JP5378836B2 - COMMUNICATION SYSTEM, PROGRAM, AND COMMUNICATION METHOD - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technology of easily, rapidly and safely registering a terminal in a main device, in communication between the terminal and the main device. <P>SOLUTION: An information collection device 2 as this main device includes: a reception control part 250 for receiving request information 270 one-sidedly transmitted from an optional terminal; an authentication part 252 for authenticating a terminal having transmitted the request information 270 as a legitimate terminal by the request information 270 received by the reception control part 250; and a radio communication part 22 and a power line communication part 23 communicating with the terminal authenticated as the legitimate terminal by the authentication part 252. The authentication part 252 determines whether the terminal having transmitted the request information 270 is present in a close range (area allowing registration) by detecting an error rate, signal intensity, noise and communication speed of the received request information 270, and respectively comparing them with threshold values, and authenticates the terminal as the legitimate terminal only when the terminal is present in the close range. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a technique for easily and safely registering a terminal device with a main device in order to enable communication between the terminal device and the main device.

  For example, a main device and a plurality of terminal devices, such as a system in which an information collecting device and a plurality of sensors are connected in a communicable state and information obtained by measurement by each sensor is efficiently collected by the information collecting device. There is known a technique for connecting the two to a state in which communication is possible. In addition, a telephone system (terminal device) communicates with a parent device (main device) so that the child device can be connected to a public network, or a computer (via a wireless base station (main device)). Various systems have also been proposed in which a terminal device is connected to an external device using a main device as a relay to a wide area network, such as a wireless LAN system that connects a terminal device to the Internet.

  In such a system, communication between the main device and the terminal device must be protected to prevent unauthorized interception or modification of information. It has become common to do. That is, the main device prevents unauthorized access of an unauthorized terminal device by communicating with a terminal device registered (authenticated) as an authorized communication destination according to mutually agreed encryption rules. In particular, such security measures are important in a system that uses a network (such as wireless or power line communication) that can be freely connected as a communication means.

  On the other hand, in these systems, it may be required to add additional terminals as necessary. In such a case, the main device is configured so that a new terminal device can be registered as a new regular communication destination as necessary. On the other hand, the main device mistakenly registers an unauthorized terminal device. There is a problem of doing. That is, the problem that the main device must accurately identify that the terminal device is a legitimate terminal device for the terminal device that requests connection to the main device at the stage before encrypted communication is started. There is.

  Therefore, conventionally, a technique for preventing erroneous registration of a terminal device in the main apparatus has been proposed. For example, such a technique is described in Patent Document 1. In the technique described in Patent Document 1, the physical distance between the terminal device and the main device is determined based on the response time of communication with the terminal device, and when the terminal device is at a short distance, the terminal A technique for determining that a device is a legitimate terminal device is described.

JP 2004-215232 A

  However, in the above technique, since it is determined whether or not the terminal device is a legitimate terminal device based on the response time of communication with the terminal device, it is complicated and time-consuming to determine whether or not to permit registration. There was a problem that it required (at least regular response time is required).

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a technique for easily, quickly and safely registering a terminal device with the main device in communication between the terminal device and the main device. .

In order to solve the above problems, the invention of claim 1 is a communication system for performing communication between a main apparatus and at least one terminal apparatus, wherein the main apparatus transmits unilaterally from an arbitrary terminal apparatus. Receiving means for receiving the requested information by wireless communication and power line communication, and both the request information received by the receiving means by the wireless communication and the request information received by the receiving means by the power line communication are predetermined. Authentication means for authenticating a terminal device that has transmitted the request information only when the above condition is satisfied, and a communication means for communicating with the terminal device authenticated by the authentication means.

The invention of claim 2 is a program that can be executed by a computer, and the execution of the program by the computer communicates the request information unilaterally transmitted from an arbitrary terminal device to the computer by radio. And only when the receiving means that receives the communication via the power line and the request information that the receiving means receives via the wireless communication and the request information that the receiving means receives via the power line satisfy a predetermined condition. The terminal device that has transmitted the request information is made to function as a main device including authentication means for authenticating with a regular terminal device and communication means for communicating with the terminal device authenticated with the regular terminal device by the authentication means.

The invention of claim 3 is a communication method for performing communication between the main device and at least one terminal device, wherein (a) request information transmitted unilaterally from any terminal device is communicated by radio A terminal device that transmits the request information only when both the request information received by wireless communication and the request information received by power line communication and the request information received by power line communication satisfy a predetermined condition. And authenticating with the authorized terminal device, and (c) communicating with the authorized terminal device and the authenticated terminal device.

The invention according to any one of claims 1 to 3 receives request information unilaterally transmitted from an arbitrary terminal device, and authenticates the terminal device that has transmitted the request information as a regular terminal device based on the received request information. By communicating with the authorized terminal device and the authenticated terminal device, it is possible to authenticate whether or not it is a legitimate terminal device simply by receiving the request information. You can register easily and quickly .

It is a figure which shows the structure of the communication system which concerns on this invention. It is a block diagram which shows the structure of an information collection device. It is a figure which shows the functional block of the information collection device in this Embodiment with the flow of data. It is a block diagram which shows the structure of an adapter. It is a flowchart which shows operation | movement of the adapter in the communication method which concerns on this invention. It is a flowchart which shows operation | movement of the information collection apparatus in the communication method which concerns on this invention.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described in detail with reference to the accompanying drawings.

<1. Embodiment>
FIG. 1 is a diagram showing a configuration of a communication system 1 according to the present invention. The communication system 1 includes an information collecting device 2 as a main device, adapters 3 and 4 each functioning as a terminal device, and a server device 5. Note that the adapter 9 shown in FIG. 1 is exemplified as a device that is recognized as an unauthorized terminal device in the communication system 1, and does not constitute the communication system 1. Moreover, in FIG. 1, although only two adapters 3 and 4 are shown in figure, the number of the terminal devices with which the communication system 1 is provided is not limited to this.

  In the following description, the communication system 1 collects information measured by the adapters 3 and 4 (information on the power consumption of individual appliances installed in the building) while the information collecting device 2 accumulates the information. A system that transmits the total power consumed in a building to an external server device 5 (for example, a server device installed in a power company or the like) via the network 11 will be described as an example.

  Although details will be described later, the registration area 90 conceptually shows an area that can be registered in the communication system 1 (information collecting apparatus 2), and the communication area 91 is collected by the adapters 3, 4 and 9 2 conceptually shows an area in which the apparatus 2 can physically communicate. The power line 10 is a commercial power supply cable laid to supply power to the electrical appliances to be used. Although details will be described later, the communication system 1 uses the power line 10 for data communication. Further, the network 11 is a wide area network such as a public telephone network or a WAN.

  FIG. 2 is a block diagram illustrating a configuration of the information collection device 2. The information collection device 2 includes an input unit 20, a display unit 21, a wireless communication unit 22, a power line communication unit 23, and a wide area network communication unit 24.

  The input unit 20 of the information collection device 2 is mainly configured by buttons and keys. The operator of the information collection device 2 can input desired information to the information collection device 2 by operating the input unit 20. Note that the input unit 20 is not limited to buttons and keys, and may include, for example, a keyboard or a mouse, or a display unit such as a touch panel that inputs information by touching the surface of the screen. An apparatus having 21 functions may be used.

  The display unit 21 includes, for example, a display, a liquid crystal panel, a lamp, an LED, and the like, and is a device that provides visual information to the operator of the information collection device 2. Based on the information displayed on the display unit 21, the operator can operate the input unit 20 while confirming the state of the information collection device 2.

  The wireless communication unit 22 has a function that enables wireless data communication with the adapters 3, 4, and 9. That is, the wireless communication unit 22 can receive information transmitted from the adapters 3, 4, 9 by wireless radio waves, and can also transmit information to the adapters 3, 4, 9 by transmitting wireless radio waves. ing. Thereby, in the communication system 1, it is not necessary to lay a dedicated cable such as a LAN cable between the information collecting device 2 and the adapters 3 and 4 which are regular terminal devices. Is configured so that it can be easily performed.

  The power line communication unit 23 has a function of performing data communication between the information collection device 2 and the adapters 3, 4, 9 through the connected commercial power line 10. That is, the power line communication unit 23 can receive information transmitted from the adapters 3, 4, 9 through the power line 10 and can transmit information to the adapters 3, 4, 9 by sending a signal to the power line 10. It is said that. In general, since the commercial power line 10 is already routed to each room in the building, by using the power line 10 for communication, between the information collecting device 2 and the adapters 3 and 4 which are regular terminal devices, There is no need to install a dedicated cable.

  Note that, as described above, the wireless communication unit 22 and the power line communication unit 23 have a function of transmitting information to the adapter 9 that is an unauthorized terminal device. The information collecting apparatus 2 in FIG. 1 does not transmit information to the adapter 9.

  The wide area network communication unit 24 is an interface that provides a function of connecting the information collecting apparatus 2 to the network 11 (WAN, public telephone network, Internet, or the like). By including the wide area network communication unit 24, the information collection device 2 has a function as a relay that relays communication between the adapters 3 and 4 and the server device 5.

  In addition, the information collection apparatus 2 in this Embodiment once accumulate | stores the information from each adapter 3 and 4 whenever a measurement is performed in each adapter 3 and 4. FIG. Thereafter, communication with the server device 5 is performed at a predetermined timing (for example, every month), and the accumulated information is transmitted to the server device 5.

  Further, as shown in FIG. 2, the information collection device 2 includes a CPU 25 that calculates various data, and a ROM 26 and a RAM 27 that store various data. The ROM 26 is a read-only and nonvolatile storage device and is mainly used for storing the program 28. The RAM 27 is a storage device used as a temporary working area for the CPU 25. With such a configuration, the information collection device 2 has a function as a computer that executes the program 28 stored in the ROM 26.

  FIG. 3 is a diagram showing functional blocks of the information collecting apparatus 2 in the present embodiment together with the data flow. The reception control unit 250, the transmission control unit 251, and the authentication unit 252 illustrated in FIG. 3 are functional blocks that are realized mainly by the CPU 25 executing the program 28 stored in the ROM 26.

  The request information 270 shown in FIG. 3 is information (training information) in a predetermined format transmitted from the adapters 3, 4 and 9 (arbitrary terminal devices) that desire communication with the information collection device 2. In the communication system 1 according to the present embodiment, the information collection device 2 receives the request information 270 unilaterally transmitted from the adapters 3, 4, 9 by both the wireless communication unit 22 and the power line communication unit 23.

  Further, the encryption information 271 is information transmitted to the adapters 3 and 4 that are authenticated as the legitimate terminal apparatus in the information collecting apparatus 2 and thereafter authenticated as the information collecting apparatus 2 and the legitimate terminal apparatus. This is information relating to encryption rules necessary for executing communication with the device as encrypted communication. That is, in the communication system 1, only the adapters 3 and 4 that have been authenticated by the information collection device 2 as authentic terminal devices and have received the transmission of the encryption information 271 from the information collection device 2 continue communication with the information collection device 2. be able to. Examples of the encryption information 271 include information on the WEP key and encryption key information, but are not limited to this, and are information appropriately determined according to the encryption method employed. However, the information is preferably different for each of the adapters 3 and 4.

  Further, the measurement information 272 is information that is generated by the adapters 3 and 4 by measurement and transmitted to the information collection device 2, and is information transmitted to the server device 5 by the wide area network communication unit 24.

  The reception control unit 250 receives request information 270 unilaterally transmitted from an arbitrary terminal device (adapter 3, 4, 9). In addition, the reception control unit 250 receives information (for example, measurement information 272) transmitted from the terminal device (adapter 3 or 4) authenticated by the authentication unit 252 as a legitimate terminal device. As described above, the reception control unit 250 has a function of receiving information in the communication between the adapters 3 and 4 that are regular terminal devices and the information collecting device 2.

  The transmission control unit 251 controls the wireless communication unit 22 and the power line communication unit 23, and sends the information (information from the information collection device 2) to the terminal device (adapter 3 or 4) authenticated by the authentication unit 252 as a legitimate terminal device. For example, the encryption information 271) is transmitted. That is, the transmission control unit 251 has a function of transmitting information in communication between the adapters 3 and 4 and the information collection device 2 that are regular terminal devices.

  The authentication unit 252 has a function of authenticating a terminal device that has transmitted the request information 270 with a regular terminal device, based on the request information 270 received by the reception control unit 250. As illustrated in FIG. 3, the authentication unit 252 includes an error detection unit 253 that calculates an error rate of the request information 270 received by the reception control unit 250, and a strength that calculates the signal strength when the reception control unit 250 receives the request information 270. The detection unit 254, the noise detection unit 255 for obtaining a noise ratio when the reception control unit 250 receives the request information 270, and the request information 270 when the reception control unit 250 receives the request information 270 based on the request information 270 A speed detection unit 256 for obtaining a communication speed is provided.

  The above is the description of the configuration and function of the information collection device 2. Next, the adapters 3, 4 and 9 will be described.

  The adapters 3, 4 and 9 in the present embodiment all have the same configuration and function. Therefore, the adapter 3 will be described below, and the description of the adapters 4 and 9 will be omitted. However, the adapters 3, 4 and 9 are not limited to the same device.

  FIG. 4 is a block diagram showing the configuration of the adapter 3. As shown in FIG. 4, the adapter 3 that functions as a terminal device in the communication system 1 includes an initialization button 30, a display unit 31, a wireless communication unit 32, a power line communication unit 33, and a measurement unit 34.

  The adapter 3 in the communication system 1 is configured as a device that measures the power consumption of an electrical appliance connected to the outside and transmits the measurement result to the information collection device 2. Although not shown in FIGS. 1 and 4, an electrical appliance such as a television or a refrigerator is externally connected to the adapter 3. In other words, the power plug of the appliance is connected to the adapter 3 in a state where the power plug (not shown) of the adapter 3 is connected to an indoor power supply outlet (outlet connected to the power line 10).

  The initialization button 30 is a button for initializing the adapter 3 and is operated by the operator. When the initialization button 30 is pressed, the adapter 3 cancels the state registered in the information collection device 2 and enters a state (initial state) in which the request information 270 is newly transmitted. Specifically, the encryption information 271 acquired from the currently registered information collection device 2 is deleted. In the communication system 1 according to the present embodiment, when the adapter 3 is in the initial state (the state where the encryption information 271 does not exist), when the power plug of the adapter 3 is connected to the power supply outlet, the adapter 3 displays the request information 270. It is configured to transmit to the information collecting device 2.

  The display unit 31 is a lamp or LED, and displays the state of the adapter 3 to the operator according to the blinking state. In particular, the operator can check whether the adapter 3 is in the initial state by checking the display unit 31. However, the display unit 31 may include a device such as a liquid crystal panel that can display more complicated information.

  The wireless communication unit 32 has a function that enables wireless data communication with the information collection device 2. That is, the wireless communication unit 32 receives information (for example, encryption information 271) transmitted from the information collection device 2 by wireless radio waves, and sends information (for example, request information 270) to the information collection device 2 by transmitting the radio waves. It is also possible to transmit measurement information 272).

  The power line communication unit 33 has a function of performing data communication with the information collection device 2 via the connected commercial power line 10. That is, the power line communication unit 33 receives information (for example, encryption information 271) transmitted from the information collecting device 2 through the power line 10, and sends information to the information collecting device 2 by sending a signal to the power line 10 (for example, a request). It is also possible to transmit information 270 and measurement information 272).

  Although detailed description is omitted here, the communication partner of the adapter 3 is not limited to the information collection device 2, and for example, communication between the adapter 3 and the adapter 4 may be permitted. That is, the adapter 4 may be configured to communicate with the information collection device 2 via the adapter 3.

  The measurement unit 34 has a function as a sensor that measures the power consumption of an electrical appliance externally connected to the adapter 3 and creates measurement information 272. The measurement information 272 created by the measurement unit 34 is stored in the RAM 37 and then transmitted to the information collection device 2. Note that such sensors are not limited to sensors that detect power consumption, but are water meters (flow rate sensors) that measure water consumption, and human body detection sensors that monitor human traffic. May be. That is, what is necessary is just to employ | adopt suitably according to the utilization purpose of a system.

  Further, as shown in FIG. 4, the adapter 3 includes a CPU 35 that calculates various data, and a ROM 36 and a RAM 37 that store various data. The ROM 36 is a read-only and nonvolatile storage device, and is mainly used for storing the program 38 and the request information 270. The RAM 37 is a storage device used as a temporary working area for the CPU 35. With such a configuration, the adapter 3 has a function as a computer that executes the program 38 stored in the ROM 36.

  The server device 5 is a device having a configuration and a function as a general computer, and is configured as a communication device capable of communicating with the information collection device 2 via the network 11. The server device 5 in the present embodiment is installed in an electric power company or the like as described above, and calculates an electricity bill according to the power used based on the measurement information 272 transmitted from the information collection device 2.

  The above is the description of the configuration and functions of the communication system 1. Next, processing in which the adapter 3 that is a terminal device is registered in the information collection device 2 in the communication system 1 will be described.

  FIG. 5 is a flowchart showing the operation of the adapters 3 and 4 in the communication method according to the present invention. Hereinafter, the adapter 3 will be mainly described.

  The adapter 3 in the state before being connected to the commercial power line 10 monitors whether the initialization button 30 has been operated (step S11) and whether it is connected to the power supply outlet (step S13). While waiting.

  In this state, when the initialization button 30 is pressed by the operator, the CPU 35 of the adapter 3 determines Yes in step S11 and deletes the encryption information 271 stored in the RAM 37 (step S12). Thereby, an operator who intends to newly install the adapter 3 can easily initialize the adapter 3 even if the adapter 3 has been used in another place before. Even if it is determined Yes in step S11, if the encryption information 271 is not stored at that time, the encryption information 271 is not deleted in step S12.

  When the adapter 3 is connected to the power supply outlet, the CPU 35 determines Yes in step S13, and whether or not the current state of the adapter 3 is the initial state depending on whether or not the encryption information 271 is stored in the RAM 37. Is determined (step S14).

  When the adapter 3 is in the initial state (Yes in step S14), the wireless communication unit 32 and the power line communication unit 33 transmit the request information 270 stored in the ROM 36 (step S15). As described above, in the present embodiment, the request information 270 is transmitted using both the radio and the power line 10, but of course either one may be used.

  Here, step S15 is a process in which the adapter 3 unilaterally transmits the request information 270 regardless of the state of the information collection device 2. Although details will be described later, no operation is required in the information collection device 2. Therefore, in the communication system 1, an operator who intends to install a new adapter 3 confirms that the adapter 3 is in the initial state without operating the information collecting device 2, and then It is only necessary to insert the power plug of the adapter 3 into a power supply outlet. When the adapter 3 is newly installed, if it is troublesome to confirm whether or not the adapter 3 is in the initial state, the initialization button 30 may be operated regardless of the state. Further, since the adapter 3 is always in an initial state when shipped from the factory, neither confirmation by the display unit 31 nor operation of the initialization button 30 is required at the first installation.

  When step S15 is executed and the request information 270 is transmitted, the adapter 3 waits until the encryption information 271 is received from the information collection device 2 (step S16).

  When the encryption information 271 is received from the information collection device 2, the CPU 35 determines Yes in step S16, and stores the received encryption information 271 in the RAM 37 (step S17). Thereby, the adapter 3 is not in the initial state until the initialization button 30 is operated again thereafter. In other words, the information collection device 2 that has transmitted the encryption information 271 is registered as a regular communication partner (terminal device).

  Once the adapters 3 and 4 receive the encryption information 271 and store it in the RAM 37, the adapters 3 and 4 can store the encryption information 271 even if the power plug is removed from the power supply outlet. Therefore, the operator can easily move the adapters 3 and 4 by unplugging the power plugs of the adapters 3 and 4 from the power supply outlet while the adapters 3 and 4 are registered in the information collecting device 2.

  Although details are omitted, if the encryption information 271 cannot be received within a predetermined time, the adapter 3 determines that the information collection device 2 has not been authenticated as a legitimate terminal device, and displays the fact to that effect on the display unit 21. Is displayed in error state.

  On the other hand, when the state of the adapter 3 is not the initial state (No in step S14), the adapter 3 checks whether or not the electrical appliance whose power consumption is to be measured is connected to the outside (step S18). If the electrical appliance is connected to the adapter 3, normal communication processing is performed with the information collecting device 2 (step S19), and otherwise, step S19 is skipped.

  The process in step S19 is a process for transmitting the measurement information 272 to the information collecting apparatus 2 while encrypting based on the already stored encrypted information 271 because a conventional method can be adopted as appropriate. In other words, the terminal device (for example, the adapter 9) that cannot receive the encryption information 271 cannot execute step S19 and cannot communicate with the information collection device 2. In the present embodiment, when the measurement information 272 is transmitted, it is transmitted using both the radio and the power line 10, but of course either one may be used.

  FIG. 6 is a flowchart showing the operation of the information collecting apparatus 2 in the communication method according to the present invention. The information collection device 2 monitors whether or not the request information 270 has been received while executing normal communication processing with the already registered terminal device (step S21) (step S22).

  The processing in step S21 will not be described in detail because a conventional method can be adopted as appropriate. However, the measurement information 272 encrypted based on the encryption information 271 is received, decrypted, and stored in the RAM 27. This is a process of transmitting the measurement information 272 to the server device 5 according to the schedule.

  In step S21, the information collection device 2 receives information from the adapters 3, 4, and 9 and is not encrypted by the encryption information 271 (for example, information transmitted by the adapter 9). Discard unless requested information 270. Whether or not the information received from the adapters 3, 4, and 9 is the request information 270 is determined by, for example, storing the same information as the request information 270 transmitted in advance in the information collecting device 2 and collating it with this information. Can be determined. Alternatively, an identifier indicating request information 270 may be set in advance, and only information including the identifier may be determined as request information 270.

  When the request information 270 is received, the error detection unit 253 of the authentication unit 252 obtains the error rate of the received request information 270 and compares it with a preset error rate threshold value to determine whether the level is normal ( Step S23).

  The threshold of the error rate at this time is an error rate that can be realized by communication from within the registration area 90, but is a value that is determined as an error rate that cannot be realized in the communication area 91. That is, the information collection device 2 can determine whether or not the adapters 3, 4, and 9 that transmitted the request information 270 exist in the registration area 90 (short distance) according to the error rate threshold.

  When the error rate is a normal level, the strength detection unit 254 of the authentication unit 252 obtains the signal strength when the request information 270 is received, and compares it with a preset signal strength threshold to determine whether the level is normal. Is determined (step S24).

  The signal strength threshold at this time is a signal strength that can be achieved by communication from within the registration area 90 but is determined as a signal strength that cannot be achieved within the communication area 91. That is, the information collection device 2 can determine whether or not the adapters 3, 4, and 9 that transmitted the request information 270 exist within the registration area 90 (short distance) according to the signal strength threshold.

  When the signal strength is a normal level, the noise detection unit 255 of the authentication unit 252 obtains the signal power to noise power ratio (S / N) of the signal when the request information 270 is received, and the preset noise It is compared with a threshold value to determine whether the level is normal (step S25).

  The noise threshold at this time is a noise level that can be achieved by communication from within the registration area 90, but is a value that is determined as a noise level that cannot be achieved within the communication area 91. That is, the information collecting apparatus 2 can determine whether or not the adapters 3, 4, and 9 that transmitted the request information 270 exist in the registration area 90 (short distance) according to the noise threshold.

  If the noise is at a normal level, the speed detection unit 256 of the authentication unit 252 obtains the communication speed when the request information 270 is received, and compares it with a preset communication speed threshold value to determine whether the level is normal. Determination is made (step S26).

  The communication speed threshold at this time is a communication speed that can be achieved if the communication is from within the registration area 90, but is a value that is determined as a communication speed that cannot be achieved in the communication area 91. That is, the information collection device 2 can determine whether or not the adapters 3, 4, and 9 that transmitted the request information 270 exist in the registration area 90 (short distance) according to the communication speed threshold.

  In the present embodiment, regarding the request information 270 received from the same one of the adapters 3, 4, 9, both the request information 270 received wirelessly and the request information 270 received via the power line 10 are at the normal level. If yes, it is determined Yes in steps S23, S24, S25, and S26. However, according to the required security level, if either one is a normal level, it may be determined as Yes.

  In addition, for convenience, it has been described that all of the error rate threshold, the signal strength threshold, the noise threshold, and the communication speed threshold are determined by the common registration area 90. Is difficult, and there is a registration area 90 for each threshold (condition).

  If it determines with Yes in step S26, the authentication part 252 will authenticate the terminal device (adapter 3 and 4) which transmitted the said request information 270 with a regular terminal device (step S27), and will issue the encryption information 271. As described above, when the authentication unit 252 determines that all of the error rate, signal strength, noise, and communication speed are normal levels (levels existing in the registration area 90), the adapters 3 and 4 are information. Registered in the collection device 2.

  In the state shown in FIG. 1, when each adapter 3, 4, 9 transmits the request information 270, only the adapter 3 existing in the registration area 90 is authenticated and registered as a regular terminal device. The adapter 4 is brought into the registration area 90 once, and after being registered normally there, the operator removes the power plug from the power supply outlet and moves it to the installation location in the communication area 91. .

  On the other hand, since the adapter 9 is not originally a regular terminal device, the adapter 9 cannot enter the registration area 90 and cannot receive registration. Therefore, the adapter 9 is not authenticated as a regular terminal device and is not in the communication area 91. However, communication with the information collecting apparatus 2 cannot be performed. In this way, in the communication system 1, the communication area 91 is set to a relatively wide range by setting the registration area 90 to a relatively narrow range and restricting the bringing of terminal devices into the registration area 90. However, the safety of communication between the main device and the terminal device can be ensured. Although illustration is omitted, since request information 270 is not received from a device that does not exist in communication area 91 (because it is outside communication area 91, even request information 270 cannot be received). The terminal device is not registered by mistake.

  When the encryption information 271 is created, the transmission control unit 251 transmits the encryption information 271 toward the adapters 3 and 4 that have been authenticated as regular terminal devices (step S28).

  As apparent from the flowchart shown in FIG. 6, in the communication system 1, when registering the adapters 3 and 4, in order to receive the request information 270 transmitted from the adapters 3 and 4, There is no need to keep. More specifically, it is only necessary to keep the normal operation state.

  Further, the information collecting apparatus 2 can authenticate only by receiving the request information 270. Note that “only receiving the request information 270” means “only by receiving the request information 270”. For example, communication that is started by receiving the request information 270 is not required. Meaning. Therefore, the communication system 1 does not require communication between the terminal device and the main device for measuring the response time as in the prior art. Thereby, the exchange between the information collection device 2 and the terminal device in registration is simplified. In addition, since the information collection device 2 does not inadvertently respond to the request information 270, the possibility that the presence of the information collection device 2 is sensed for an unauthorized terminal device is also reduced.

  Further, in the information collection device 2, there is no need to provide an operation state such as the registration mode (maintenance mode), and communication with the already registered terminal device is performed for the registration processing of a new terminal device. There is no hindrance.

  When step S28 ends, the information collection device 2 returns to step S21 and repeats the process.

  As described above, the communication system 1 that performs communication between the information collection device 2 and the adapters 3 and 4 that are at least one terminal device receives the request information 270 that is unilaterally transmitted from an arbitrary terminal device. Based on the reception control unit 250, the request information 270 received by the reception control unit 250, the authentication unit 252 that authenticates the terminal device that transmitted the request information 270 as a regular terminal device, and the authentication unit 252 is authenticated as a regular terminal device. By providing the wireless communication unit 22 and the power line communication unit 23 that communicate with the terminal device, it is possible to authenticate whether or not the device is a legitimate terminal device simply by receiving the request information 270, thereby ensuring communication safety. However, the terminal device can be registered easily and quickly.

  Note that the communication system that performs communication between the main device and at least one terminal device is not limited to a system that collects information measured by a plurality of sensors as in the above example. For example, a communication system for connecting to an external telephone while communicating between a parent device (main device) and a child device (terminal device), or communication between an access point (main device) and a computer (terminal device) It may be a LAN system connected to an external computer while performing the above.

<2. Modification>
Although the embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and various modifications can be made.

  For example, the steps described above are merely examples, and the contents and order thereof may be changed as appropriate as long as the same effects can be obtained. For example, the order of the steps S23, S24, S25, and S26 in FIG.

  In addition, a part or all of the functions described as being realized by the CPU 25 or the CPU 35 operating according to the program 28 or the program 38 may be realized by a dedicated logic circuit, or may be realized by hardware. A part or all of the functions may be realized by software processing.

  In the above embodiment, if the error rate, the signal strength, the noise, and the communication speed are all not normal levels (levels present at a short distance), the information collecting apparatus 2 is not authenticated as a regular terminal apparatus. However, depending on the required security level, any one of these conditions or only a part of the conditions may be authenticated.

DESCRIPTION OF SYMBOLS 1 Communication system 10 Power line 2 Information collection apparatus 20 Input part 21,31 Display part 22,32 Wireless communication part 23,33 Power line communication part 24 Wide area network communication part 25,35 CPU
250 reception control unit 251 transmission control unit 252 authentication unit 253 error detection unit 254 strength detection unit 255 noise detection unit 256 speed detection unit 270 request information 271 encryption information 272 measurement information 28, 38 program 3, 4 adapter 30 initialization button 31 display Unit 32 Wireless communication unit 33 Power line communication unit 34 Measurement unit 38 Program 5 Server device 90 Registration area 91 Communication area

Claims (3)

A communication system for performing communication between a main device and at least one terminal device,
The main unit is
Receiving means for receiving request information unilaterally transmitted from an arbitrary terminal device by wireless communication and power line communication;
A terminal device that transmits the request information only when both the request information received by the reception unit through the wireless communication and the request information received by the reception unit through the power line satisfy a predetermined condition. An authentication means for authenticating with the device;
Communication means for communicating with a terminal device authenticated by the authenticating means by the authenticating means;
A communication system comprising: A computer-executable program, wherein the execution of the program by the computer
Receiving means for receiving request information unilaterally transmitted from an arbitrary terminal device by wireless communication and power line communication;
A terminal device that transmits the request information only when both the request information received by the reception unit through the wireless communication and the request information received by the reception unit through the power line satisfy a predetermined condition. An authentication means for authenticating with the device;
Communication means for communicating with a terminal device authenticated by the authenticating means by the authenticating means;
A program for functioning as a main device equipped with A communication method for performing communication between a main device and at least one terminal device,
(a) receiving request information unilaterally transmitted from an arbitrary terminal device by wireless communication and power line communication;
(b) authenticating the terminal device that has transmitted the request information only when both the request information received by wireless communication and the request information received by power line communication satisfy a predetermined condition;
(c) communicating with the authorized terminal device and the authenticated terminal device;
A communication method comprising:

Images