JP2016038799A - Communication system and apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication system capable of performing authentication processing for exchanging data with a smart meter (SM) even when a control unit cannot perform radio communication with the SM.SOLUTION: A communication system 10 includes: a control unit 100 constituting a communication network; and one or more apparatuses (200, 200x, 200y). In order to request an authentication to a smart meter (SM) 300, the apparatus 200 etc. includes: a mounting part 230 for mounting a specific communication device 290 which performs a radio communication with the SM 300; and a transmission section 225 that, when the specific communication device 290 is mounted on the mounting part 230, transmits a piece of information acquired from the specific communication device 290 to the control unit 100. The control unit 100 has a reception section 123 that receives a piece of information transmitted from the apparatus 200.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a communication system, and more particularly to a communication system that performs wireless communication with a smart meter.

  Conventionally, HEMS (Home Energy Management System) which performs energy management in a home is known. In HEMS, a HEMS controller controls one or more HEMS devices in a home via a HAN (Home Area Network) in order to suppress energy consumption.

  Conventionally, there has been known a terminal that reads usage data from a meter through an authentication process for transmitting information that matches information registered in advance in a meter (smart meter) that measures the usage of gas, electricity, water, and the like. (See Patent Document 1).

JP 2014-11659 A

  By the way, in order to use the power usage amount at home in HEMS, there are cases where the HEMS controller cannot acquire the measurement result such as the power usage amount from the smart meter by wireless communication. For example, when the HEMS controller is installed at a position far beyond the reach of the radio wave from the smart meter, the HEMS controller is not authenticated by the smart meter because wireless communication is not possible.

  Therefore, the present invention provides a communication system that enables an authentication process for data exchange with a smart meter even when a control device (for example, a HEMS controller) cannot wirelessly communicate with the smart meter in the communication system (for example, HEMS). I will provide a. Moreover, this invention provides the apparatus used for this communication system.

In order to solve the above problems, a device according to one aspect of the present invention is a device used in one facility together with a control device, and measures the amount of energy used in the facility and uses the measurement result as a condition of successful authentication. A mounting unit for mounting a specific communication device that performs wireless communication with the smart meter in order to request authentication with respect to the smart meter that transmits information based on;
A transmission unit that transmits information acquired from the specific communication device to the control device when the specific communication device is mounted on the mounting unit.

  In order to solve the above problem, a communication system according to an aspect of the present invention is a communication system including a control device and one or more devices that configure a communication network for exchanging information at one facility, The device wirelessly communicates with the smart meter in order to request authentication to the smart meter that measures the amount of energy used in the facility and transmits information based on the measurement result on the condition of successful authentication. A mounting unit for mounting the specific communication device for performing, and a transmission unit for transmitting information acquired from the specific communication device to the control device when the specific communication device is mounted on the mounting unit, The said control apparatus is a communication system provided with the receiving part which receives the said information which concerns on the said specific communication apparatus transmitted from the said apparatus.

  The communication system and apparatus of the present invention enables authentication processing with a smart meter even when the control device cannot communicate wirelessly with the smart meter, thereby enabling the control device to acquire information from the smart meter.

1 is a system schematic diagram illustrating a relationship between a communication system, a smart meter, and a management device according to a first embodiment. It is a block diagram which shows the structure of the control apparatus which concerns on Embodiment 1, an apparatus, a specific communication apparatus, and a smart meter. It is an external view of an apparatus and a specific communication apparatus. It is a functional block diagram of a communication system and a smart meter. It is a figure which shows the protocol stack used with a communication system. It is a flowchart which shows operation | movement of a control apparatus. It is a flowchart which shows operation | movement of an apparatus. It is a sequence diagram which shows the communication procedure between a control apparatus, an apparatus, a specific communication apparatus, and a smart meter.

(Embodiment 1)
Hereinafter, embodiments will be described with reference to the drawings. Each of the embodiments shown here shows a specific example of the present invention. Accordingly, the numerical values, shapes, materials, components, component arrangement and connection forms, steps (steps) and order of steps, and the like shown in the following embodiments are examples and limit the present invention. is not. Among the constituent elements in the following embodiments, constituent elements that are not described in the independent claims can be arbitrarily added. Each figure is a mimetic diagram and is not necessarily illustrated strictly.

  Hereinafter, a communication system according to an embodiment of the present invention will be described.

(Constitution)
FIG. 1 is a system schematic diagram illustrating a relationship between the communication system 10, the smart meter 300, and the management device 40 according to the embodiment. The system shown in the figure is a so-called next-generation power communication network (smart grid), and a smart meter 300 and a power company installed in each customer (customer 11, customer 11a, etc.) for power management. The management apparatus 40 installed in 41 can communicate with the network. Here, the consumer is a person who is supplied with electric power from an electric power company, and here also refers to the facility (for example, a house) of the person.

  The smart meter 300 installed in each consumer has a function of measuring the amount of power used by the consumer. Data from each customer's smart meter 300 (power consumption measurement results, etc.) is collected in the concentrator 31 and transmitted to the management device 40. The communication path from the smart meter 300 to the management device 40 is referred to as A route. The concentrator 31 is a concentrator that collects data from a plurality of smart meters 300, for example, installed on a power pole for distribution lines. The management device 40 is an MDMS (Meter Data Management System) server, an authentication server, or the like that collects data and performs processing such as charging processing, analysis, and control based on the collected data.

  A communication path that transmits data (measurement result of power consumption) from the smart meter 300 to the communication system 10 (for example, HEMS) side in the consumer so that the measurement result can be utilized in the consumer is referred to as a B route. . For example, when the HEMS receives the measurement result of the power usage amount from the smart meter 300 through the B route and displays the measurement result using a HEMS device having a display unit such as a tablet, the power usage amount can be seen by a consumer. “Visualization of energy” is realized. Further, for example, the HEMS controller can control the HEMS device in order to suppress power usage based on the measurement result of the power usage acquired from the smart meter 300.

  The communication system 10 includes a control device 100 capable of communicating with each other and one or more devices (for example, 10 devices) (device 200, device 200x, device 200y, etc.). The control device 100 is a device that controls each device by exchanging data with each device, for example, and can be connected to a WAN (Wide Area Network) 42 such as the Internet outside the customer. A specific communication device 290 for wireless communication with the smart meter 300 is attached to one of the devices (device 200) by a user, that is, a user of the communication system 10.

  Hereinafter, the B route between the communication system 10 and the smart meter 300 in the customer 11 will be described in detail.

  FIG. 2 is a configuration diagram illustrating main configurations (hardware configurations) of the control device 100, the device 200, the specific communication device 290, and the smart meter 300.

  The control device 100 is a HEMS controller that exchanges data with a HEMS device when the communication system 10 is a HEMS, and is accommodated in, for example, a distribution board installed in a house (house) of the consumer 11. As illustrated in FIG. 2, the control device 100 includes a power supply unit 101, a memory 102, a wireless circuit 103, a communication circuit 104, and a CPU (Central Processing Unit) 105. The control device 100 may include input means such as a keyboard (not shown) and may include an output unit (for example, a display).

  The power supply unit 101 is a power supply circuit that supplies power to each unit of the control device 100, and is a power supply circuit that converts, for example, AC power supplied from the power system into power necessary for each unit.

  The memory 102 is a ROM that stores a program and data in advance, a RAM that is used to store data when the program is executed, and may include, for example, a nonvolatile memory.

  The wireless circuit 103 is a communication circuit connected to an antenna, for example, a communication circuit for performing wireless communication in the 920 MHz band in accordance with the IEEE 802.15.4g standard.

  The communication circuit 104 is a communication circuit connected to the WAN.

  The CPU 105 performs processing such as control of the wireless circuit 103 and the communication circuit 104 by executing a program stored in the memory 102.

  The device 200 is a HEMS device when the communication system 10 is a HEMS, such as a tablet, a lighting fixture, an air conditioner (air conditioner), an electromagnetic cooker, a hot water supply device, a television receiver, a solar cell, a power conditioner, a storage battery, and the like. One of various electrical devices.

  As illustrated in FIG. 2, the device 200 includes a power supply unit 201, a memory 202, a wireless circuit 203, a function unit 204, a CPU 205, and a USB (Universal Serial Bus) interface 206.

  The power supply unit 201 is a power supply circuit that supplies power to each unit of the device 200. For example, the power supply unit 201 is a power supply circuit that converts AC power supplied from the power system into power necessary for each unit.

  The memory 202 is a ROM that stores a program and data in advance, a RAM that is used to store data when the program is executed, and may include a non-volatile memory, for example.

  The wireless circuit 203 is a communication circuit connected to an antenna, for example, a communication circuit for performing wireless communication in the 920 MHz band in accordance with the IEEE 802.15.4g standard.

  The functional unit 204 is a circuit, mechanism, or the like for realizing the main functions of the device 200. If the device 200 is, for example, a lighting fixture, it is a light source, a lighting control circuit, or the like. A control circuit or the like.

  The CPU 205 performs processing such as control of the wireless circuit 203 and the functional unit 204 by executing a program stored in the memory 202.

  The USB interface 206 is an interface for connecting various USB devices that are peripheral devices, and the specific communication device 290 can be attached to the USB interface 206.

  The other devices 200x and 200y configuring the communication system together with the device 200 have the same configuration as the device 200, but the function unit 204 is a circuit, a mechanism, or the like according to the main function of each device.

  As illustrated in FIG. 2, the specific communication device 290 includes a wireless circuit 292, a memory 293, and a CPU 294, and is a USB device for performing wireless communication with the smart meter 300. The specific communication device 290 is detachable from the USB interface 206 of the device 200. FIG. 3 is an external view of the device 200 and the specific communication device 290. In the figure, an example in which the device 200 is a tablet including a touch panel 208 is shown. When the USB plug (male connector) 291 of the specific communication device 290 is inserted into the USB socket (female connector) 209 in the USB interface 206 of the device 200, the device 200 and the specific communication device 290 are electrically connected.

  The wireless circuit 292 in the specific communication device 290 is a communication circuit connected to an antenna, for example, a communication circuit for performing wireless communication with the smart meter 300 in the 920 MHz band in accordance with the IEEE 802.15.4g standard.

  The memory 293 in the specific communication device 290 is a ROM that stores a program and data in advance, a RAM that is used to store data when the program is executed, and may include a nonvolatile memory, for example.

  The CPU 294 in the specific communication device 290 performs processing such as control of the wireless circuit 292 by executing a program stored in the memory 293.

  As shown in FIG. 2, the smart meter 300 includes a power supply unit 301, a power measurement unit 302, a CPU 303, a memory 304, a wireless circuit 305, and a CPU 306.

  The power supply unit 301 is a power supply circuit that converts power supplied from a power system through a power supply line into power necessary for each unit.

  The power measuring unit 302 is a circuit (electronic watt hour meter) that measures the amount of power used from the power system to the customer's facility through the power line.

  The CPU 303 executes a program stored in the memory 304 to cause the power measuring unit 302 to sequentially measure the amount of power used, and performs processing to acquire the measurement result and store it in the memory 304.

  The memory 304 is a ROM that stores a program and data in advance, a RAM that is used to store data when the program is executed, and may include a non-volatile memory, for example.

  The wireless circuit 305 is a communication circuit connected to an antenna, for example, a communication circuit for performing wireless communication in the 920 MHz band in accordance with the IEEE 802.15.4g standard.

  The CPU 306 performs processing such as control of the wireless circuit 305 by executing a program stored in the memory 304.

  FIG. 4 is a functional block diagram illustrating main components in terms of functions of the control device 100, the device 200, the specific communication device 290, and the smart meter 300 having the above-described hardware configuration. The control device 100, the device 200, and the specific communication device 290 are components of the communication system 10 (HEMS or the like).

  As shown in FIG. 4, the control device 100 includes a reception unit 110, an authentication unit 121, a transmission unit 122, a reception unit 123, a recording unit 124, and an instruction unit 125 in terms of functions.

  The accepting unit 110 is realized by an input unit such as a keyboard, and has a function of accepting input of B route authentication information from a consumer, that is, a user, and transmitting the information to the communication control unit 120. The B-root authentication information is information including a B-root authentication ID and a password for identifying a user in an electric power company or the like when the user uses the B-route for the smart meter 300. The B route authentication ID and the B route authentication information are managed by an electric power company or the like, and are used to authenticate devices that access the smart meter 300. Note that the B root authentication information may be only a part (eight digits) of a 32-digit hexadecimal B-root authentication ID as long as it is information including at least a part of the B-root authentication ID. In order to use the measurement result of the power consumption in the communication system 10 of the customer, the user receives a document (postcard or the like) describing the information for B route authentication from, for example, an electric power company where the smart meter 300 is installed, The B root authentication information is input to the control device 100.

  The authentication unit 121 is realized by the CPU 105 and the wireless circuit 103 that execute a program, and has a function of authenticating a device when an authentication request is received from a device added to the communication system 10 (HEMS or the like). This authentication is a premise of network access, that is, data exchange in the communication system 10, and if authentication is successful, the key necessary for data encryption processing and data decryption processing is exchanged. Data can be exchanged properly between the two. Device authentication information used for device authentication in the communication system 10 is set in the control device 100 and the device 200 in advance. This setting is made through user input, operation, and the like. For example, the device authentication information held in advance by the control device 100 is displayed as a QR code (registered trademark) printed on a paper or the like attached to the housing of the control device 100, and is photographed by the camera of the device. The device authentication information can be set by reading a QR code (registered trademark). If the device does not have a photographing unit such as a camera, the device authentication information may be set by the user inputting a numerical value printed on paper or the like in the control device 100 to the device. By the above-described device authentication, the device in the consumer 11a is prevented from accessing the network of the communication system 10 in the customer 11, and security is ensured. Note that information (such as an address) about the authenticated device is held in the memory 102 or the like and used as necessary.

  The transmission unit 122 is realized by the CPU 105 that executes the program and the wireless circuit 103, and has a function of transmitting the B route authentication information transmitted from the reception unit 110 to the device.

  The reception unit 123 is realized by the CPU 105 and the wireless circuit 103 that execute a program, and receives a mounting notification indicating that the specific communication device 290 is mounted, success information indicating that the authentication by the smart meter has been successful, and the like from the device. Have

  The recording unit 124 is realized by an area of the memory 102 and the CPU 105, and has a function of recording device information indicating the device in the memory 102 when success information is received from the device by the receiving unit 123. This device information is referred to when it is necessary to exchange data with the smart meter 300 in the control device 100, and the control device 100 controls the device indicated by the device information, for example, to determine the power usage amount in the smart meter 300. Get measurement results.

  The instruction unit 125 has a function of transmitting an instruction to acquire the measurement result of the power usage amount in the smart meter 300 to the device indicated by the device information.

  As shown in FIG. 4, the device 200 includes an authentication request unit 221, a reception unit 222, a transmission unit 223, a control unit 224, a transmission unit 225, a mounting unit 230, and a functional unit 240 in terms of functions.

  The authentication request unit 221 is realized by the CPU 205 and the wireless circuit 203 that execute the program, and has a function of requesting the control device 100 to perform authentication by wireless communication using preset device authentication information. This authentication is a prerequisite for data exchange in the network (such as HAN) of the communication system 10. If the authentication by the control device 100 is successful, keys necessary for data encryption processing and decryption processing are exchanged, and the device 200 can exchange data with the control device 100 appropriately.

  The receiving unit 222 is realized by the CPU 205 and the wireless circuit 203 that execute a program, and has a function of receiving information from the control device 100. The information to be received includes information for B route authentication, control information such as an instruction to acquire a measurement result of the power usage amount in the smart meter 300, and the like.

  The transmission unit 223 is realized by the CPU 205 that executes a program, and has a function of transmitting (transmitting) the B route authentication information received by the reception unit 222 to the specific communication device 290 mounted on the mounting unit 230.

  The control unit 224 is realized by the CPU 205 that executes a program. The control unit 224 transmits a function for controlling the function unit 240 or the specific communication device 290 according to the control information received by the reception unit 222 and information indicating the control result. A function of transmitting to

  The transmission unit 225 is realized by the CPU 205 and the wireless circuit 203 that execute a program, and has a function of transmitting information transmitted from the control unit 224 to the control device 100. The transmission unit 225 further has a function of transmitting, to the control device 100, a mounting notification indicating that the specific communication device 290 is mounted on the device 200.

  The mounting unit 230 is realized by the USB interface 206 including the USB socket 209 and has a function of detachably mounting the specific communication device 290 that is a USB device.

  The functional unit 240 bears the main function of the device 200. If the device 200 is a tablet, for example, the function unit 240 has a function of acquiring a measurement result from the smart meter 300 and displaying the measurement result on a display according to a user operation or the like. The function unit 240 is realized by the function unit 204, the CPU 205, and the like.

  As shown in FIG. 4, the specific communication device 290 includes a storage unit 295 and an authentication request unit 296 in terms of functions.

  The storage unit 295 is realized by one area of the memory 293 and has a function of storing the B route authentication information transmitted from the device 200.

  The authentication request unit 296 is realized by the CPU 294 that executes the program and the wireless circuit 292, and has a function of requesting the smart meter 300 to perform authentication by wireless communication using the B route authentication information stored in the storage unit 295. . This authentication is a prerequisite for data exchange on the B route, and if authentication is successful, keys necessary for data encryption processing and data decryption processing are exchanged so that data can be exchanged appropriately. If the authentication is successful, the authentication request unit 296 notifies the device 200 of success information indicating that the authentication is successful. By exchanging keys, for example, a secret key (common key) in a secret key cryptosystem can be shared. However, any encryption method may be used for encryption processing and decryption processing. In communication system devices (control devices, devices, and specific communication devices) that send and receive data to and from the smart meter via the B route, encryption and decryption are performed using a key obtained from the smart meter. Can be done in parts. Alternatively, the key may be acquired from the specific communication device, and encryption and decryption may be performed by the device or the control device.

  If the authentication of the B route is successful, each device in the communication system 10 and the control device 100 acquire data such as a measurement result of the power consumption from the smart meter 300 via the device 200 equipped with the specific communication device 290. Can be used. In order to use the measurement result of the power consumption by the smart meter 300, the user selects one device suitable for wireless communication with the smart meter 300 from the devices constituting the communication system 10, and The specific communication device 290 may be attached to the device. An example of a device suitable for wireless communication with the smart meter 300 is a device located closest to the installation position of the smart meter 300 among the devices. If there is at least one device capable of wireless communication with the smart meter 300 in the communication system 10, each device in the communication system 10 receives data from the smart meter 300 by attaching the specific communication device 290 to the device. Will be available.

  As shown in FIG. 4, the smart meter 300 includes a measurement unit 310 and a communication control unit 320 in terms of functions.

  The measurement unit 310 is realized by the power measurement unit 302 and the CPU 303, and has a function of sequentially measuring the amount of power used by a consumer.

  The communication control unit 320 is realized by the wireless circuit 305 and the CPU 306 and includes an authentication unit 321. The communication control unit 320 has a function of performing wireless transmission by performing an encryption process using a predetermined key on the measurement result of the power consumption measured by the measurement unit 310. If the authentication unit 321 successfully authenticates the device (such as the specific communication device 290 or the device 200 equipped with the specific communication device 290), a key for decryption is given, so that the transmitted measurement result is appropriately Can be used.

  The authentication unit 321 verifies whether or not the B-route authentication information received when receiving an authentication request from a device (such as the specific communication device 290) is valid and is valid. Has a function to handle that authentication is successful. In order to verify whether the B-route authentication information received from the devices (such as the specific communication device 290) is valid, the authentication unit 321 uses, for example, verification information set in advance in the smart meter 300 Is used. Or the authentication part 321 is good also as requesting verification to the authentication server in the management apparatus 40 which has the information for verification previously via A route | root, and obtaining the result. The authentication unit 321 exchanges keys necessary for data encryption processing and decryption processing for devices that have been successfully authenticated.

  The smart meter 300 has a function of transmitting the measurement result of the power consumption to the management device 40 via the A route, and control of the power supply line to the consumer under the control of the management device 40 (connection and disconnection). And the like.

  The protocol stack (protocol group) used for communication (data transmission / reception) by the control device 100, the device 200, the specific communication device 290, and the smart meter 300 having the above configuration is shown in FIG. 5, for example, if the communication system 10 is HEMS. It will be a thing.

  That is, for example, the physical layer is IEEE 802.15.4g, the MAC layer in the data link layer is IEEE 802.15.4, the adaptation layer (part of the network layer) is 6LoWPAN (IPv6 over Low power Wireless Personal Area Networks), and the network layer is IPv6 (Internet Protocol version 6), the transport layer is UDP (User Datagram Protocol), and the application layer is ECHONET Lite (registered trademark) and PANA (Protocol for carrying Authentication for Network Access). PANA is an authentication protocol (network access authentication protocol) for sending and receiving EAP (Extensible Authentication Protocol) messages over UDP / IP, standardized as RFC 5191 by IETF (Internet Engineering Task Force). EAP is an authentication protocol corresponding to various authentication methods (for example, authentication by password, authentication by certificate, etc.). When the communication system 10 is not HEMS, for example, in the case of BEMS (Building Energy Management System), FEMS (Factory Energy Management System), etc., ECHONET Lite (registered trademark) of the application layer is changed to another protocol suitable for the system. May be.

  In the communication system 10, the authentication protocol used for the specific communication device 290 or the device 200 equipped with the specific communication device 290 to receive authentication from the smart meter 300 is PANA. PANA is also used as an authentication protocol for the device 200 to receive authentication from the control device 100. Here, it is assumed that the same authentication protocol (referred to as a specific authentication protocol) is used for device authentication and authentication on the B route in the communication system 10.

(Operation)
Hereinafter, the operation of the control device 100 in the communication system 10 having the above-described configuration will be described with reference to FIG.

  FIG. 6 is a flowchart showing the operation of the control device 100. In the figure, for the sake of convenience, some operations related to abnormality processing are omitted.

  The control device 100 sets device authentication information (device authentication information setting) (step S11). This is based on, for example, input of device authentication information to the control device 100 by the user. Further, the device authentication information may be stored in advance in a nonvolatile memory or the like. The device authentication information may be information that can be used to verify the device authentication information acquired from the device when the device makes an authentication request.

  When the device 200 joins the communication system 10, the authentication unit 121 of the control device 100 receives a device authentication request (that is, receives device authentication information) according to a specific authentication protocol (step S12). Then, the authentication unit 121 treats the received device authentication information as being successfully compared with the device authentication information set in step S11, and determines that the device 200 has been successfully authenticated. Exchange is performed (step S13). After this key exchange, encrypted data can be exchanged between the control device 100 and the device 200 in the communication system 10. Therefore, if the communication system 10 is HEMS, the control apparatus 100 which is a HEMS controller will control the apparatus 200 which is a HEMS apparatus, etc. through HAN. Note that the control device 100 encrypts data exchange with the authenticated device. Therefore, the control device 100 can secure the security and exchange the ECHONET Lite frame with the device 200 to control, for example, monitor the state of the device 200. The control device 100 is a controller class device object in ECHONET Lite (registered trademark), for example. Even when a device other than the device 200 (device 200x, device 200y, etc.) joins the communication system 10, the operations in steps S11 to S13 are executed for authentication of the device.

  While the communication system 10 is in operation, for example, the reception unit 110 of the control device 100 in the consumer 11 uses the B route authentication information input by the user after the smart meter 300 is installed in the consumer 11. Accept (step S14).

  After that, when the user attaches the specific communication device 290 to any device (for example, the device 200 in this case), the device 200 transmits the attachment notification, and thus the receiving unit 123 of the control device 100 receives the attachment notification (step). S15). When the reception unit 123 receives the attachment notification, the transmission unit 122 transmits the B route authentication information received by the reception unit 110 to the device 200 that is the transmission source of the attachment notification (step S16). This B-root authentication information is transmitted with security secured. Thereafter, in the device 200, processing for requesting authentication from the smart meter 300 using the specific communication device 290 is executed. Therefore, the control device 100 waits until receiving success information indicating that the authentication is successful from the device 200. (Step S17). When the receiving unit 123 receives the success information, the recording unit 124 of the control device 100 records device information indicating the device 200 that is the source of the success information in the memory 102 (step S18). In a state where the device information is recorded in the memory 102, the control device 100 can acquire data such as measurement results from the smart meter 300 via the device indicated by the device information and the specific communication device attached to the device. It has become.

  When the measurement result of the power consumption by the smart meter 300 is required (step S19), the control device 100 transmits an instruction for requesting the measurement result to the device indicated by the device information by the instruction unit 125 (step S20). ). And the measurement result by the smart meter 300 is received from an apparatus by the receiving part 123 (step S21). As a result, the control device 100 can collect the measurement result of the power usage amount, and can transmit the measurement result of the power usage amount when requested by any device constituting the communication system 10, or the measurement thereof. It is possible to control any device based on the result.

  Next, the operation of the device 200 in the communication system 10 will be described with reference to FIG.

  FIG. 7 is a flowchart showing the operation of the device 200. In the figure, for the sake of convenience, some operations related to abnormality processing are omitted.

  The device 200 performs device authentication information setting (step S31). For example, as described above, the QR code (registered trademark) printed on the paper or the like attached to the casing of the control device 100 is photographed by the device 200, or the numerical value printed by the control device 100 is displayed by the user. This is done by inputting to 200. As a result, the device authentication information is stored in the nonvolatile memory of the device 200 or the like.

  Next, the authentication request unit 221 of the device 200 makes an authentication request by transmitting device authentication information to the control device 100 in accordance with the specific authentication protocol (step S32). Thereafter, the device 200 acquires a key by performing authentication and key exchange by the control device 100 (step S33). By acquiring this key, the device 200 can exchange encrypted data with the control device 100. Therefore, security is ensured, an ECHONET Lite frame is exchanged with the control device 100, for example, information is transmitted to the control device 100, information collected by the control device 100 is acquired, and the control device 100 It is possible to receive the control.

  The user selects one device suitable for wireless communication with the smart meter 300 among the devices constituting the communication system 10 and attaches the specific communication device 290 to the device. For example, when the device 200 is a device located in a position assumed to be a communicable range from the installation position of the smart meter 300 among the devices constituting the communication system 10, the device 200 can be selected by the user. Here, the description will be continued assuming that the selected one device is the device 200.

  When the specific communication device 290 is mounted on the mounting unit 230 of the device 200 by the user (step S34), the transmission unit 225 of the device 200 transmits a mounting notification to the control device 100 (step S35). When the B root authentication information is transmitted from the control device in response to the attachment notification, the receiving unit 222 of the device 200 receives the B root authentication information (step S36). Subsequently, the transmitting unit 223 of the device 200 transmits the B route authentication information received by the receiving unit 222 to the specific communication device 290 mounted on the mounting unit 230 (step S37). As a result, the specific communication device 290 holds the transmitted B route authentication information in the storage unit 295, and the authentication request unit 296 transmits the B route authentication information to the smart meter 300, thereby authenticating according to the specific authentication protocol. Will make a request. In response to the authentication request, when the smart meter 300 performs authentication and key exchange is performed, the authentication request unit 296 acquires the key and transmits success information to the device 200. When the success information is transmitted from the specific communication device 290 (step S38), the control unit 224 of the device 200 transmits the success information to the control device 100 via the transmission unit 225 (step S39). With this success information, the control device 100 can know that data such as measurement results can be acquired from the smart meter 300.

  Thereafter, when the receiving unit 222 of the device 200 receives an instruction from the control device 100 for requesting the measurement result of the power consumption by the smart meter 300 (step S40), the control unit 224 sends the measurement result to the specific communication device 290. Is controlled to be acquired (step S41). Under this control, the specific communication device 290 receives the measurement result of the power consumption from the smart meter 300 by the authentication request unit 296, the control unit 224 acquires the measurement result, and the measurement result via the transmission unit 225. Is transmitted to the control device 100 (step S42).

  The other devices 200x, 200y, etc. in the communication system 10 perform the same operation as that of the device 200 (FIG. 7), but the processes in steps S35 to S42 are not performed unless the specific communication device 290 is attached.

  Next, the flow of processing related to authentication in the control device 100, the device 200, the specific communication device 290, and the smart meter 300 installed in the consumer 11 will be described focusing on the communication sequence.

  FIG. 8 illustrates a processing procedure such as communication processing in the control device 100, the device 200, the specific communication device 290, and the smart meter 300 so as to proceed from top to bottom. The processing procedure in FIG. 8 is based on the premise that the device 200 and the smart meter 300 are located within a range in which wireless communication can be performed with each other (distance that is close to some extent).

  First, control device 100 sets device authentication information (sequence SEQ1). In addition, the device 200 sets device authentication information (sequence SEQ1a). The device authentication information is set by user intervention, and the setting is a condition for the control device 100 and the device 200 to belong to the same communication system 10 (for example, HEMS) and to communicate with each other. .

  Subsequently, the device 200 sends an authentication request to the control device 100 by transmitting device authentication information set in the device according to the specific authentication protocol (sequence SEQ2). In response to this authentication request, the control device 100 makes an authentication response (sequence SEQ3), and exchanges keys necessary for encryption processing and decryption processing of data communicated between the control device 100 and the device 200 (sequence). SEQ4). Thereafter, the control device 100 and the device 200 are connected to the network, and data other than the authentication request can be transmitted and received mutually.

  In order to enable communication on the B route of the smart meter 300, the user inputs B route authentication information to the control device 100, and the B route authentication information is set in the control device 100 (sequence SEQ5).

  Thereafter, when specific communication device 290 is attached to device 200 by the user (sequence SEQ6), device 200 transmits an attachment notification to control device 100 (sequence SEQ7). Note that the input and setting of the B root authentication information in sequence SEQ5 may be performed after this sequence SEQ7. That is, the process in step S14 (see FIG. 6) may be performed between step S15 and step S16.

  Subsequently, control device 100 transmits B route authentication information to device 200 that is the transmission source of the attachment notification (sequence SEQ8). Device 200 receives the B-root authentication information and transmits it to specific communication device 290 (sequence SEQ9).

  The specific communication device 290 sends an authentication request by transmitting the transmitted B route authentication information to the smart meter 300 (sequence SEQ10). In response to this authentication request, smart meter 300 sends an authentication response (sequence SEQ11), and keys necessary for encryption processing and decryption processing of data communicated between smart meter 300 and specific communication device 290 are exchanged. (Sequence SEQ12). The specific communication device 290 transmits success information indicating that the authentication has been successful to the device 200 (sequence SEQ13), and upon receiving this success information, the device 200 transmits the success information to the control device 100 (sequence SEQ14). Thus, control device 100 learns that the B route of smart meter 300 has been opened, and records device information indicating device 200 that is the source of success information (sequence SEQ15).

  Control device 100 transmits an instruction for requesting the measurement result to device 200 indicated by the device information when the measurement result of the power consumption is required (sequence SEQ16). Upon receiving this instruction, device 200 requests a measurement result from specific communication device 290 (sequence SEQ17), and specific communication device 290 transmits a request for a measurement result of power consumption to smart meter 300 (sequence SEQ18). When smart meter 300 transmits a measurement result (measurement result information) of power consumption (sequence SEQ19), specific communication device 290 transmits the measurement result information to device 200 (sequence SEQ20), and device 200 transmits the measurement result information. It transmits to the control apparatus 100 (sequence SEQ21). Thereby, the control apparatus 100 (for example, HEMS controller) of the communication system 10 (for example, HEMS) can collect the measurement result of electric power consumption, and controls each apparatus in the communication system 10 based on the measurement result, etc. Is possible.

(Other embodiments, etc.)
As described above, the communication system 10 has been described according to the first embodiment. However, the above-described embodiment is merely an example, and it is needless to say that various modifications, additions, omissions, and the like are possible.

  The smart meter 300 shown in the first embodiment measures the amount of power used, but may have a function of measuring the amount of energy used such as gas and water other than electricity. Similarly, the electric power company 41 may be a company that supplies or manages resources such as gas and water. In addition, the measurement result of the amount of energy used may be transmitted and received on the B route between the smart meter 300 and the communication system 10, and other data may be transmitted and received.

  Further, the control device 100 shown in the first embodiment may include a mounting unit 230 and can be mounted with the specific communication device 290. In this case, the user can attach the specific communication device 290 to the control device 100 when the control device 100 determines that the control device 100 is more suitable for communication with the smart meter 300 than each device constituting the communication system 10. it can. When the specific communication device 290 is attached to the control device 100, the sequences SEQ8, SEQ14, SEQ16, and SEQ21 shown in FIG. 8 can be omitted. This is because the control device 100 also plays the role of the device 200 in FIG.

  Further, the control device 100 shown in the first embodiment may include a functional unit similar to the authentication request unit 296. Then, only when the control device 100 fails to authenticate itself by wirelessly communicating with the smart meter 300, the specific communication device 290 attached to one device constituting the communication system 10 is not connected. Alternatively, an authentication request may be made.

  In the first embodiment, the user inputs B root authentication information to the control device 100, and the control device 100 transmits the B root authentication information to the device on which the specific communication device 290 is mounted. Transmits the B route authentication information to the specific communication device 290. However, another method may be used for storing the B route authentication information in the specific communication device 290. For example, the specific communication device 290 may be attached to the control device 100 or another computer having a USB interface so that the user can store the B route authentication information in the specific communication device 290. Alternatively, the specific communication device 290 in which the B route authentication information is stored in advance from an electric power company or the like may be delivered to the customer. In these cases, it is not necessary to transmit a mounting notification to the control device 100 when the device 200 mounts the specific communication device 290. The control device 100 broadcasts (transmits) the input B-root authentication information to each device constituting the communication system 10, and each device receives the B-route authentication information when the specific communication device 290 is attached. May be transmitted to the specific communication device 290.

  In the first embodiment, the specific communication device 290 is a USB device, and the mounting unit 230 and the specific communication device 290 are connected via a USB interface. This is because there is an advantage due to the widespread use of the USB interface. However, the specific communication device 290 may not be a USB device, and the mounting unit 230 and the specific communication device 290 may be connected by an interface based on a standard other than USB.

  In the first embodiment, the specific communication device 290 or the device 200 to which the specific communication device 290 is attached is assumed to be PANA as an authentication protocol used for receiving authentication from the smart meter 300. Also, PANA is used as an authentication protocol for the device 200 to receive authentication from the control device 100. However, the B route authentication protocol used by the smart meter 300 and the authentication protocol used by the control device to authenticate the device in the communication system are not necessarily the same. An authentication protocol other than PANA may be used as the authentication protocol. Further, a communication protocol other than that shown in FIG. 5 may be used in the communication system and in the B route.

  In the first embodiment, the communication system 10 is described as being a HEMS installed in a house and connected by HAN, for example. However, the communication system is not limited to the HEMS, and may be any system such as a BEMS (Building Energy Management System) in a building or a FEMS (Factory Energy Management System) in a factory. Further, a plurality of control devices may exist in the communication system.

  In the above-described embodiment, each device has a memory for storing programs, data, and the like. However, in order to store programs, data, etc., it has a hard disk or other storage medium in addition to the memory. Also good.

  In addition, wireless communication is performed between the control device and the device in the communication system described above. However, some devices in the communication system 10 may communicate with the control device in a wired manner using, for example, a LAN (Local Area Network) cable, PLC (Power Line Communication), or the like.

  In addition, the execution order of the processing procedures (the processing shown in FIGS. 6 and 7 and the like) in the above-described control device and device is not necessarily limited to the order shown in the above-described embodiment. The execution order can be changed or a part thereof can be omitted without departing from the gist. In addition, all or part of the processing procedures in the above-described control device and device may be realized by hardware of each device or may be realized by using software. The processing by software is realized by a CPU included in each device executing a control program stored in a memory. Further, the program may be recorded on a recording medium and distributed or distributed. For example, by installing the distributed control program in the devices and causing the devices' CPUs to execute the programs, it is possible to cause the devices to perform various processes (such as the processes shown in FIGS. 6 and 7).

  In addition, embodiments realized by arbitrarily combining the constituent elements and functions described in the above-described embodiments are also included in the scope of the present invention.

  Note that various general or specific aspects of the present invention include one or a plurality of combinations of an apparatus, a system, a method, an integrated circuit, a computer program, a computer-readable recording medium, and the like.

  Hereinafter, a communication system according to one embodiment of the present invention and the structure, modification, and effects of devices used in the communication system will be described.

  (1) The device according to one aspect of the present invention is a device 200 used in one facility together with the control device 100, and measures information on the amount of energy used in the facility and information based on the measurement result on the condition of successful authentication. In order to request authentication of the smart meter 300 that transmits the information, the mounting unit 230 for mounting the specific communication device 290 that performs wireless communication with the smart meter 300, and the specific communication device 290 is attached to the mounting unit 230. The device includes a transmission unit 225 that transmits information acquired from the specific communication device 290 to the control device 100 when the device is attached. One facility can be indoors or outdoors.

  With this configuration, if the specific communication device 290 is attached to the device 200 located at a position suitable for communication with the smart meter 300, the control device 100 acquires information from the smart meter 300 even when wireless communication with the smart meter 300 is not possible. it can. Since the authentication process is performed by the specific communication device 290 attached to the device 200, it is more efficient than simply providing a repeater dedicated for wireless relay between the smart meter 300 and the control device 100 or the like.

  (2) For example, the device 200 further includes a receiving unit 222 that receives authentication information from the control device 100, and a transmission unit 223 that transmits the authentication information received by the receiving unit 222 to the specific communication device 290. It is good.

  Accordingly, when the user inputs authentication information (B route authentication information) in the control device 100, the specific communication device 290 may make an authentication request for communication on the B route using the authentication information. become able to.

  (3) A communication system according to an aspect of the present invention is a communication system 10 including a control device 100 and one or more devices (200, 200x, 200y) that form a communication network for transmitting and receiving information at one facility. The device (200, 200x, 200y) measures the amount of energy used in the facility and requests authentication from the smart meter 300 that transmits information based on the measurement result on the condition that the authentication is successful. A mounting unit 230 for mounting the specific communication device 290 that performs wireless communication with the smart meter 300, and information acquired from the specific communication device 290 when the specific communication device 290 is mounted on the mounting unit 230. A transmission unit 225 that transmits to the control device 100, and the control device 100 transmits the specific communication device 290 transmitted from the device 200. A communication system comprising a receiving unit 123 that receives the information related. One facility can be indoors or outdoors.

  With this configuration, if the specific communication device 290 is attached to the device 200 located at a position suitable for communication with the smart meter 300, information from the smart meter 300 can be used in the communication system 10.

  (4) For example, the control device 100 further includes a recording unit 124 that records device information indicating the device 200 when the receiving unit 123 receives the information transmitted from the device 200, and the device recorded in the recording unit 124. An instruction unit 125 that instructs the device 200 indicated by the information to request the smart meter 300 to transmit information based on the measurement result, and the device 200 further receives the instruction from the control device 100. In this case, the specific communication device 290 may include a control unit 224 that causes the smart meter 300 to perform communication for requesting transmission of information based on the measurement result.

  Thereby, the control apparatus 100 can recognize via which device it can communicate with the smart meter 300, and can communicate with the smart meter 300 via the device at any time. Become.

  (5) For example, the device 200 further includes a receiving unit 222 that receives authentication information from the control device 100, and a transmission unit 223 that transmits the authentication information received by the receiving unit 222 to the specific communication device 290. The specific communication device 290 may request the authentication by transmitting the authentication information transmitted from the device 200 to the smart meter 300.

  Accordingly, when the user inputs authentication information (B route authentication information) to the control device 100 in the communication system 10, the specific communication device 290 uses the authentication information to request an authentication for communication on the B route. Will be able to do.

DESCRIPTION OF SYMBOLS 10 Communication system 100 Control apparatus 123 Reception part 124 Recording part 125 Instruction part 200, 200x, 200y Equipment 222 Reception part 223 Transmission part 225 Transmission part 230 Mounting part 290 Specific communication apparatus 300 Smart meter

Claims (5)

A device used in one facility together with a control device,
Specific communication that performs wireless communication with the smart meter in order to request authentication to the smart meter that measures the amount of energy used in the facility and transmits information based on the measurement result on the condition of successful authentication A mounting part for mounting the device;
A transmission unit configured to transmit information acquired from the specific communication device to the control device when the specific communication device is mounted on the mounting unit; The device further includes:
A receiving unit for receiving authentication information from the control device;
The apparatus according to claim 1, further comprising: a transmission unit that transmits the authentication information received by the reception unit to the specific communication device. A communication system comprising a control device and one or more devices constituting a communication network for transferring information at one facility,
The equipment is
Specific communication that performs wireless communication with the smart meter in order to request authentication to the smart meter that measures the amount of energy used in the facility and transmits information based on the measurement result on the condition of successful authentication A mounting part for mounting the device;
A transmission unit that transmits information acquired from the specific communication device to the control device when the specific communication device is mounted on the mounting unit;
The controller is
A communication system comprising: a receiving unit that receives the information related to the specific communication device transmitted from the device. The control device further includes:
A recording unit that records device information indicating the device when the receiving unit receives the information transmitted from the device;
An instruction unit that instructs the device indicated by the device information recorded in the recording unit to request transmission of information based on the measurement result to the smart meter;
The device further includes a control unit that, when receiving the instruction from the control device, causes the specific communication device to perform communication for requesting the smart meter to transmit information based on the measurement result. The communication system according to claim 3. The device further includes:
A receiving unit for receiving authentication information from the control device;
A transmission unit that transmits the authentication information received by the reception unit to the specific communication device;
The communication system according to claim 3 or 4, wherein the specific communication device requests the authentication by transmitting authentication information transmitted from the device to the smart meter.

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