unit 406, the identification information and the position of each equipment acquired by the identification information acquisition unit 407. The location information in which the location information acquired by the information acquisition unit 408 is stored is transmitted to the management server 9 via the wide area wireless network.

When the management server 9 receives the location information transmitted from the mobile terminal 4A via the wide area wireless network, the management server 9 stores the received location information in a device management DB (not shown) stored in the secondary storage device 94. The equipment management DB is a database for managing the location of the sold equipment equipment 3. In the device management DB, device management data in which identification information and location information are associated with each facility device 3 is registered for the number of sold facility devices 3.

Such device management data can be used, for example, in a business that provides a service related to the traceability of the equipment device 3 to a customer. Services related to traceability include, for example, notification of recall information, proposals for replacement of the main body or parts, notification of new product information, and the like.

As described above, according to the equipment system 1A of the second embodiment, the same effect as that of the equipment system 1 of the first embodiment can be obtained, and the location of the equipment 3 can be managed. ..

When the equipment controller 5 holds the identification information of each equipment 3, the mobile terminal 4A may acquire the identification information of each equipment 3 from the equipment controller 5.

(Embodiment 3)
Subsequently, the third embodiment of the present invention will be described. In the following description, components and the like common to the first embodiment are designated by the same reference numerals, and the description thereof will be omitted.

FIG. 11 is a diagram showing an overall configuration of the equipment system 1B according to the third embodiment of the present invention. The equipment system 1B includes a self-employed radio base station 2A, a plurality of equipment 3, a mobile terminal 4B, an equipment controller 5A, an environment sensor 6, a biological sensor 7, and a plurality of repeaters 10.

The self-employed radio base station 2A is an example of the self-employed radio base station according to the present invention. Similar to the self-employed radio base station 2 of the first embodiment, the self-employed radio base station 2A is intended to be used in the self-employed radio network area in the building where the equipment 3 is installed or in the site including the building. It is a wireless base station for enabling wireless communication with 5G specifications within a self-employed wireless network area.

Further, the self-employed radio base station 2A includes a gateway device (not shown) that connects the self-employed radio network and the short-range radio network. The gateway device is an example of the gateway means according to the present invention.

The mobile terminal 4B is an example of a mobile terminal according to the present invention. The mobile terminal 4B is an electronic device carried by a user such as a smartphone or a tablet terminal, similar to the mobile terminal 4 of the first embodiment. As shown in FIG. 12, the hardware configuration of the mobile terminal 4B differs from that of the mobile terminal 4 (see FIG. 2) only in that it does not include the first communication interface 41. The functional configuration of the mobile terminal 4B will be described later.

The equipment controller 5A is an example of the equipment controller according to the present invention. The equipment controller 5A is communicably connected to each equipment 3 via a self-employed wireless network, and can communicate with a mobile terminal 4B, an environment sensor 6, and a biosensor 7 via a self-employed wireless network and a short-range wireless network. Connected to. The equipment controller 5A controls each equipment 3 based on the information received from each of the mobile terminal 4B, the environment sensor 6, and the biosensor 7. The hardware configuration of the equipment controller 5A is the same as that of the equipment controller 5 (see FIG. 3) of the first embodiment. The functional configuration of the equipment controller 5A will be described later.

The repeater 10 is an example of the repeater according to the present invention. The repeaters 10 are arranged so as to be scattered at a plurality of locations in the self-employed wireless network area. Each repeater 10 expands the short-range wireless network by relaying wireless communication according to the same short-range wireless standard as in the first embodiment.

Subsequently, each function of the mobile terminal 4B and the equipment controller 5A will be described in detail. FIG. 13 is a block diagram showing a functional configuration of the mobile terminal 4B and the equipment controller 5A. As shown in FIG. 13, the mobile terminal 4B includes an operation reception unit 400 and an operation information transmission unit 401A. These functional units of the mobile terminal 4B are realized by the CPU 43 of the mobile terminal 4B executing an operation application which is an application program for operating each equipment device 3 stored in the secondary storage device 46. To.

The equipment controller 5A includes an operation information receiving unit 500, an environmental information receiving unit 501A, a biological information receiving unit 502A, and an equipment control unit 503. These functional units of the equipment controller 5A are realized by the CPU 51 of the equipment controller 5A executing the equipment control program for controlling each equipment 3 stored in the secondary storage device 54. ..

In the mobile terminal 4B, the operation reception unit 400 receives an operation related to the equipment 3 from the user. The operation information transmission unit 401A transmits the operation information indicating the operation received from the user to the equipment controller 5A via the short-range wireless network.

In the equipment controller 5A, the operation information receiving unit 500 receives the operation information transmitted from the mobile terminal 4B via the self-employed wireless network. The environmental information receiving unit 501A is an example of the environmental information receiving means according to the present invention, and receives the environmental information transmitted from the environmental sensor 6 to the equipment controller 5A via the short-range wireless network via the self-employed wireless network. To do. The biometric information receiving unit 502A is an example of the biometric information receiving means according to the present invention, and receives the biometric information transmitted from the biosensor 7 to the equipment controller 5A via the short-range wireless network via the self-employed wireless network. To do.

The equipment control unit 503 individually generates control commands for controlling the designated equipment 3 based on the operation information, and each generated control command is generated for each designated equipment via the self-employed wireless network. Send to 3. Further, the equipment control unit 503 individually generates control commands for controlling all the equipment 3 based on the environmental information, and transmits each generated control command to each equipment 3 via the self-employed wireless network. To do. Further, the device control unit 503 individually generates control commands for controlling all the device devices 3 based on the biological information, and transmits each generated control command to each facility device 3 via the self-employed wireless network. To do.

As described above, according to the equipment system 1B of the third embodiment, the self-employed radio base station 2A constructs a self-employed wireless network which is a local 5G network, and the self-employed wireless network and the short-range wireless network are connected. Connected, the equipment controller 5A directly communicates with each equipment 3 via the self-employed wireless network, and indirectly communicates with wireless terminals such as the mobile terminal 4B, the environment sensor 6, and the biosensor 7 via the self-employed wireless network. Communicate with. Then, the equipment controller 5A controls the equipment 3 based on the information received from each wireless terminal.

In this way, since the information from the wireless terminal can be utilized, it is possible to realize the control of the highly functional equipment 3. Further, the equipment controller 5A does not need to be provided with a separate communication interface for communicating with the wireless terminal, and complicated processing such as timing adjustment between networks and control arbitration becomes unnecessary, and the development cost can be suppressed. ..

Further, since the mobile terminal 4B does not require a communication interface for communicating via a self-employed wireless network, that is, a communication interface compatible with 5G, it is possible to adopt a low-spec electronic device as the mobile terminal 4B. Become.

(Embodiment 4)
Subsequently, a fourth embodiment of the present invention will be described. In the following description, components and the like common to the first to third embodiments are designated by the same reference numerals, and the description thereof will be omitted.

FIG. 14 is a diagram showing an overall configuration of the equipment system 1C according to the fourth embodiment of the present invention. The equipment system 1C includes a self-employed wireless base station 2A, a plurality of equipment 3, a mobile terminal 4C, an equipment controller 5A, an environment sensor 6, a biological sensor 7, a wide area wireless base station 8, and a management server. 9 and a plurality of repeaters 10.

The mobile terminal 4C is an example of a mobile terminal according to the present invention. The mobile terminal 4C is an electronic device carried by a user such as a smartphone or a tablet terminal, similar to the mobile terminals 4, 4A and 4B of the first to third embodiments. As shown in FIG. 15, the hardware configuration of the mobile terminal 4C is different from that of the mobile terminal 4A (see FIG. 9) only in that it does not include the first communication interface 41.

FIG. 16 is a block diagram showing a functional configuration of the mobile terminal 4C. As shown in FIG. 16, the mobile terminal 4C includes an operation reception unit 400, an operation information transmission unit 401A, an identification information acquisition unit 407A, a position information acquisition unit 408, and a location information transmission unit 409A. These functional units of the mobile terminal 4C are realized by the CPU 43 of the mobile terminal 4C executing an operation application which is an application program for operating each equipment device 3 stored in the secondary storage device 46. To.

The identification information acquisition unit 407A is an example of the identification information acquisition means according to the present invention. The identification information acquisition unit 407A acquires the identification information of the equipment 3 from each equipment 3. Specifically, when the elapsed time after the short-range wireless communication becomes possible exceeds a predetermined time, the identification information acquisition unit 407A provides each equipment device 3 via the short-range wireless network and the self-employed wireless network. The identification information of the equipment 3 is acquired from each equipment 3 by communication with. The identification information of the equipment 3 includes, for example, a model name, a model name, a serial number, and the like.

When the identification information acquisition unit 407A acquires the identification information of each equipment 3, the position information acquisition unit 408 acquires the latitude and longitude output by the GPS signal receiving circuit 49 as the position information of each equipment 3. ..

The location information transmission unit 409A is an example of the location information transmission means according to the present invention. The location information transmission unit 409A manages the location information in which the identification information of each equipment acquired by the identification information acquisition unit 407A and the location information acquired by the location information acquisition unit 408 are stored via the wide area wireless network. Send to server 9.

As described above, according to the equipment system 1C of the fourth embodiment, the same effect as that of the equipment system 1B of the third embodiment can be obtained, and the location of the equipment 3 can be managed. ..

When the equipment controller 5A holds the identification information of each equipment 3, the mobile terminal 4C may acquire the identification information of each equipment 3 from the equipment controller 5A.

The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention.

For example, the self-employed radio base station according to the present invention is not limited to a radio base station for performing wireless communication with 5G specifications, and may be a radio base station that guarantees low latency performance at least in 5G. ..

Further, in the equipment system 1, 1A, 1B, 1C, the plurality of environmental sensors 6 may be installed so as to be scattered in the building where the plurality of equipment 3 are installed. In this case, the equipment controllers 5 and 5A may control each equipment 3 based on the environmental information from the environmental sensor 6 installed closest to the equipment 3.

Further, the equipment controllers 5 and 5A include one or a plurality of equipments 3 installed within a predetermined range (for example, within 10 m) from the user wearing the biosensor 7 in the self-employed wireless network area. Control may be performed based on the biometric information from the biosensor 7.

It is also possible to apply the technical idea of the present invention to a home appliance control system that controls home appliances installed in a house. For example, a home controller, a lighting device, and a mobile terminal carried by a user are connected to a 5G self-employed wireless network, and image information about surrounding images taken by the mobile terminal is transmitted to the home controller to be transmitted to the home controller. A home appliance control system that controls a lighting device based on image information received from a mobile terminal can be assumed.

Specifically, the home controller analyzes the image information received from the mobile terminal, switches the lighting device on / off, adjusts the illuminance, etc., based on the presence / absence of people in the home, the number of people, and the like. In this home appliance control system, the mobile terminal is indirectly connected to the self-employed wireless network via the short-range wireless network, and the image information from the mobile terminal is transmitted via the short-range wireless network and the self-employed wireless network. It may be sent to the home controller.

Further, for example, a home controller, an IH (Induction Heating) cooker, and a camera installed in the kitchen are connected to a 5G self-employed wireless network, and image information regarding the image in the kitchen taken by the camera is stored in the home controller. A home appliance control system that controls the IH cooker based on the image information transmitted to the home controller and received from the camera can be assumed.

Specifically, the home controller analyzes the image information received from the camera and estimates the age of the person in the kitchen. Then, the home controller performs safety control such as locking the operation of the IH cooker when a person of a specific age group such as an infant or an elderly person is in the kitchen. Further, when a person of the specific age group is in the kitchen, the home controller may output an electronic sound or voice for alerting from an alarm device, an AI speaker, or the like. In this home appliance control system, the camera is indirectly connected to the self-employed wireless network via the short-range wireless network, and the image information from the camera is sent to the house via the short-range wireless network and the self-employed wireless network. It may be sent to the controller.

Further, all or a part of the functional parts of the mobile terminals 4, 4A, 4B, 4C and all or a part of the functional parts of the equipment controllers 5, 5A may be realized by dedicated hardware. Dedicated hardware is, for example, a single circuit, a composite circuit, a programmed processor, an ASIC (Application Specific Integrated Circuit), an FPGA (Field-Programmable Gate Array), or a combination thereof.

The operation application and device control program in each of the above embodiments are a CD-ROM (Compact Disc Read Only Memory), a DVD (Digital Versatile Disc), a magneto-optical disc (Magneto-Optical Disc), and a USB (Universal Serial). Bus) It is also possible to store and distribute it in a computer-readable recording medium such as a memory, a memory card, or an HDD.

In addition, each operation application is stored in a storage device of a server (not shown) on the Internet so that the corresponding operation application is downloaded from the server to the mobile terminals 4, 4A, 4B, and 4C. May be good. Similarly, each device control program is stored in a storage device of a server (not shown) on the Internet so that the corresponding device control program is downloaded from the server to the equipment controller controllers 5 and 5A. May be good.

1,1A, 1B, 1C equipment system, 2,2A self-employed wireless base station, 3 equipment, 4,4A, 4B, 4C mobile terminal, 5,5A equipment controller, 6 environment sensor, 7 biosensor, 8 wide area Wireless base station, 9 management server, 10 repeater, 40 user interface, 41 1st communication interface, 42 2nd communication interface, 43,51,91 CPU, 44,52,92 ROM, 45,53,93 RAM, 46 , 54,94 Secondary storage device, 47, 55, 95 Bus, 48 Third communication interface, 49 GPS signal reception circuit, 50, 90 communication interface, 400 Operation reception unit, 401, 401A Operation information transmission unit, 402 Environmental information Acquisition unit, 403 Environmental information transmission unit, 404 Biometric information acquisition unit, 405 Biometric information transmission unit, 406 Communication switching unit, 407,407A Identification information acquisition unit, 408 Location information acquisition unit, 409,409A Location information transmission unit, 500 Operation Information receiving unit, 501,501A Environmental information receiving unit, 502,502A Biometric information receiving unit, 503 Device control unit

Claims (10)

A self-employed radio base station that guarantees low latency performance at least in 5G mobile communication systems,
Equipment and
Mobile terminals carried by users and
Equipment controller and
It is equipped with an environmental sensor that detects the environmental state related to the environment in which the equipment is installed.
The mobile terminal
An operation receiving means for receiving an operation related to the equipment from the user, and an operation receiving means.
An environmental information acquisition means that communicates with the environmental sensor via a short-range wireless network conforming to a short-range wireless standard to acquire environmental information indicating the detected environmental state from the environmental sensor.
An operation information transmitting means for transmitting operation information indicating the received operation to the equipment controller via the self-employed radio network constructed based on the self-employed radio base station.
It is provided with an environmental information transmitting means for transmitting the acquired environmental information to the equipment controller via the self-employed wireless network.
The equipment controller is
An operation information receiving means for receiving the operation information transmitted from the mobile terminal via the self-employed wireless network, and
An environmental information receiving means for receiving the environmental information transmitted from the mobile terminal via the self-employed wireless network, and
An equipment equipment system including the equipment control means for controlling the equipment equipment based on the received operation information and the received environmental information. A biosensor that is attached to the user and detects the biometric data of the user is further provided.
The mobile terminal
A biometric information acquisition means that communicates with the biosensor via the short-range wireless network to acquire biometric information indicating the detected biometric data from the biosensor.
Further provided with a biometric information transmitting means for transmitting the acquired biometric information to the equipment controller via the self-employed wireless network.
The equipment controller further includes a biometric information receiving means for receiving the biometric information transmitted from the mobile terminal via the self-employed wireless network.
The equipment control means of the equipment controller controls the equipment based on the received operation information, the received environmental information, and the received biological information, according to claim 1. Equipment equipment system. The mobile terminal according to claim 1 or 2, further comprising a communication switching means for selectively switching between communication via a wide area wireless network provided by a telecommunications carrier and communication via the self-employed wireless network. Equipment equipment system. It is further equipped with a management server that manages the location of the equipment.
The mobile terminal
Identification information acquisition means for acquiring identification information of the equipment from the equipment by communication with the equipment via the self-employed wireless network.
Location information acquisition means that receives GPS signals and acquires location information,
The third aspect of the present invention further comprises a location information transmitting means for transmitting the acquired identification information and the location information in which the acquired location information is stored to the management server via the wide area wireless network. Equipment equipment system. A self-employed radio base station that guarantees low latency performance at least in 5G mobile communication systems,
Equipment and
An environmental sensor that detects the environmental state related to the environment in which the equipment is installed, and
Equipment controller and
Equipped with a repeater that expands the short-range wireless network in accordance with the short-range wireless standard,
The self-employed radio base station
A gateway means for connecting a self-employed radio network constructed based on the self-employed radio base station and the short-range radio network is provided.
The environmental sensor transmits environmental information indicating the detected environmental state to the equipment controller via the short-range wireless network.
The equipment controller is
An environmental information receiving means for receiving the environmental information transmitted from the environmental sensor via the self-employed wireless network, and
An equipment equipment system including an equipment control means for controlling the equipment based on the received environmental information. A biosensor that is attached to the user, detects the biometric data of the user, and transmits the biometric information indicating the detected biometric data to the equipment controller via the short-range wireless network is further provided.
The equipment controller further includes a biometric information receiving means for receiving the biometric information transmitted from the biometric sensor via the self-employed wireless network.
The equipment system according to claim 5, wherein the equipment control means of the equipment controller controls the equipment based on the received environmental information and the received biological information. Further equipped with a mobile terminal carried by the user,
The mobile terminal
An operation receiving means for receiving an operation related to the equipment from the user, and an operation receiving means.
An operation information transmitting means for transmitting operation information indicating the received operation to the equipment controller via the short-range wireless network is provided.
The equipment controller further includes an operation information receiving means for receiving the operation information transmitted from the mobile terminal via the self-employed wireless network.
The equipment system according to claim 5 or 6, wherein the equipment control means of the equipment controller controls the equipment in consideration of the received operation information. It is further equipped with a management server that manages the location of the equipment.
The mobile terminal
Identification information acquisition means for acquiring identification information of the equipment from the equipment by communication between the short-range wireless network and the equipment via the self-employed wireless network.
Location information acquisition means that receives GPS signals and acquires location information,
Further, a location information transmitting means for transmitting the acquired identification information and the location information in which the acquired location information is stored to the management server via a wide area wireless network provided by a telecommunications carrier. The equipment system according to claim 7. The mobile terminal carried by the user
Accepting operations related to equipment from the user,
Environmental information indicating the detected environmental state from the environmental sensor by communicating with the environmental sensor that detects the environmental state related to the environment in which the equipment is installed via the short-range wireless network conforming to the short-range wireless standard. To get and
The operation information indicating the received operation is transmitted to the equipment controller via the self-employed radio network constructed based on the self-employed radio base station that guarantees low latency performance at least in the 5th generation mobile communication system.
The acquired environmental information is transmitted to the equipment controller via the self-employed wireless network.
The equipment controller
The operation information and the environment information transmitted from the mobile terminal are received via the self-employed wireless network.
An equipment control method for controlling the equipment based on the received operation information and the received environmental information. A self-employed radio base station that guarantees low latency performance in at least a 5th generation mobile communication system connects a self-employed radio network constructed based on the self-employed radio base station and a short-range radio network conforming to a short-range radio standard. And
A repeater expands the short-range radio network and
An environmental sensor that detects an environmental state related to the environment in which the equipment is installed transmits the environmental information indicating the detected environmental state to the equipment controller via the short-range wireless network.
The equipment controller
The environmental information transmitted from the environmental sensor is received via the self-employed wireless network, and the environment information is received.
An equipment control method for controlling the equipment based on the received environmental information.

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