JP6537037B2 - Communication method, controller using the same, communication system - Google Patents

Description

  The present invention relates to communication technology, and more particularly to a communication method using a plurality of frequency channels, a controller using the same, and a communication system.

  In short distance wireless communication called wireless PAN (Personal Area Network), information is exchanged between devices by connecting home electric appliances and the like in a home with a wireless network. As a wireless PAN, for example, a standardization standard such as IEEE 802.15.4 is known. In a typical usage scene, one control device and home appliances, which are a plurality of terminal devices, are installed in one home, and a plurality of terminal devices are connected in a star configuration centering on the control device. A wireless network is configured (see, for example, Patent Document 1).

WO 12/124 339 pamphlet

  A plurality of frequency channels available for communication between the control device and the terminal device are provided, and the control device selects one of them and uses it for communication with the terminal device. The controller can also change one frequency channel used. For example, the controller disconnects links with all connected terminals and then changes the frequency channel. On the other hand, the terminal device with the link disconnected performs a frequency channel scan by itself and tries to reconnect with the control device on a new frequency channel. It is desirable that such changes in frequency channel be made efficiently.

  The present invention has been made in view of such circumstances, and an object thereof is to provide a technique for efficiently changing a frequency channel used for communication.

In order to solve the above problems, in a control device according to an aspect of the present invention, a communication unit using a first frequency channel among a plurality of frequency channels, and the communication unit receive a connection authentication request signal from a wireless device, And a control unit that causes the communication unit to transmit a connection authentication permission signal to the wireless device when permitting connection of the wireless device, and a channel that can change the first frequency channel used in the communication unit to another frequency channel And a change unit. The channel change unit receives the trigger of the frequency channel change request, and the control unit transmits the disconnection request signal from the communication unit to the wireless device in the first frequency channel when the channel change unit receives the trigger of the frequency channel change request. The channel change unit changes the first frequency channel to a second frequency channel different from the first frequency channel when disconnection of the wireless device connected in the first frequency channel is completed, and the control unit After the channel change unit receives the trigger for the frequency channel change request, even if the communication unit receives the connection authentication request signal from the wireless device in the first frequency channel, the connection authentication rejection signal is wirelessly transmitted from the communication unit in the first frequency channel. Send to device.

Another aspect of the present invention is a communication system. The communication system includes a control device and a wireless device connectable to the control device. The control unit permits the connection authentication when the communication unit using the first frequency channel among the plurality of frequency channels receives the connection authentication request signal from the wireless device and the communication unit permits the connection of the wireless device. A control unit that causes a communication unit to transmit a signal to a wireless device, and a channel change unit that can change a first frequency channel used in the communication unit to another frequency channel. The channel change unit receives the trigger of the frequency channel change request, and the control unit transmits the disconnection request signal from the communication unit to the wireless device in the first frequency channel when the channel change unit receives the trigger of the frequency channel change request. The channel change unit changes the first frequency channel to a second frequency channel different from the first frequency channel when disconnection of the wireless device connected in the first frequency channel is completed, and the control unit After the channel change unit receives the trigger for the frequency channel change request, even if the communication unit receives the connection authentication request signal from the wireless device in the first frequency channel, the connection authentication rejection signal is wirelessly transmitted from the communication unit in the first frequency channel. Send to device.

Yet another aspect of the present invention is a communication method. The method comprises the steps of using a first frequency channel of the plurality of frequency channels, receiving a connection authentication request signal from the wireless device, and permitting connection of the wireless device with the connection authentication grant signal as the wireless device. Transmitting to the wireless device, receiving a trigger for the frequency channel change request, and transmitting a disconnection request signal to the wireless device on the first frequency channel when the trigger for the frequency channel change request is received, the first frequency channel Changing the first frequency channel to a second frequency channel different from the first frequency channel when the disconnection of the wireless device connected in step c) is completed, and the trigger of the frequency channel change request is received, also receive a connection authentication request signal from the wireless device in a frequency channel, the first frequency channel Comprising transmitting the Oite connection authentication refusal signal to the wireless device.

  Note that arbitrary combinations of the above-described components, and conversions of the expression of the present invention among methods, apparatuses, systems, recording media, computer programs and the like are also effective as aspects of the present invention.

  According to the present invention, it is possible to efficiently change the frequency channel used for communication.

It is a figure showing composition of a communications system concerning an example of the present invention. It is a sequence diagram which shows the channel change procedure by the communication system used as the comparison object of the communication system of FIG. It is a sequence diagram which shows another channel change procedure by the communication system used as the comparison object of the communication system of FIG. It is a figure which shows the structure of the control apparatus of FIG. It is a figure which shows the data structure of the table memorize | stored in the memory | storage part of FIG. It is a sequence diagram which shows the channel change procedure by the communication system of FIG. It is a sequence diagram which shows another channel change procedure by the communication system of FIG. It is a sequence diagram which shows another channel change procedure by the communication system of FIG. It is a sequence diagram which shows another channel change procedure by the communication system of FIG. It is a flowchart which shows the channel change procedure by the control apparatus of FIG. It is a sequence diagram which shows the connection authentication procedure by the communication system of FIG.

  Before specifically explaining the present invention, an outline will be given. Embodiments of the present invention relate to communication systems that communicate using any one of a plurality of frequency channels. As mentioned above, the selection and modification of one frequency channel to be used is made by the controller. Also, at that time, the links with all the terminal devices connected so far are disconnected. On the other hand, the terminal device can not understand that the reason for the link disconnection by the controller is the frequency channel. Therefore, even before the control device changes the frequency channel, the terminal device may start frequency channel scanning for reconnection, and the control device and the terminal device may be reconnected. As a result, it is necessary for the control device to disconnect the link with the terminal device again. Furthermore, packet signals are transmitted between the control device and the terminal device for reconnection and reconnection, resulting in an increase in traffic and a situation in which packet signal collisions and communication errors are likely to occur. Therefore, it is desirable that the frequency channel used for communication be efficiently changed.

  In order to cope with this, when the control device according to the present embodiment starts the frequency channel change process, the control device disconnects the connected terminal device and rejects the connection of the unconnected terminal device. In the communication system, in order to increase the communication distance between the control device and the terminal device, a relay device is disposed between the control device and the terminal device, and the control device and the terminal device are connected via the relay device. Communication may also be performed. At that time, the control device, the relay device, and the terminal device share one of the plurality of frequency channels. Under such circumstances, when changing the frequency channel, the control device also disconnects the link with the relay device. Specifically, the control device disconnects the link with the terminal device connected to the relay device, and then connects the link with the relay device. In the control device, the process of connecting and disconnecting to the relay apparatus is performed in the same manner as the process of connecting and disconnecting to the terminal apparatus. Therefore, the relay device and the terminal device may be collectively referred to as a "wireless device".

  FIG. 1 shows the configuration of a communication system 100 according to an embodiment of the present invention. The communication system 100 includes a control device 10, a first terminal device 12a collectively referred to as a terminal device 12, a second terminal device 12b, a relay device 14, a smart meter 16, and a collection control station 18. The control device 10, the terminal device 12, the relay device 14, and the smart meter 16 are installed in a house 28. Although only one house 28 is shown in FIG. 1 for the sake of clarity, in reality, there are a plurality of houses 28, and each house 28 has a smart meter 16, a controller 10, and relays. The device 14 and the terminal device 12 are installed.

  The collection control station 18, the smart meter 16, the control device 10, the terminal device 12, and the relay device 14 all have a wireless communication function. The wireless communication between the collection control station 18 and the smart meter 16 is multi-hop communication 26, and the wireless communication between the smart meter 16 and the control device 10 is upper communication 24. The wireless communication between the control device 10 and the relay device 14, the wireless communication between the relay device 14 and the second terminal device 12 b, and the wireless communication between the control device 10 and the first terminal device 12 a are HAN communication 22. It is. The multi-hop communication 26 is realized by transfer by the smart meter 16 installed in each house 28, and corresponds to the A route of Wi-SUN (Wireless Smart Utility Networks). The upper communication 24 corresponds to the Wi-SUN B route, and the HAN communication 22 corresponds to the Wi-SUN HAN (Home Area Network). These correspond to, for example, IEEE 802.15.4, but are not limited thereto.

  The smart meter 16 has a function as a power meter that measures the amount of power used in the house 28 in addition to the wireless communication function described above. The smart meter 16 is connected to a distribution line (not shown) to which commercial power from a power company (electricity company) is supplied, and measures the amount of power used in the house 28. A known technique may be used for this function, so the description is omitted here. The smart meter 16 transmits meter reading data including the measurement result of the power amount to the collection control station 18 through the multihop communication 26. The collection control station 18 receives meter reading data from the smart meter 16. This enables remote meter reading by the power company.

  The terminal device 12 is connected to an electronic device (not shown) installed in the house 28. The electronic device is, for example, an air conditioner, an OA device, or a television receiver. The first terminal device 12 a corresponds to the HAN communication 22 and communicates with the control device 10. The relay device 14 corresponds to the HAN communication 22 and relays communication between the control device 10 and the second terminal device 12 b by communicating with the control device 10 and the second terminal device 12 b. The second terminal device 12 b also corresponds to the HAN communication 22. The control device 10 is connected to or mounted on an electronic device such as, for example, a Home Energy Management System (HEMS) controller. The control device 10 also communicates with the smart meter 16 through the upper communication 24, and thus receives the measurement result from the smart meter 16. The measurement results enable accurate power management in the electronic device.

  In HAN communication 22, a plurality of frequency channels are frequency-multiplexed. The bandwidth of one frequency channel is, for example, 400 kHz. The controller 10 selects and uses one frequency channel among the plurality of frequency channels. The first terminal apparatus 12 a, the second terminal apparatus 12 b, and the relay apparatus 14 use one frequency channel selected in the control apparatus 10. In HAN communication 22, CSMA / CA (Carrier Sense Multiple Access / Collision Avoidance) is executed by control device 10, first terminal device 12a, second terminal device 12b, and relay device 14. The transmission rate of the HAN communication 22 is, for example, 100 kbps.

  Here, in order to clarify the problem of the present embodiment, a channel change procedure by the communication system to be compared with the communication system 100 will be described. The communication systems to be compared are configured in the same manner as in FIG. 1, but the control device 10, the terminal device 12 and the relay device 14 in FIG. 1 are shown as a control device 110, a terminal device 112 and a relay device 114. As a premise, the control device 110 registers information of the communicable terminal device 112 and the relay device 114, and when changing the frequency channel, deletes the registered information of the terminal device 112 and the relay device 114. Also, the number of frequency channels is "N".

  FIG. 2 is a sequence diagram showing a channel change procedure by the communication system to be compared with the communication system 100. Here, in order to clarify the explanation, it is assumed that only the first terminal device 112a is registered in the control device 110. Control device 110 starts the channel change process under the condition of using frequency channel “1 ch” (S10). The control device 110 transmits a disconnection request signal to the first terminal device 112a (S12). The first terminal device 112a transmits a disconnection response signal to the control device 110 (S14), and disconnects. The control device 110 updates the storage unit so as to delete the information of the first terminal device 112a (S16). The first terminal device 112a starts reconnection (S18). The first terminal device 112a transmits a beacon request signal on the frequency channel "1ch" (S20). Further, the first terminal device 112a transmits a beacon request signal on the frequency channel "Nch" (S22). Control device 110 transmits a beacon signal on frequency channel "1ch" (S24).

  The first terminal device 112a transmits a connection authentication request signal to the control device 110 (S26). The control device 110 permits connection authentication of the first terminal device 112a (S28), and updates the storage unit to register information of the first terminal device 112a (S30). The control device 110 transmits a connection authentication permission signal to the first terminal device 112a (S32). The control device 110 transmits a disconnection request signal to the first terminal device 112a (S34). The first terminal device 112a transmits a disconnection response signal to the control device 110 (S36), and disconnects. The control device 110 updates the storage unit so as to delete the information of the first terminal device 112a (S38). Control device 110 performs frequency channel change (S40).

  The control device 110 deletes the link with the first terminal device 112 a in order to execute the channel change process. However, before the channel change process is performed, if the first terminal device 112a is connected, the control device 110 has to delete the link with the first terminal device 112a again. Therefore, the processing of steps 20 to 38 in FIG. 2 can be said to be useless processing. Of these steps, the number of steps to be performed should be reduced to efficiently change the frequency channel.

  FIG. 3 is a sequence diagram showing another channel change procedure by the communication system to be compared with the communication system 100. As shown in FIG. Here, in order to clarify the explanation, it is assumed that only the relay device 114 and the second terminal device 112b are registered in the control device 110. Control device 110 starts channel change processing under a situation where frequency channel “1 ch” is used (S50). The control device 110 transmits a disconnection request signal to the second terminal device 112b via the relay device 114 (S52, S54). The second terminal device 112 b transmits a disconnection response signal to the control device 110 via the relay device 114 (S 56, S 58), and disconnects. The control device 110 updates the storage unit so as to delete the information of the second terminal device 112b (S60). The second terminal device 112b starts reconnection (S62). The second terminal device 112b transmits a beacon request signal on the frequency channel "1ch" (S64). The second terminal device 112b also transmits a beacon request signal on the frequency channel "Nch" (S66). The relay device 114 transmits a beacon signal on the frequency channel "1ch" (S68).

  The second terminal device 112 b transmits a connection authentication request signal to the control device 110 via the relay device 114 (S 70, S 72). The control device 110 permits connection authentication of the second terminal device 112 b (S 74), and updates the storage unit to register information of the second terminal device 112 b (S 76). The control device 110 transmits a connection authentication permission signal to the second terminal device 112b via the relay device 114 (S78, S80). The control device 110 transmits a disconnection request signal to the second terminal device 112b via the relay device 114 (S82, S84). The second terminal device 112 b transmits a disconnection response signal to the control device 110 via the relay device 114 (S 86, S 88), and disconnects. The control device 110 updates the storage unit so as to delete the information of the second terminal device 112b (S90). The control device 110 transmits a disconnection request signal to the relay device 114 (S92). The relay device 114 transmits a disconnection response signal to the control device 110 (S94), and disconnects. Control device 110 performs frequency channel change (S96).

  As in the case of FIG. 2, the control device 110 deletes the link with the second terminal device 112 b and the relay device 114 in order to execute the channel change process. However, when the second terminal device 112 b is connected before the channel change process is performed, the control device 110 has to delete the link with the second terminal device 112 b again. Therefore, the processing of steps 64 to 90 in FIG. 3 can be said to be useless processing. Of these steps, the number of steps to be performed should be reduced to efficiently change the frequency channel.

  FIG. 4 shows the configuration of the control device 10. The control device 10 includes a communication unit 40, a channel change unit 42, a data processing unit 44, a control unit 46, and a storage unit 52. The communication unit 40 includes a reception unit 48 and a transmission unit 50. The data processing unit 44 includes an application processing unit 60. The control unit 46 includes a disconnection processing unit 54, a connection processing unit 56, and a determination unit 58.

  The communication unit 40 executes the processing corresponding to the HAN communication 22 to execute communication with the terminal device 12 and the relay device 14, and executes the processing corresponding to the upper communication 24 to thereby perform communication with the smart meter 16. Perform communication. Here, for the HAN communication 22, the communication unit 40 uses one frequency channel among a plurality of frequency channels. One frequency channel used in the communication unit 40 is designated by the channel change unit 42. On the other hand, also for the upper communication 24, the communication unit 40 uses one frequency channel among a plurality of frequency channels, but the one frequency channel is the same as one frequency channel used in the HAN communication 22. It may be or may be different. One frequency channel used in the upper communication 24 is determined by the smart meter 16. In the following, the HAN communication 22 will be mainly described, and the description of the upper communication 24 will be omitted.

  The receiving unit 48 receives a packet signal from the first terminal device 12 a and receives a packet signal from the second terminal device 12 b via the relay device 14. The receiving unit 48 has an amplification function, a frequency conversion function, and a demodulation function, and generates a baseband signal from the received packet signal. The receiving unit 48 outputs the baseband signal to the data processing unit 44 and the control unit 46. The transmission unit 50 has a modulation function, a frequency conversion function, and an amplification function, and generates a packet signal from the baseband signal input from the data processing unit 44 and the control unit 46. The transmitting unit 50 transmits a packet signal to the first terminal device 12 a and transmits the packet signal to the second terminal device 12 b via the relay device 14.

  Communication paths of such packet signals are stored as a routing table in the storage unit 52, and the receiving unit 48 and the transmitting unit 50 refer to the routing table stored in the storage unit 52. FIG. 5 shows the data structure of a table stored in the storage unit 52. This can also be said to be information on the registered terminal device 12 and relay device 14. The illustrated “device MAC address” indicates the MAC address of “device type”. Also, “device type” and “connection destination” indicate the connection relationship of devices. Specifically, the first terminal device 12 a of “device type” and the relay device 14 are connected to the control device 10 of “connection destination”, and the second terminal device 12 b of “device type” is “connection destination”. Are connected to the relay device 14 of FIG. Return to FIG.

  The terminal device 12 and the relay device 14 indicated in the routing table are registered after being authenticated in advance in order to ensure security. Although a known technique may be used for the authentication process, for example, a communication protocol of PANA (Protocol for Carrying Authentication) standard is used. As the start of the authentication process, the reception unit 48 receives a connection authentication request signal from a new terminal device 12 or relay device 14. The receiving unit 48 outputs the received connection authentication request signal to the connection processing unit 56. The connection processing unit 56 executes an authentication process, and outputs a connection authentication permission signal to the transmission unit 50 when permitting connection of the new terminal device 12 or the relay device 14. Further, the connection processing unit 56 stores the information of the new terminal device 12 or the relay device 14 in the storage unit 52. The transmitting unit 50 transmits a connection authentication permission signal to the new terminal device 12 or the relay device 14. Thus, the terminal device 12 and the relay device 14 registered in the control device 10 can communicate with the control device 10.

  When the data processing unit 44 receives the baseband signal from the receiving unit 48, the data processing unit 44 processes the baseband signal. On the other hand, the data processing unit 44 generates a baseband signal when data to be transmitted is generated. If the receiving unit 48 has not received the packet signal, the data processing unit 44 outputs the baseband signal to the transmitting unit 50.

  The application processing unit 60 executes an arbitrary application program. The application processing unit 60 receives a trigger for a frequency channel change request from the application program being executed. The control device 10 may include a user interface (not shown), and the application processing unit 60 may receive a trigger for a frequency channel change request from the user via the user interface. The application processing unit 60 outputs a trigger of the frequency channel change request to the channel change unit 42.

  The channel change unit 42 receives a trigger for a frequency channel change request from the application processing unit 60. As described above, when the control device 10 changes the frequency channel, the information of the registered terminal device 12 and relay device 14 must be deleted. Therefore, the channel change unit 42 instructs the disconnection processing unit 54 to disconnect the terminal device 12 and the relay device 14 registered in the storage unit 52.

  The disconnection processing unit 54 receives the disconnection instruction from the channel change unit 42, that is, when the channel change unit 42 starts processing for changing the frequency channel, the terminal device 12 to be disconnected from the storage unit 52. , Information of the relay device 14 is acquired. The disconnection processing unit 54 generates a disconnection request signal by setting the destination based on the acquired information. The disconnection processing unit 54 causes the transmission unit 50 to transmit a disconnection request signal to the terminal device 12 or the relay device 14.

  The receiving unit 48 receives a disconnection response signal to the disconnection request signal transmitted by the transmitting unit 50 from the terminal device 12 or the relay device 14 after the channel changing unit 42 starts the process for changing the frequency channel. The receiving unit 48 outputs a disconnection response signal to the disconnection processing unit 54. The disconnection processing unit 54 receives a disconnection response signal from the receiving unit 48. As a result, it can be said that the disconnection of the terminal device 12 or the relay device 14 is completed, so the disconnection processing unit 54 deletes the information of the terminal device 12 or the relay device 14 of which the disconnection is completed from the storage unit 52. When there are a plurality of terminal devices 12 and relay devices 14 to be disconnected, the disconnection processing unit 54 executes such processing for each terminal device 12 or relay device 14. At this time, when the terminal device 12 is connected to the relay device 14, the disconnection processing unit 54 executes the disconnection process on the terminal device 12 and then executes the disconnection process on the relay device 14.

  Even in such a situation, when receiving the connection authentication request signal from the terminal device 12 or the relay device 14, the receiving unit 48 outputs a connection authentication request signal to the connection processing unit 56. When the channel changer 42 starts the process for changing the frequency channel, the connection processor 56 rejects the connection of the terminal 12 or the relay 14 when the connection authentication request signal is input. The connection processing unit 56 outputs a connection authentication rejection signal to the transmission unit 50 when the connection is rejected. In addition, the transmitting unit 50 transmits a connection authentication rejection signal to the terminal device 12 or the relay device 14. Here, this process will be described in more detail.

  When the channel change unit 42 starts the process for changing the frequency channel, the determination unit 58 stores information on the terminal device 12 or the relay device 14 as the transmission source of the connection authentication request signal received by the reception unit 48. It is checked whether it is stored in the unit 52 or not. If the information on the terminal device 12 or the relay device 14 is not stored in the storage unit 52, the determination unit 58 causes the connection processing unit 56 to output a connection authentication rejection signal. On the other hand, if the information on the terminal device 12 or the relay device 14 is stored in the storage unit 52, the determination unit 58 causes the connection processing unit 56 to output a connection authentication rejection signal, and information on the terminal device 12 or the relay device 14 Is deleted from the storage unit 52. In any of these cases, when the connection processing unit 56 receives a connection authentication request signal, the connection processing unit 56 starts a period (for example, a setting value of 5 seconds) until processing with the terminal device 12 or the relay device 14 times out. Alternatively, after waiting for a short period of time, a connection authentication rejection signal may be output to the transmission unit 50.

  The channel change unit 42 is used by the communication unit 40 when deletion of the information stored in the storage unit 52 is completed, that is, when all the terminal devices 12 or relay devices 14 stored in the storage unit 52 are deleted. Change one frequency channel to another one. At this time, the channel change unit 42 may perform carrier sense via the communication unit 40 to select the frequency channel with the smallest interference power. Also, the channel changing unit 42 may select a frequency channel so as to avoid the frequency channel used in the upper communication 24. The channel change unit 42 controls the communication unit 40 to switch to one frequency channel after the change.

  In terms of hardware, this configuration can be realized with the CPU, memory, or other LSI of any computer, and with software, it can be realized by a program loaded into the memory, etc. Are drawing functional blocks. Therefore, it is understood by those skilled in the art that these functional blocks can be realized in various forms only by hardware and by a combination of hardware and software.

  The operation of the communication system 100 having the above configuration will be described. FIG. 6 is a sequence diagram showing a channel change procedure by the communication system 100. Here, in order to clarify the description, it is assumed that only the first terminal device 12a is registered in the control device 10. The control device 10 starts the channel change process under the condition of using the frequency channel "1 ch" (S100). The control device 10 transmits a disconnection request signal to the first terminal device 12a (S102). The first terminal device 12a transmits a disconnection response signal to the control device 10 (S104), and disconnects. The control device 10 updates the storage unit 52 so as to delete the information of the first terminal device 12a (S106). The first terminal device 12a starts reconnection (S108).

  The first terminal apparatus 12a transmits a beacon request signal on the frequency channel "1ch" (S110). Further, the first terminal apparatus 12a transmits a beacon request signal on the frequency channel "Nch" (S112). The control device 10 transmits a beacon signal on the frequency channel "1ch" (S114). The first terminal device 12a transmits a connection authentication request signal to the control device 10 (S116). The control device 10 rejects the connection authentication of the first terminal device 12a (S118). The control device 10 transmits a connection authentication rejection signal to the first terminal device 12a (S120). The controller 10 executes frequency channel change (S122).

  FIG. 7 is a sequence diagram showing another channel change procedure by the communication system 100. Here, in order to clarify the explanation, it is assumed that only the relay device 14 and the second terminal device 12 b are registered in the control device 10. The control device 10 starts the channel change process under the condition of using the frequency channel "1 ch" (S150). The control device 10 transmits a disconnection request signal to the second terminal device 12b via the relay device 14 (S152, S154). The second terminal device 12b transmits a disconnection response signal to the control device 10 via the relay device 14 (S156, S158), and disconnects. The control device 10 updates the storage unit 52 so as to delete the information of the second terminal device 12b (S160). The second terminal device 12b starts reconnection (S162). The second terminal device 12b transmits a beacon request signal on the frequency channel "1ch" (S164). In addition, the second terminal apparatus 12b transmits a beacon request signal on the frequency channel "Nch" (S166). The relay device 14 transmits a beacon signal on the frequency channel "1ch" (S168).

  The second terminal device 12b transmits a connection authentication request signal to the control device 10 via the relay device 14 (S170, S172). The control device 10 rejects the connection authentication of the second terminal device 12b (S174). The control device 10 transmits a connection authentication rejection signal to the second terminal device 12b via the relay device 14 (S176, S178). The control device 10 transmits a disconnection request signal to the relay device 14 (S180). The relay device 14 transmits a disconnection response signal to the control device 10 (S182), and disconnects. The controller 10 executes frequency channel change (S184).

  FIG. 8 is a sequence diagram showing still another channel change procedure by the communication system 100. Here, in order to clarify the description, it is assumed that only the first terminal device 12a is registered in the control device 10. The control device 10 starts the channel change process under the condition that the frequency channel "1 ch" is used (S200). The first terminal device 12a transmits a connection authentication request signal to the control device 10 (S202). The control device 10 rejects the connection authentication of the first terminal device 12a (S204), and updates the storage unit 52 so as to delete the information of the first terminal device 12a (S206). The control device 10 transmits a connection authentication rejection signal to the first terminal device 12a (S208). The controller 10 executes frequency channel change (S210).

  FIG. 9 is a sequence diagram showing yet another channel change procedure by the communication system 100. Here, in order to clarify the explanation, it is assumed that only the relay device 14 and the second terminal device 12 b are registered in the control device 10. The control device 10 starts the channel change process under the condition of using the frequency channel “1 ch” (S250). The second terminal device 12b transmits a connection authentication request signal to the control device 10 via the relay device 14 (S252, S254). The control device 10 rejects the connection authentication of the second terminal device 12b (S256), and updates the storage unit 52 so as to delete the information of the second terminal device 12b (S258). The control device 10 transmits a connection authentication rejection signal to the second terminal device 12b via the relay device 14 (S260, S262). The control device 10 transmits a disconnection request signal to the relay device 14 (S264). The relay device 14 transmits a disconnection response signal to the control device 10 (S266), and disconnects. The controller 10 executes frequency channel change (S268).

  FIG. 10 is a flowchart showing a channel change procedure by the control device 10. The disconnection processing unit 54 refers to the storage unit 52 (S300), and causes the transmission unit 50 to transmit a disconnection request signal (S302). If the transmitting unit 50 does not receive a packet signal (N in S304), the process waits. The transmitting unit 50 receives a packet signal (Y in S304), and if it is a disconnection response signal (Y in S306), the disconnection processing unit 54 deletes and updates the storage unit 52 (S308). If the deletion is not completed (N in S310), the process returns to step 302. When the deletion is completed (Y in S310), the channel change unit 42 performs channel change (S312).

  Connection processing is not a disconnection response signal (N in S306), a connection authentication request signal (Y in S314), and when information of the terminal device 12 or the relay device 14 is stored in the storage unit 52 (Y in S316), connection processing The unit 56 deletes and updates the storage unit 52 (S318), and causes the transmission unit 50 to transmit a connection authentication rejection signal (S320). When the information of the terminal device 12 or the relay device 14 is not stored in the storage unit 52 (N in S316), the connection processing unit 56 causes the transmission unit 50 to transmit a connection authentication rejection signal (S320). Thereafter, the process returns to step 304. If the connection authentication request signal is not received (N in S314), the data processing unit 44 executes a reception process (S322), and returns to Step 304.

  FIG. 11 is a sequence diagram showing a connection authentication procedure by the communication system 100. This corresponds to the connection authentication procedure according to the PANA standard communication protocol. The first terminal device 12a transmits a client start to the control device 10 (S350). The control device 10 transmits the first authentication request to the first terminal device 12a (S352). The first terminal device 12a transmits the first authentication response to the control device 10 (S354). The control device 10 transmits the second authentication request to the first terminal device 12a (S356). The first terminal device 12a transmits a second authentication response to the control device 10 (S358). The control device 10 transmits the third authentication request to the first terminal device 12a (S360). The first terminal device 12a transmits the third authentication response to the control device 10 (S362).

  The control device 10 derives the values of the authentication counter and the output frame counter (S364). The control device 10 transmits the fourth authentication request to the first terminal device 12a (S366). The first terminal device 12a transmits the fourth authentication response to the control device 10 (S368). The control device 10 sets an input frame counter (S370). The first terminal apparatus 12a sets MAC Key (S372), sets an authentication (output) counter (S374), and sets an input frame counter (S376). Here, client start corresponds to the connection authentication request signal described above. For the control device 10, a period from reception of the client start to timeout of processing for transmitting each authentication request is defined. The control device 10 transmits each authentication request within a range shorter than the period and while delaying, and finally rejects the connection.

  According to this embodiment, when the process for changing the frequency channel is started, the connection authentication refusal signal is transmitted even if the connection authentication request signal is received, so that the connection of the terminal device or the relay device can be avoided. . In addition, since the connection of the terminal device or the relay device is avoided, the period until the disconnection of the terminal device or the relay device is completed can be shortened. In addition, since the period until the disconnection of the terminal device or the relay device is completed is shortened, the frequency channel used for communication even if the frequency channel is changed after the disconnection of the terminal device or the relay device is completed. Can be efficiently changed.

  Further, since the disconnection request signal is transmitted when the channel change unit starts the process for changing the frequency channel, the terminal device or the relay device can be disconnected. Further, when the channel change unit starts processing for changing the frequency channel and receives the disconnection response signal to the disconnection request signal, the information on the terminal device or the relay device is deleted from the storage unit, so that the registration can be deleted. . Also, if the connection authentication request signal is received and the information on the terminal device or the relay device is not stored in the storage unit, the connection authentication refusal signal is transmitted, so disconnection is performed while confirming that it is not registered. it can. In addition, if the connection authentication request signal is received and the information related to the information on the terminal device or the relay device is stored in the storage unit, the connection authentication refusal signal is transmitted and the information is deleted from the storage unit. Can perform deletion and disconnection.

  Further, since the frequency channel is changed when the deletion of the information stored in the storage unit is completed, the frequency channel can be changed according to the processing rule. In addition, since the connection authentication rejection signal is transmitted after waiting for a period shorter than the time until the processing times out, the transmission frequency of unnecessary packet signals can be reduced.

  The outline of one aspect of the present invention is as follows. The control device 10 according to an aspect of the present invention includes the communication unit 40 using one of the plurality of frequency channels, and the communication unit 40 receives the connection authentication request signal from the wireless devices 12 and 14 and wirelessly When the connection of the devices 12 and 14 is permitted, the control unit 46 causes the communication unit 40 to transmit a connection authentication permission signal from the communication unit 40 to the wireless devices 12 and 14, and one frequency channel used in the communication unit 40 is another one. And a channel change unit for changing to a frequency channel. The control unit 46 communicates the connection authentication rejection signal even when the communication unit 40 receives the connection authentication request signal from the wireless devices 12 and 14 when the channel change unit 42 starts the process for changing the frequency channel. It is transmitted from the unit 40 to the wireless devices 12 and 14.

  The control unit 46 may cause the communication unit 40 to transmit the disconnection request signal to the wireless devices 12 and 14 when the channel change unit 42 starts the process for changing the frequency channel.

  It may further include a storage unit 52 that stores information related to the registered wireless devices 12 and 14. The control unit 46 starts the processing for the channel change unit 42 to change the frequency channel, and when the communication unit 40 receives a disconnection response signal to the disconnection request signal from the wireless devices 12 and 14, The information related to 14 may be deleted from the storage unit 52.

  It may further include a storage unit 52 that stores information related to the registered wireless devices 12 and 14. When the channel change unit 42 starts the process for changing the frequency channel, the control unit 46 (1) the communication unit 40 receives the connection authentication request signal from the wireless devices 12 and 14, and the wireless device 12, If the information on 14 is not stored in the storage unit 52, the communication unit 40 transmits a connection authentication rejection signal from the communication unit 40 to the wireless devices 12 and 14. (2) The communication unit 40 transmits a connection authentication request signal from the wireless devices 12 and 14. If it is received and information on the wireless devices 12 and 14 is stored in the storage unit 52, the connection authentication rejection signal is transmitted from the communication unit 40 to the wireless devices 12 and 14, and information on the wireless devices 12 and 14 is stored. It may be deleted from the part 52.

  The channel change unit 42 may change the frequency channel when the deletion of the information stored in the storage unit 52 is completed.

  The control unit 46 may transmit a connection authentication refusal signal from the communication unit 40 to the wireless devices 12 and 14 after waiting for a period shorter than the time until processing with the wireless devices 12 and 14 times out.

  Another aspect of the present invention is a communication system 100. The communication system 100 includes a control device 10 and wireless devices 12 and 14 connectable to the control device 10. In the control device 10, the communication unit 40 using one of the plurality of frequency channels, the communication unit 40 receives the connection authentication request signal from the wireless devices 12 and 14, and the connection of the wireless devices 12 and 14 Control unit 46 that causes the communication unit 40 to transmit a connection authentication permission signal from the communication unit 40 to the wireless devices 12 and 14, and a channel that changes one frequency channel used in the communication unit 40 to another frequency channel And a change unit. The control unit 46 communicates the connection authentication rejection signal even when the communication unit 40 receives the connection authentication request signal from the wireless devices 12 and 14 when the channel change unit 42 starts the process for changing the frequency channel. It is transmitted from the unit 40 to the wireless devices 12 and 14.

  Yet another aspect of the present invention is a communication method. The method comprises the steps of using one of a plurality of frequency channels and connecting when a connection authentication request signal is received from the wireless device 12, 14 and connection of the wireless device 12, 14 is permitted. The steps of transmitting an authentication grant signal to the wireless device 12, 14; changing one frequency channel to be used to another frequency channel; and connecting when the process for changing the frequency channel is started Sending a connection authentication rejection signal to the wireless devices 12, 14 even if the authentication request signal is received from the wireless devices 12, 14.

  The present invention has been described above based on the embodiments. It is understood by those skilled in the art that this embodiment is an exemplification, and that various modifications can be made to their respective components or combinations of processing processes, and such modifications are also within the scope of the present invention. .

  Reference Signs List 10 control device, 12 terminal devices (wireless devices), 14 relay devices (wireless devices), 16 smart meters, 18 collection control station, 22 HAN communication, 24 upper level communication, 26 multi-hop communication, 28 houses, 40 communication units, 42 Channel change unit, 44 data processing unit, 46 control unit, 48 reception unit, 50 transmission unit, 52 storage unit, 54 disconnection processing unit, 56 connection processing unit, 58 determination unit, 60 application processing unit, 100 communication system.

Claims (7)

A communication unit using a first frequency channel among the plurality of frequency channels;
A control unit that causes the communication unit to transmit a connection authentication permission signal to the wireless device when the communication unit receives a connection authentication request signal from the wireless device and permits connection of the wireless device;
A channel change unit capable of changing the first frequency channel used in the communication unit to another frequency channel;
The channel change unit receives a trigger for a frequency channel change request,
The control unit causes the communication unit to transmit a disconnection request signal to the wireless device in the first frequency channel when the channel change unit receives a trigger for the frequency channel change request.
The channel change unit changes the first frequency channel to a second frequency channel different from the first frequency channel when disconnection of the wireless device connected in the first frequency channel is completed.
Wherein, after said channel changing unit accepts a trigger of the frequency channel change request, said even the communication unit at a first frequency channel receives the connection authentication request signal from the wireless device, wherein the first frequency channel control device according to claim connection authentication refusal signal from the communication unit to be transmitted to the wireless device in. It further comprises a storage unit for storing information on the registered wireless device,
Wherein, when the disconnection response signal to the disconnection request signal is the communication unit has received from the wireless device, according to information relating to the wireless device in claim 1, characterized in that to remove from the storage unit Control device. It further comprises a storage unit for storing information on the registered wireless device,
After the channel change unit receives a trigger for the frequency channel change request , the control unit (1) the communication unit receives a connection authentication request signal from the wireless device, and the information on the wireless device is the storage unit If the communication unit does not store the connection authentication refusal signal from the communication unit to the wireless device, (2) the communication unit receives a connection authentication request signal from the wireless device, and the information related to the wireless device is the memory if it is stored in the part, the connection authentication refusal signal causes transmitted from the communication unit to the wireless device, control device provides information about the wireless device in claim 1, characterized in that to remove from the storage unit . 4. The control device according to claim 2 , wherein the channel change unit changes the first frequency channel to the second frequency channel when deletion of the information stored in the storage unit is completed. .   The control unit causes the communication unit to transmit a connection authentication refusal signal to the wireless device after waiting for a period shorter than a period until processing with the wireless device times out. Control device as described. A controller,
A wireless device connectable to the control device;
The controller is
A communication unit using a first frequency channel among the plurality of frequency channels;
A control unit that causes the communication unit to transmit a connection authentication permission signal to the wireless device when the communication unit receives a connection authentication request signal from the wireless device and permits connection of the wireless device;
A channel change unit capable of changing the first frequency channel used in the communication unit to another frequency channel;
The channel change unit receives a trigger for a frequency channel change request,
The control unit causes the communication unit to transmit a disconnection request signal to the wireless device in the first frequency channel when the channel change unit receives a trigger for the frequency channel change request.
The channel change unit changes the first frequency channel to a second frequency channel different from the first frequency channel when disconnection of the wireless device connected in the first frequency channel is completed.
Wherein, after said channel changing unit accepts a trigger of the frequency channel change request, said even the communication unit at a first frequency channel receives the connection authentication request signal from the wireless device, wherein the first frequency channel A communication authentication refusal signal is transmitted from the communication unit to the wireless device. Using a first frequency channel of the plurality of frequency channels;
Transmitting a connection authentication permission signal to the wireless device when receiving a connection authentication request signal from the wireless device and permitting connection of the wireless device;
Accepting a trigger for a frequency channel change request;
Sending a disconnect request signal to the wireless device on the first frequency channel when a trigger for the frequency channel change request is received;
Changing the first frequency channel to a second frequency channel different from the first frequency channel when disconnection of the wireless device connected in the first frequency channel is completed;
Transmitting a connection authentication rejection signal to the wireless device on the first frequency channel even if a connection authentication request signal is received from the wireless device on the first frequency channel after receiving the trigger of the frequency channel change request ; ,
A communication method comprising:

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