JP2022158169A - gateway - Google Patents

Abstract

To provide a gateway with improved convenience.SOLUTION: In an information processing system, a gateway 12 of a communication interface 10 includes: a first communication unit that transmits/receives information by wire or wirelessly to/from a plurality of devices 200 installed in a building; a second communication unit that transmits/receives information to/from a server device 20 via the Internet line; an energy management unit that manages energy in the building by transmitting/receiving information with one or more devices via the first communication unit; a sensor management unit that receives sensor information from the first communication unit, which is information from at least one of a temperature sensor, a humidity sensor, an opening/closing sensor that detects whether or not a building opening/closing mechanism is open, an illuminance sensor, and a human body detection sensor, among the plurality of devices; and a device operation management unit that controls, on the basis of the sensor information received by the sensor management unit, one or more home appliances among the plurality of devices via the second communication unit.SELECTED DRAWING: Figure 1

Description

The present disclosure relates to gateways.

A HEMS (Home Energy Management System) has been proposed that networks household electrical appliances and manages the energy consumption of the electrical appliances (Patent Document 1, etc.). For example, in HEMS, the power consumption of home appliances can be transmitted to a server device on the network via a gateway for HEMS, and the power consumption of home appliances can be viewed from a user's mobile information terminal or the like.

In recent years, sensor network systems that provide server devices with the detection results of sensors such as temperature sensors and human body detection sensors installed in buildings, and home appliances that control home appliances using information such as signals from server devices as triggers. An automation system has been proposed.

JP 2020-155855 A

However, the current situation is that dedicated gateways are used for sensor network systems and home automation systems, respectively. For example, building HMES, a sensor network system, and a home automation system in one building requires the use of three gateways, leaving room for improvement in terms of convenience.

The present disclosure has been made in view of such circumstances, and an object thereof is to provide a gateway with improved convenience.

According to one aspect of the present disclosure, a first communication unit that transmits/receives information to/from a plurality of devices installed in a building by wire or wirelessly, a second communication unit that transmits/receives information to/from a server device via an Internet line, an energy management unit that transmits and receives information to and receives information from one or more of the devices via one communication unit to manage energy in the building; a sensor management unit that receives from the first communication unit sensor information that is information from at least one of an open/close sensor that detects whether or not an open state is established, an illuminance sensor, and a human body detection sensor; and the sensor management unit. a device operation management unit that controls, through the second communication unit, one or more home appliances among the plurality of devices based on the sensor information received in the energy management unit; The sensor manager and the device operation manager are integrated gateways.

1 is a schematic configuration diagram of an information processing system according to the present embodiment; FIG. 1 is a schematic configuration diagram of a gateway according to the embodiment; FIG. 1 is a schematic configuration diagram of a server device according to the embodiment; FIG.

FIG. 1 is a schematic configuration diagram of an information processing system 1 according to this embodiment. In the information processing system 1 according to the present embodiment, a user uses a communication terminal such as a smart phone to remotely operate a device 200 provided in the user's building 100 via the Internet and obtain information of the device 200. It is a home network system. The building 100 is a residence such as an apartment or a detached house, a hospital, a facility, or the like. In this embodiment, a case where the building 100 is the user's residence will be described.

The devices 200 installed in the building 100 are home appliances, sensors, etc. installed in one or more spaces within the site of the building 100 .

Home appliances include, for example, lighting equipment, air conditioners, washing machines, refrigerators, televisions, smart speakers, electric windows, electric shutters, electric blinds, electric curtains, electronic locks, interphones, water heaters, solar power generation systems, and smart distribution systems. They include boards, smart meters, hot water supply equipment, power storage devices, and cameras that capture images of the interior or exterior of the room. The sensors are, for example, a temperature sensor, a humidity sensor, an opening/closing sensor for detecting whether or not an opening/closing member of a building is in an open state, an illuminance sensor, a human detection sensor, and the like. The opening/closing body of a building is a door, a window, an entrance, or the like.

The building 100 has a plurality of spaces such as, for example, a living room, kitchen, bathroom, entrance, children's room, study, and bedroom. For example, one or more devices 200 are installed in each of these multiple spaces.

As shown in FIG. 1 , the information processing system 1 includes a communication interface 10 and a server device 20 . A communication interface 10 includes a router 11 and a gateway 12 . The communication interface 10 is installed inside a building 100, for example.

The router 11 is connected to the server device 20 via the Internet line NW. The router 11 is connected to the gateway 12 wirelessly or via a wire (for example, a wired LAN). Router 11 relays information between server device 20 and gateway 12 .

One or more devices 200 are connected to the gateway 12 by wire or wirelessly. A plurality of devices 200 are connected to the gateway 12 of this embodiment by wire or wirelessly.

FIG. 2 is a schematic configuration diagram of the gateway 12 of this embodiment. The gateway 12 includes, for example, a first communication section 30, a second communication section 31, an energy management section 32, a sensor management section 33, and a device operation management section . These components are implemented by executing a program (software) by a hardware processor such as a CPU (Central Processing Unit). Some or all of these components are hardware such as LSI (Large Scale Integrated circuit), ASIC (Application Specific Integrated Circuit), FPGA (Field-Programmable Gate Array), GPU (Graphics Processing Unit) (circuit part ; including circuitry), or by cooperation of software and hardware. The program may be stored in advance in a storage device (a storage device with a non-transitory storage medium) such as a HDD (Hard Disk Drive) or flash memory, or may be stored in a removable storage such as a DVD or CD-ROM. It may be stored in a medium (non-transitory storage medium) and installed in the storage device by loading the storage medium into the drive device. The storage device is configured by, for example, an HDD, flash memory, EEPROM (Electrically Erasable Programmable Read Only Memory), ROM (Read Only Memory), or RAM (Random Access Memory).

The first communication unit 30 transmits/receives information to/from one or more devices 200 installed in the building 100 by wire or wirelessly. For example, the first communication unit 30 transmits/receives information to/from a plurality of devices 200 installed in the building 100 by wire or wirelessly. The transmission path between the first communication unit 30 and the plurality of devices 200 may be a wireless communication transmission path (for example, a wireless LAN), a wired communication transmission path, or a wireless communication transmission path. It may also be a combination of transmission lines for transmission lines and wired communication. For the transmission path between the first communication unit 30 and the plurality of devices 200, for example, a low-power wide-area network (LPWAN) may be used, or ZigBee, which is a short-range wireless communication standard, may be used. (registered trademark), WiFi (registered trademark), Bluetooth (registered trademark), or the like may be used. The transmission paths between the first communication unit 30 and the plurality of devices 200 may not all be the same transmission path.

The first communication unit 30 has, for example, communication functions of a plurality of different communication schemes. Among the plurality of devices 200, there is a device that uses a wireless communication method different from that of other devices. The first communication unit 30 is configured to be able to communicate with each of the devices 200 even when the plurality of devices 200 include devices with different wireless communication methods.

The second communication unit 31 transmits and receives information to and from the server device 20 via the Internet line NW. For example, the second communication unit 31 transmits and receives information to and from the server device 20 via the router 11 .

The energy management unit 32 manages energy in the building 100 by transmitting/receiving information to/from one or more devices 200 via the first communication unit 30 . The energy management unit 32 has a function of a HEMS controller.

The energy management unit 32 controls or monitors a HEMS-compatible device (hereinafter referred to as “HEMS device”) among the plurality of devices 200 and the HEMS device via the first communication unit 30 . HEMS devices include, for example, smart meters, solar power generation systems, power storage devices, air conditioners, lighting fixtures, water heaters, refrigerators, electric curtains, electric shutters, televisions, and the like. However, the HEMS device is not limited to these devices.

For example, the energy management unit 32 receives energy information including information on energy consumed by the HEMS device via the first communication unit 30 . Based on the received energy information, the energy management unit 32 controls one or more HEMS devices so that energy consumption by the HEMS devices is suppressed. The energy is at least one of electricity, gas and water.

As an example, the energy management unit 32 receives energy information including information such as the amount of power measured by the smart meter, the amount of power stored in the power storage device, and the power generated by the solar power generation system via the first communication unit 30. . The energy management unit 32 transmits the received energy information from the second communication unit 31 to the server device 20 via the router 11 . The energy management unit 32 supplies the amount of power stored in the power storage device and the power generated by the photovoltaic power generation system to air conditioners, lighting fixtures, water heaters, refrigerators, etc. so as to suppress the amount of power measured by the smart meter. Stop unnecessary operations of the HEMS equipment.

The sensor management unit 33 transmits sensor information, which is information from at least one of a temperature sensor, a humidity sensor, an opening/closing sensor, an illuminance sensor, and a human body detection sensor among the plurality of devices 200, to the first communication unit 30. to receive via The sensor management unit 33 transmits the received sensor information to the server device 20 via the second communication unit 31 . The sensor management section 33 may output the received sensor information to the device operation management section 34 . The sensor management unit 33 has the function of a sensor network system that receives sensor information from multiple devices 200 and transmits it to other devices or functional units.

The device operation management unit 34 has a function of a home automation system that controls the operation of the device 200 (home appliance) with some signal as a trigger. For example, the device operation management unit 34 controls one or more home electric appliances among the plurality of devices 200 via the second communication unit 31 based on sensor information received by the sensor management unit 33 . The device 200 controlled by the device operation management unit 34 may be a home appliance, and may be a HEMS device or a home appliance that is not a HEMS device.

For example, the device operation management section 34 determines whether or not a predetermined condition is satisfied based on the sensor information received by the sensor management section 33 . When a predetermined condition is satisfied, the device operation management unit 34 causes the home appliance to perform an operation associated with the predetermined condition. The predetermined condition can be arbitrarily set by the user. The predetermined condition may be one or plural.

For example, the predetermined condition is that the temperature in the room falls below a predetermined value, and this condition is associated with operation information to start heating of the air conditioner. In this case, the device operation management unit 34 determines whether the detection result of the temperature sensor from the sensor management unit 33 is below a predetermined value, and if the detection result of the temperature sensor is below the predetermined value, The heating operation of the air conditioner is started via the first communication unit 30 .

For example, the predetermined condition is a condition that a person is present in the room, and this condition is associated with operation information for turning on a lighting device in the room. In this case, the device operation management section 34 determines whether or not there is a person in the room based on the signal from the human body detection sensor. When the device operation management unit 34 determines that a person is present in the room based on the signal from the human body detection sensor, the device operation management unit 34 turns on the lighting equipment in the room. However, the predetermined conditions are not limited to the above examples.

The trigger for controlling the device 200 in the device operation management unit 34 is not limited to sensor information, and may be information from the server device 20, for example. For example, the device operation management section 34 may control the operation of the device 200 based on control commands obtained from the server device 20 . For example, when acquiring a control command from the server device 20, the device operation management unit 34 controls the operation of one or more devices 200 based on the control command. For example, the control command is command information including information specifying the device 200 and an operation instruction to the device such as operating the device 200 or stopping the operation of the device 200 .

The device operation management section 34 may control the operation of the device 200 according to preset rules. For example, the device operation management unit 34 may start supplying hot water to the bath or close the electric shutter at a preset set time.

The energy manager 32 , sensor manager 33 , and device operation manager 34 are integrated in one gateway 12 . As a result, when constructing the HMES, the sensor network system, and the home automation system for the building 100, there is no need to use the respective gateways, and it is possible to construct with one gateway 12, improving convenience.

The energy manager 32, the sensor manager 33, and the device operation manager 34 can cooperate with each other. The sensor information obtained by the sensor management unit 33 is not transmitted to the energy management unit 32 or the device operation management unit 34 via the router 11 or the server device 20, but is sent from the sensor management unit 33 to the energy management unit 32 or the device It is sent directly to the operation management section 34 . This allows the gateway 12 to quickly control the device 200 .

An example of the server device 20 of this embodiment will be described. The server device 20 may be arranged on the Internet or on the cloud. The server device 20 is connected to the router 11 via the Internet line NW. The server device 20 transmits and receives various information to and from the gateway 12 via the Internet line NW. The server device 20 communicates with the user's communication terminal 300 by wire or wirelessly.

Communication terminal 300 is, for example, a mobile communication terminal that can be carried by a user. For example, the communication terminal 300 is one of a mobile phone, a smart phone, a tablet terminal, and a notebook computer. Communication terminal 300 may be a wearable terminal or the like. Communication terminal 300 is not particularly limited to whether or not it can be carried by the user. For example, communication terminal 300 may be a computer.

The user operates communication terminal 300 to activate a predetermined application and perform user authentication, thereby enabling communication between server device 20 and communication terminal 300 . The communication terminal 300 can acquire at least one of energy information and sensor information from the server device 20 and display the acquired information on the display screen of the communication terminal 300 . Thereby, the user can grasp the amount of energy consumed in the building 100 , the operating state of the device 200 , and the situation in the building 100 .

Communication between the server device 20 and the communication terminal 300 may be a wireless communication transmission path (for example, a wireless LAN), a wired communication transmission path, or a wireless communication transmission path and wired communication. transmission lines may be combined. For communication between the server device 20 and the communication terminal 300, for example, a power-saving wide area network may be used, or a short-range wireless communication standard such as ZigBee, WiFi, Bluetooth, or the like may be used.

A user can transmit a control command to the gateway 12 via the server device 20 by operating the communication terminal 300 . Therefore, the user can remotely control the operation of any device 200 in the building 100 by operating the communication terminal 300 .

FIG. 3 is a schematic configuration diagram of the server device 20 of this embodiment. As shown in FIG. 3 , the server device 20 has a storage section 21 and a control section 22 .

The storage unit 21 stores correspondence information in which user information and identification information of a communication control device (for example, the gateway 12) are associated with each other. The user information may be any information about the user. For example, the user information is the information of the user who uses the service provided by the information processing system 1 . User information is registered in the storage unit 21 in advance. For example, the user information is information for logging into the server device 20, and includes user identification information (for example, ID) and password.

The control unit 22 executes user authentication in response to a user authentication request from the communication terminal 300 . For example, the control unit 22 performs user authentication by determining whether information included in the user's authentication request matches any of a plurality of pieces of user information stored in the storage unit 21 . When the user authentication is successful, the control unit 22 connects to the gateway 12 associated with the user information.

When the user authentication is completed, the control unit 22 transmits or receives information via the communication terminal 300 and a mobile communication network such as a mobile phone network. For example, the control unit 22 receives at least one of energy information and sensor information from the gateway 12 via the Internet line NW2 and transmits the received information to the communication terminal 300 . Upon receiving a control command from communication terminal 300, control unit 22 transmits the control command to gateway 12 via the Internet line.

The gateway 12 of the present embodiment has a configuration that integrates gateway functions used for HEMS, home automation, and sensor networks. Thereby, by purchasing one gateway 12, the user can use various services such as HEMS, home automation, and sensor network, thereby improving convenience. The gateway 12 allows the HEMS, home automation and sensor network functions to work together rather than being independent.

When using gateways for home automation and sensor networks, the server apparatus controls the device 200 based on sensor information. For example, the server device acquires sensor information from the gateway of the sensor network via the Internet line, and sends a command to the home automation gateway to control the devices in the building based on the acquired sensor information. When the home automation gateway receives the command, it controls the device 200 according to the command.

The gateway 12 of this embodiment does not need to transmit sensor information to the server device 20 when controlling the device 200 based on sensor information. The gateway 12 of this embodiment determines whether or not to control the device 200 based on the sensor information without receiving a command from the server device. The gateway 12 of the present embodiment controls the device 200 when determining to control the device 200 . With such a configuration, it is possible to more quickly control the device 200 based on sensor information.

The gateway 12 of this embodiment transmits and receives information to and from one or more devices 200 via the first communication unit 30 to manage energy within the building 100 . The gateway 12 receives sensor information from at least one of a temperature sensor, a humidity sensor, an open/close sensor, an illuminance sensor, and a human body detection sensor among the plurality of devices 200 from the first communication unit 30 . Thereby, the gateway 12 controls one or more home electric appliances among the plurality of devices 200 via the second communication unit 31 based on the received sensor information. Thereby, the three functions of HEMS, home automation, and sensor network can be realized with one gateway 12 without using a plurality of gateways for each of HEMS, home automation, and sensor network.

The embodiments of this disclosure have been described in detail above with reference to the drawings, but the specific configuration is not limited to these embodiments, and designs and the like are included within the scope of this disclosure.

The predetermined conditions described above can be set by the communication terminal 300 of the user. For example, the user logs into the server apparatus 20 using the communication terminal 300 and inputs predetermined conditions and operation information of the device 200 corresponding to the conditions. The server device 20 registers in the gateway 12 the predetermined condition input by the communication terminal 300 and information on the operation of the device 200 corresponding to the condition.

Reference Signs List 1 information processing system 10 communication interface 11 router 12 gateway 20 server device 30 first communication unit 31 second communication unit 32 energy management unit 33 sensor management unit 34 device operation management unit

Claims (5)

a first communication unit that transmits and receives information by wire or wirelessly to and from a plurality of devices provided in the building;
a second communication unit that transmits and receives information to and from the server device via the Internet line;
an energy management unit that transmits and receives information to and from the one or more devices via the first communication unit to manage energy in the building;
A sensor that is information from at least one of a temperature sensor, a humidity sensor, an opening/closing sensor that detects whether or not the opening/closing member of the building is open, an illuminance sensor, and a human body detection sensor among the plurality of devices. a sensor management unit that receives information from the first communication unit;
a device operation management unit that controls, through the second communication unit, one or more home appliances among the plurality of devices based on the sensor information received by the sensor management unit;
with
the energy manager, the sensor manager, and the device operation manager are integrated;
gateway. The energy management unit receives energy information including information on energy consumed by the device via the first communication unit, and energy consumption by the device is suppressed based on the received energy information. controlling one or more of said devices to
A gateway according to claim 1 . The sensor management unit transmits the sensor information to the server device via the second communication unit,
A gateway according to claim 1 or claim 2. The device operation management unit determines whether or not a predetermined condition is satisfied based on the sensor information obtained from the sensor management unit, and associates the predetermined condition with the predetermined condition when the predetermined condition is satisfied. to perform the operation of the home appliance,
A gateway according to any one of claims 1 to 3. the energy is at least one of electricity, gas, and water;
A gateway according to any one of claims 1 to 4.

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