WO2012131854A1 - Communications system - Google Patents
Communications system Download PDFInfo
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- WO2012131854A1 WO2012131854A1 PCT/JP2011/057445 JP2011057445W WO2012131854A1 WO 2012131854 A1 WO2012131854 A1 WO 2012131854A1 JP 2011057445 W JP2011057445 W JP 2011057445W WO 2012131854 A1 WO2012131854 A1 WO 2012131854A1
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- gateway
- nodes
- wireless mesh
- smart meter
- mesh network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
- H04W28/021—Traffic management, e.g. flow control or congestion control in wireless networks with changing topologies, e.g. ad-hoc networks
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/50—Service provisioning or reconfiguring
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/02—Services making use of location information
- H04W4/029—Location-based management or tracking services
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/30—Services specially adapted for particular environments, situations or purposes
- H04W4/38—Services specially adapted for particular environments, situations or purposes for collecting sensor information
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/18—Self-organising networks, e.g. ad-hoc networks or sensor networks
- H04W84/22—Self-organising networks, e.g. ad-hoc networks or sensor networks with access to wired networks
Definitions
- the present invention relates to a communication system including a mesh network used in an automatic meter reading system such as electric power.
- a wireless terminal when a wireless terminal newly enters a wireless mesh network, a wireless terminal that wants to enter Determines communication channel status based on information such as received signal strength, power consumption, security level, and anti-interference characteristics in wireless communication with the wireless terminal or base station of the communication partner, and determines the communication quality. And enter the network where the transmission speed is optimal (for example, Patent Document 1).
- an automatic meter reading system that performs automatic meter reading of electric power using the wireless mesh communication technology.
- a wireless communication device is installed in the electricity, gas, and water meter installed in each customer's house such as a detached house or apartment house.
- the acquired meter reading data such as electric power, gas, and water volume is transmitted to a host system (meter reading data management device, business management device, etc.) directly or via other communication devices in the vicinity.
- a gateway is installed on a utility pole, etc.
- Non-Patent Document 1 A meter equipped with a communication device (communication function) is called a smart meter.
- the state of the communication path is judged and the wireless mesh network to be entered is selected, but the number of meters (smart meters) accommodated by each gateway is balanced, that is, the gateway There was a problem that the load distribution between them was not considered.
- the present invention has been made in view of the above, and obtains a communication system that realizes a mesh network capable of autonomously distributing loads between gateways by balancing the number of smart meters accommodated by each gateway. For the purpose.
- a communication system is a single gateway and a node accommodated in the gateway, and is installed in a consumer. Controls the number of nodes accommodated in each of the plurality of wireless mesh networks formed by one or more nodes that measure usage of at least one of the waterworks and each of the gateways, and measures by the nodes
- a management server that collects and manages the results, and if the node wishes to join the wireless mesh network, it can be directly or through one of the gateways that can be connected via another node, Notifies all gateways that can be connected and requests entry, and the gateway manages it.
- a request to join a wireless mesh network When a request to join a wireless mesh network is received from a node, the number of nodes accommodated by itself and the number of nodes accommodated by other gateways to which the requesting node can be connected are confirmed. However, if there is another gateway with a smaller number of nodes than the number of nodes that it owns, request the requesting node to join the wireless mesh network managed by the other gateway. It is characterized by giving instructions.
- the gateway that has received a request to enter the wireless mesh network has a smaller number of nodes than the number of nodes that the gateway itself has accommodated, and can be connected to the entry request source node.
- an instruction to enter a wireless mesh network managed by another gateway is given, so that the load distribution between the gateways can be autonomously achieved.
- FIG. 1 is a diagram showing a configuration example of a communication system according to the present invention.
- FIG. 2 is a diagram illustrating an example in which a smart meter newly enters the wireless mesh network.
- FIG. 3 is a diagram for explaining a control operation in the communication system according to the first embodiment.
- FIG. 4 is a diagram for explaining a control operation in the communication system according to the second embodiment.
- FIG. 5 is a diagram for explaining a control operation in the communication system according to the third embodiment.
- FIG. 6 is a diagram for explaining a control operation in the communication system according to the fourth embodiment.
- FIG. 7 is a diagram for explaining a control operation in the communication system according to the fifth embodiment.
- FIG. 8 is a diagram illustrating an example in which a smart meter newly enters the wireless mesh network.
- FIG. 9 is a diagram illustrating an example in which a smart meter newly enters the wireless mesh network.
- FIG. 10A is a diagram for explaining a control operation in the communication system according to the sixth embodiment.
- FIG. 10B is a diagram for explaining a control operation in the communication system according to the sixth embodiment.
- FIG. 11 is a diagram for explaining a control operation in the communication system according to the seventh embodiment.
- FIG. 1 is a diagram showing a configuration example of a communication system according to the present invention.
- the communication system according to the present invention includes server devices 1 and 2, a gateway 10 (hereinafter also referred to as GW # 1) and a gateway 20 (hereinafter also referred to as GW # 1) connected to these server devices via a wide area network 3. , And GW # 2) and a plurality of smart meters 101 to 113 and 201 to 212 that are directly or indirectly connected to the gateway 10 or 20.
- Each gateway forms a wireless mesh network with the subordinate smart meter.
- the server device 1 collects meter reading data such as power, gas, or water amount from a smart meter (a smart meter that has already entered the wireless mesh network) via the gateway 10 or 20. .
- the server device 2 manages the route and state (number of smart meters accommodated in each gateway, installation position of each smart meter, etc.) in each wireless mesh network.
- Each gateway (GW # 1, GW # 2) connects the wireless mesh network formed with the subordinate smart meter and the wide area network 3.
- Each smart meter (smart meters 101 to 113, 201 to 212) has a function of connecting to other smart meters or gateways by wireless communication, and a function of measuring usage of electricity, gas, water, etc. (meter reading function) Have.
- the smart meters 101 to 113 perform bidirectional data communication with the server apparatuses 1 and 2 via the gateway 10 (GW # 1).
- the smart meters 201 to 212 perform bidirectional data communication with the server apparatuses 1 and 2 via the gateway 20 (GW # 2).
- a dotted line connecting each gateway and the smart meter, and a dotted line connecting the smart meters indicate the communication path of the wireless mesh network.
- the wireless communication function of the smart meter shall be compliant with one or more of specific low power wireless, wireless LAN (Local Area Network) (IEEE802.11), ZigBee (IEEE802.15.4), etc.
- the server devices 1 and 2 have different functions and are therefore separate devices. However, the server devices 1 and 2 may be realized by a single device having a function of collecting meter reading data and a function of managing routes and states in the wireless mesh network.
- the wide area network 3 is a network between each gateway and each server device, and is a wireless system such as a mobile phone or a wired system using an optical fiber or a telephone line (modem, ADSL (Asymmetric Digital Subscriber Line)). It is a wide area network.
- FIG. 2 is a diagram showing an example in which a smart meter newly enters one of the wireless mesh networks included in the communication system shown in FIG. Specifically, a case where a smart meter 301 is newly installed and entered into a wireless mesh network under GW # 1 or a wireless mesh network under GW # 2 is shown.
- the radio wave reachable range of the smart meter 301 is indicated by a one-dot chain line, and the installation position of the smart meter 301 can communicate with the smart meter 113 under the GW # 1 and the smart meter 212 under the GW # 2. It has become a position.
- FIG. 3 is a diagram for explaining a control operation in the communication system according to the first embodiment.
- FIG. 2 An example of an operation when a smart meter 301 is newly installed at the position shown in FIG. 2 is shown. It is a sequence diagram. The operation of the present embodiment (operation when the smart meter 301 newly enters the wireless mesh network) will be described with reference to FIGS.
- the server apparatus 2 is referred to as a network management server 2 in order to distinguish the server apparatuses 1 and 2.
- step S101 an adjacent search operation is performed in order to select a wireless mesh network as an entry destination.
- the smart meter 301 first activates a search response message reception waiting timer and broadcasts a search request message (step S102).
- the broadcast search request message reaches the adjacent smart meters 113 and 212 that are within the radio wave reach of the smart meter 301, and the smart meters 113 and 212 have the gateway ID ( (# 1 or # 2) and the number of hops to the gateway are included in the search response message and transmitted to the smart meter 301 (steps S103 and S104).
- the number of hops is a number indicating how many smart meters reach the local node from the gateway, and in the case of being able to communicate directly with the gateway, when passing through one or one smart meter. Is N + 1 when passing through 2 or N smart meters.
- the smart meter 301 is a gateway from among one or a plurality of search response messages received until that time (from the time the timer was started until the time out). The one with the smallest number of hops is selected, and the transmission source smart meter of the selected message is set as the connection destination of the wireless mesh network to be entered.
- the smart meter 113 (GW # 1 side) is set as the connection destination of the wireless mesh network to be entered here (step S105). At this time, GW # 2 is treated as an adjacent gateway.
- N A plurality of different selection conditions such as received signal strength (RSSI (Receive Signal Strength Indicator)) at the time of message reception are provided so that one of the search response messages can be selected.
- RSSI Receiveive Signal Strength Indicator
- search response message reception wait timer is activated again to broadcast the search request message (step S102). This operation is repeated until a search response message is received.
- the smart meter 301 When the neighbor search operation (steps S102 to S105) in step S101 is performed and the entry destination selection is completed, the smart meter 301 then starts a response waiting timer and selects it as a connection destination of the wireless mesh network to enter.
- the entry registration request message is transmitted to GW # 1 that manages the wireless mesh network of the entry destination via the adjacent smart meter 113 (step S106).
- GW ID indicating the wireless mesh network is also notified.
- the entry registration request message includes information (authentication information) necessary for authentication processing on the gateway side.
- the smart meter 301 transmits the entry registration message again, and from GW # 1 before the response waiting timer times out.
- the response waiting timer is stopped.
- the GW # 1 authenticates the smart meter 301 using the authentication information included in the received entry registration request message (step S107), and determines the number of smart meters that have entered, that is, the number of accommodated smart gateways, that is, the adjacent gateway. A comparison is made with the number of accommodations on the side (here, GW # 2) (step S108).
- the accommodation number on the adjacent GW # 2 side is managed by the network management server 2, and the GW # 1 acquires and holds information on the accommodation number on the adjacent gateway side in advance from the network management server 2 ( The operation for acquiring information on the number of accommodation will be described later).
- the number of accommodations on the adjacent gateway side is small, it is determined whether or not the smart meter 301 can enter another wireless mesh network based on the information on the adjacent gateway included in the entry registration request message ( Step S109).
- step S107 authentication of the smart meter 301
- NG entry registration response message to which registration acceptance is not possible
- GW # 1 has a small number of accommodations on the side of GW # 2 and the smart meter 301 can also enter a wireless mesh network under GW # 2 (step S108: small number of accommodations, step S109: Yes).
- step S109 when it is determined in step S109 that it is possible to enter another wireless mesh network, it is determined that entry is not possible). Updates the number of accommodations managed by itself (step S111), and transmits an entry registration response message to which registration acceptance is permitted (OK) instead of the entry registration response message transmitted in step S112.
- the smart meter 301 instructed to re-enter by the entry registration response message transmits an entry registration request message to the GW # 2 via the adjacent smart meter 212 to which the designated wireless mesh network is connected (step) S113).
- GW # 2 authenticates smart meter 301 using the authentication information included in the received entry registration request message (step S114), and the gateway (GW # 1) adjacent to its own number of accommodations It compares with the accommodation number of the side (step S115). If the accommodation number on the adjacent gateway side is small (step S115: small accommodation number), whether or not the smart meter 301 can enter another wireless mesh network based on the information of the adjacent gateway included in the entry registration request message If it is possible to enter (step S116: Yes), it is determined to instruct re-entry to the adjacent gateway (step S117).
- step S115 the number of accommodations on the adjacent GW side is large
- the accommodation number is updated (step S118), and the entry registration response message to which registration acceptance (OK) is given is sent to the smart meter. It transmits with respect to 301 (step S119).
- GW # 2 After transmitting the entry registration response message, GW # 2 transmits a registration request message with the ID of the smart meter 301 that has entered the network management server 2 (step S120). In the network management server 2, The accommodation number of GW # 2 is updated (step S121), and similarly, the accommodation number of adjacent GW # 1 that manages the accommodation number (the number of smart meters accommodated by GW # 1) and registration reception are possible ( An entry registration response message to which OK is given is transmitted to GW # 2 (step S122).
- GW # 2 stores the number of adjacent GWs that has been assigned to the entry registration response message received from the network management server 2 (step S123).
- GW # 2 uses the accommodation number of adjacent GWs notified by this entry registration response message (accommodation number of smart meters in GW # 1) in the process of step S115 described above.
- accommodation number of smart meters in GW # 1 is shown, but the same applies to the case where the new smart meter 301 enters the GW # 1 side. That is, the network management server 2 transmits to GW # 1 an entry registration response message with the number of adjacent GW # 2 accommodated and registration acceptance (OK), and GW # 1 is added to the received message.
- the number of accommodated adjacent GWs (GW # 2) is stored.
- the network management server 2 updates the GW # 2 after updating the GW # 2 with respect to another GW adjacent to the GW # 2 (which is GW # 1 in the example of FIG. 3). Notify the number of accommodation. In addition, you may make it notify directly the accommodation number after updating with respect to each GW with which GW # 2 itself adjoins. If the number of accommodations in a certain GW changes, the notification may be performed by any procedure as long as the latest number of accommodations after the change is notified to all adjacent GWs.
- the newly installed smart meter selects the gateway ID indicating the single or plural other wireless mesh networks detected by the adjacent search operation as the entry destination. Notification is made at the time of entry registration to the gateway of the network, and the gateway that has received entry registration compares the number of adjacent gateways notified from the network management server with the number of accommodations managed by itself, and the newly installed smart meter. On the other hand, a gateway with a small number of accommodations is specified and re-entry is instructed, and a newly installed smart meter performs entry registration again in accordance with the instructions, so the number of smart meters that each gateway accommodates is balanced. That is, load balancing between gateways can be achieved autonomously
- Embodiment 2 the second embodiment will be described.
- the configuration of the communication system will be described assuming that it is the same as that of the first embodiment (see FIG. 1).
- a case where a smart meter 301 is newly installed at the position shown in FIG. 2 will be described.
- FIG. 4 is a diagram for explaining a control operation in the communication system according to the second embodiment. Specifically, for one of the wireless mesh networks included in the communication system according to the second embodiment. The sequence diagram which shows an example of operation
- the operation of the present embodiment operation when the smart meter 301 newly enters the wireless mesh network
- each gateway (GW # 1, GW # 2) activates a notification information timer, and the number of accommodated smart meters (accommodated smart meters).
- the broadcast information message to which the total number of messages is given is broadcast at regular intervals (steps S201 to S204).
- Each smart meter that has received the broadcast information message stores the accommodation number given to the received message.
- step S205 When a smart meter 301 is newly installed in a situation where a broadcast information message to which the number of accommodations is given is constantly broadcast at regular intervals, an adjacent search operation (step S205) is performed in order to first select a wireless mesh network as an entry destination. To implement. In step S205, the smart meter 301 first starts a timer for waiting for reception of a search response message, and broadcasts a search request message (step S206).
- the broadcast search request message reaches the adjacent smart meters 113 and 212 that are within the radio wave reach of the smart meter 301, and the smart meters 113 and 212 have the gateway ID ( # 1 or # 2), the number of hops to the gateway, and the number of accommodated gateways acquired from the gateway by receiving the broadcast information message described above are placed in the search response message and sent to the smart meter 301. (Steps S207 and S208).
- the number of hops is as described in the first embodiment.
- the smart meter 301 selects the single or multiple search response messages that have been received so far, and selects the one with the smallest number of gateways.
- the message transmission source smart meter is the connection destination of the wireless mesh network to be entered.
- the smart meter 212 (GW # 2 side) is set as the connection destination of the wireless mesh network to be entered here (step S209). At this time, GW # 1 is treated as an adjacent gateway.
- N A plurality of different selection conditions such as the number of hops to the gateway and the received signal strength (RSSI) at the time of message reception are provided so that one can be selected from the search response message.
- RSSI received signal strength
- search response message reception wait timer is activated again to broadcast the search request message (step S206). This operation is repeated until a search response message is received.
- step S205 When the neighbor search operation (steps S206 to S209) in step S205 is performed and the entry destination selection is completed, the smart meter 301 then starts a response waiting timer and selects it as a connection destination of the wireless mesh network to enter. Then, an entry registration request message is transmitted to GW # 2 that manages the wireless mesh network of the entry destination via the adjacent smart meter 212 (step S210). Although not shown, the entry registration request message includes information (authentication information) necessary for authentication processing on the gateway side.
- smart meter 301 transmits the entry registration message again, and from GW # 2 before the response waiting timer times out.
- the response waiting timer is stopped.
- GW # 2 authenticates the smart meter 301 using the authentication information included in the received entry registration request message (step S211), updates the number of accommodation (step S212), and grants registration acceptance (OK).
- An entry registration response message is transmitted to the smart meter 113 (step S213).
- GW # 2 After transmitting the entry registration response message, GW # 2 transmits a registration request message with the ID of the smart meter 301 that has entered the network management server 2 (step S214). The accommodation number of GW # 2 is updated (step S215), and an entry registration response message to which registration acceptance is permitted (OK) is transmitted to GW # 2 (step S216).
- each gateway accommodates each smart meter (each smart meter that has entered the wireless mesh network to which the gateway belongs). Broadcast information messages with a certain number of smart meters), and each smart meter adds the gateway capacity to the response message for the newly installed smart meter search request message, The newly installed smart meter selects the one with the smallest number of gateways, and the neighboring smart meter that has returned the response message is used as the connection destination of the wireless mesh network to be entered. Balancing the number of smart meters It is possible to load balancing between Chi gateway autonomously.
- Embodiment 3 FIG. Next, Embodiment 3 will be described.
- the configuration of the communication system will be described assuming that it is the same as that of the first embodiment (see FIG. 1).
- a case where a smart meter 301 is newly installed at the position shown in FIG. 2 will be described.
- FIG. 5 is a diagram for explaining a control operation in the communication system according to the third embodiment. Specifically, for one of the wireless mesh networks included in the communication system according to the third embodiment. It is a sequence diagram which shows an example of operation
- the operation of the present embodiment operation when the smart meter 301 newly enters the wireless mesh network
- each gateway activates a periodic meter reading value collection timer to collect periodic meter reading values, and each smart device accommodated at regular intervals.
- the meter reading data request to which the accommodation number (total number of the accommodated smart meters) is assigned is sequentially transmitted to the meter (steps S301 and S303).
- Each smart meter that has received the meter reading data request message stores the number of accommodated gateways attached to the meter reading data request message, and also gives the gateway a periodic meter reading value (such as power consumption (kWh) at regular intervals).
- the assigned meter reading data response message is transmitted (steps S302 and S304).
- a meter reading data request message for collecting periodic meter readings is sent to each smart meter at regular intervals, and a new smart meter 301 is installed while each smart meter knows the number of gateways accommodated. Then, an adjacent search operation (step S305) is performed in order to select a wireless mesh network as an entry destination first.
- the process of this step S305 and each subsequent step is the same as the process of step S205 demonstrated in Embodiment 2, and each subsequent step. Therefore, the description of the processing after step S305 is omitted.
- the periodic meter-reading data in which the number of accommodations is given to each smart meter accommodated by each gateway (each smart meter that has entered the wireless mesh network to which the gateway belongs).
- Request messages are transmitted at regular intervals, and each smart meter adds a gateway capacity to the response message for the newly installed smart meter search request message, and the newly installed smart meter Since we selected the one with the smallest number of accommodations and the neighboring smart meter that returned the response message as the connection destination of the wireless mesh network to join, balancing the number of smart meters accommodated by each gateway, In other words, it is possible to autonomously distribute the load between gateways. That.
- Embodiment 4 FIG. Next, the fourth embodiment will be described. In the present embodiment, a modification of the communication system according to the second embodiment will be described.
- FIG. 6 is a diagram for explaining a control operation in the communication system according to the fourth embodiment, and specifically shows an example of an operation in which a gateway transmits a notification information message to each smart meter that has already entered. It is a sequence diagram.
- each gateway transmits (broadcasts) a broadcast information message to which the accommodation number is added at regular intervals, as in the gateway described in the second embodiment.
- the number of accommodations is not added every time. That is, in this embodiment, each gateway determines whether there is an increase or decrease in the number of accommodations when transmitting the notification information message at regular intervals compared to the previous transmission of the notification information message (step S401, If there is an increase or decrease (step S401: Yes, step S404: Yes), the accommodation number is given to the notification information message (steps S402, S405), and the notification information message is transmitted (steps S403, S406).
- step S401 when there is no increase / decrease in the accommodation number (step S401: No, step S404: No), the notification information message is transmitted without assigning the accommodation number.
- FIG. 6 only the operation of one gateway (GW # 1) is shown, but the same applies to other gateways.
- the operation when a smart meter is newly installed is the same as that of the second embodiment (the processing of steps S205 to S216 shown in FIG. 4 is performed).
- each gateway gives the accommodation number only when the accommodation number increases or decreases to the broadcast information message broadcast to each smart meter that is accommodated at regular intervals. Therefore, the same effect as in the second embodiment can be obtained, and the information amount of the message to be broadcast can be reduced.
- Embodiment 5 FIG. Next, the fifth embodiment will be described. In the present embodiment, a modified example of the communication system according to the third embodiment will be described.
- FIG. 7 is a diagram for explaining a control operation in the communication system according to the fifth embodiment. Specifically, the meter reading data request message is transmitted to each smart meter to which the gateway has already entered, and a periodic meter reading value is obtained. It is a sequence diagram which shows an example of the operation
- each gateway transmits a meter reading data request message to which the accommodation number is added at regular intervals, as in the gateway described in the third embodiment. However, the number of accommodations is not added every time. That is, in the present embodiment, each gateway, when transmitting a meter reading data request message at regular intervals, determines whether or not the accommodation number has increased or decreased compared to the previous meter reading data request message transmission (step When there is an increase or decrease (step S501: Yes, step S505: Yes), the accommodation number is given to the meter reading data request message (steps S502, S506), and the meter reading data request message is transmitted (step S503). S507).
- step S501 when there is no increase / decrease in the accommodation number (step S501: No, step S505: No), the meter reading data request message is transmitted without assigning the accommodation number.
- FIG. 7 shows only the operation of one gateway (GW # 1), the same applies to other gateways.
- the operation when a smart meter is newly installed is the same as that of the third embodiment (the processing of steps S305 to S316 shown in FIG. 5 is performed).
- each gateway adds the accommodation number only to the meter reading data request message broadcast to each smart meter that is accommodated at a fixed interval when the accommodation number increases or decreases.
- the same effects as in the third embodiment can be obtained, and the amount of information of the meter reading data request message can be reduced.
- Embodiment 6 FIG. Next, the sixth embodiment will be described.
- the configuration of the communication system will be described assuming that it is the same as that of the first embodiment (see FIG. 1).
- FIGS. 8 and 9 are diagrams illustrating an example in which a smart meter newly enters one of the wireless mesh networks included in the communication system having the configuration illustrated in FIG. Specifically, a case where a smart meter 301 is newly installed and entered into a network under GW # 1 or a network under GW # 2 is shown, and FIG. FIG. 9 shows a network configuration at the time when the entry operation of the smart meter 301 is completed (after entry).
- the radio wave reachable range of the smart meter 301 and the smart meter 113 to which the smart meter 301 is connected is indicated by a one-dot chain line.
- the smart meter 301 is installed at a position where communication with only the smart meter 113 under GW # 1 is possible.
- the smart meter 113 to which the smart meter 301 is connected has already entered the network on the GW # 1 side at the start of entry of the smart meter 301, but the smart meter 207 has already entered the network on the GW # 2 side. It is assumed that it is installed in a position where communication is possible.
- 10A and 10B are diagrams for explaining the control operation in the communication system according to the sixth embodiment. Specifically, the operation when the smart meter 301 is newly installed at the position shown in FIG. It is a sequence diagram which shows an example. The operation of the present embodiment (operation when the smart meter 301 newly enters the wireless mesh network) will be described with reference to FIGS. 8 to 10B.
- step S601 When a new smart meter 301 is installed, an adjacent search operation (step S601) is performed in order to select a wireless mesh network as an entry destination.
- the smart meter 301 first starts a search response message reception waiting timer and broadcasts a search request message (step S602).
- the broadcast search request message reaches the adjacent smart meter 113 existing within the radio wave reach of the smart meter 301, and the smart meter 113 receives the gateway ID (# 1) indicating the wireless mesh network of the entry destination.
- the number of hops to the gateway (4 in this example) is included in the search response message and transmitted to the smart meter 301 (step S603). The number of hops is as described in the first embodiment.
- the smart meter 301 selects the one with the smallest number of hops to the gateway from the single or multiple search response messages received so far and selects
- the transmission source smart meter of the received message is set as the connection destination of the wireless mesh network to be entered.
- the smart meter 113 (GW # 1 side) is set as the connection destination of the wireless mesh network to be entered here (step S604).
- the smart meter 301 When the neighbor search operation in steps S601 (steps S602 to S604) is performed and the entry destination selection is completed, the smart meter 301 then starts a response wait timer and selects it as a connection destination of the wireless mesh network to enter.
- the entry registration request message is transmitted to GW # 1 that manages the wireless mesh network of the entry destination via the adjacent smart meter 113 (step S605).
- GW # 1 that manages the wireless mesh network of the entry destination via the adjacent smart meter 113
- there is no other wireless mesh network (wireless mesh network managed by a GW other than GW # 1) that can be entered. Notifies that there is no adjacent gateway indicating that there is no wireless mesh network.
- the smart meter 301 transmits the entry registration message again, and from GW # 1 before the response waiting timer times out.
- the response waiting timer is stopped.
- GW # 1 authenticates the smart meter 301 using the authentication information included in the received entry registration request message (step S606), updates the accommodation number (step S607), and grants registration acceptance (OK).
- An entry registration response message is transmitted to the smart meter 301 (step S608).
- GW # 1 After transmitting the entry registration response message, GW # 1 transmits a registration request message with the ID of the smart meter 301 that has entered the network management server 2 (step S609).
- the network management server 2 updates the accommodation number of GW # 1 (step S610), and transmits an entry registration response message to which registration acceptance (OK) is given to GW # 1 (step S611).
- the network management server 2 transmits the above entry registration response message to the GW # 1, and then determines whether or not load adjustment between the gateways is necessary (step S612). If it is determined that the accommodated number of GW # 1 is greater than the accommodated number of adjacent GW # 2 (step S612: load adjustment required), the switching operation of the wireless mesh network to which the smart meter enters (details will be described later) Implement (step S613 in FIG. 10B). In step S612, for example, when the difference in the number of accommodated gateways is M or more, it is determined that load adjustment is necessary. Moreover, you may judge that load adjustment is required when one accommodation number is more than N% more than the other accommodation number. Also, any other method may be used as long as the load between the gateways can be compared. When the network management server 2 determines that the load adjustment between the gateways is unnecessary in step S612, the entry operation of the smart meter 301 is ended.
- the network management server 2 first enters the difference in the number of accommodations between the gateways and the wireless mesh network of GW # 1. Based on the position information of the smart meter, a smart meter (smart meter that changes the entry destination) to be re-entered into the wireless mesh network of GW # 2 on the side with a low load is selected and the order of re-entry is determined (step) S614). At this time, the accommodation number of GW # 1 is also updated.
- a smart meter to be re-entered among smart meters that have already entered the wireless mesh network of GW # 1 (the gateway on the heavy load side), it is possible to enter another wireless mesh network (that is, other wireless mesh networks) It is possible to communicate with a smart meter that has already entered), and is as close as possible to the newly installed smart meter 301 (the number of hops to the smart meter 301 is small), and located on the route from this smart meter to the smart meter 301 Select the smart meter you are using.
- the re-entry order is such that the smart meter that can directly enter another wireless mesh network is first, and the smart meter that can be entered via the first smart meter is second.
- the third and subsequent determinations are made in the same manner, and the reentry of all the smart meters selected to be reentered is executed efficiently.
- the network management server 2 sequentially enters the selected smart meters 113 and 301 in the order of entry (starting time) from the later, the gateway ID (# 2) indicating the entry destination wireless mesh network, A re-entry instruction message with an entry start time (for example, immediately after 30 seconds) is transmitted (steps S615 and S616).
- the smart meters 113 and 301 that have received the re-entry instruction message perform adjacent search operations (steps S617 and S630) in order to enter the wireless mesh network according to the instructed entry start time.
- step S617 the smart meter 113 instructed to start immediately starts a timer for waiting for reception of a search response message and broadcasts a search request message (step S618).
- the broadcast search request message reaches the adjacent smart meters 109, 207, and 301 existing within the radio wave reach of the smart meter 113, and the smart meters 109 and 207 indicate the gateway mesh indicating the wireless mesh network of the entry destination.
- the ID (# 1 or # 2) and the number of hops to the gateway are included in the search response message and transmitted to the smart meter 113 (steps S620 and S619).
- the smart meter 301 starts an entry start wait timer to wait for the time until entry start specified in the re-entry instruction message received in step S615, and at this point in time, the search response Do not send messages.
- the smart meter 113 selects the gateway 20 (GW #) specified by the re-entry instruction message from the single or multiple search response messages received so far. The one having the smallest number of hops up to 2) is selected, and the transmission source smart meter of the selected message is set as the connection destination of the wireless mesh network to be entered.
- the smart meter 207 since only the smart meter 207 is connected to the GW # 2, here, the smart meter 207 is set as a connection destination of the wireless mesh network to be entered (step S621).
- the search response message reception wait timer is activated again to broadcast the search request message (step S618). This operation is repeated until a search response message can be received.
- step S617 When the neighbor search operation (steps S618 to S621) in step S617 is performed and the entry destination selection is completed, the smart meter 113 then starts a response waiting timer and selects it as a connection destination of the wireless mesh network to enter.
- the entry registration request message is transmitted to GW # 2 that manages the wireless mesh network of the entry destination via the adjacent smart meter 207 (step S622).
- GW # 2 that manages the wireless mesh network of the entry destination via the adjacent smart meter 207 (step S622).
- GW ID indicating the mesh network is also notified.
- the smart meter 113 transmits the entry registration message again, and from GW # 2 before the response waiting timer times out.
- the response waiting timer is stopped.
- GW # 2 authenticates the smart meter 113 using the authentication information included in the received entry registration request message (step S623), updates the accommodation number (step S624), and grants registration acceptance (OK).
- An entry registration response message is transmitted to the smart meter 113 (step S625).
- GW # 2 After transmitting the entry registration response message, GW # 2 transmits a registration request message with the ID of the smart meter 113 that has entered the network management server 2 (step S626). The accommodation number of GW # 2 is updated (step S627), and an entry registration response message to which registration acceptance is permitted (OK) is transmitted to GW # 2 (step S628).
- the network management server 2 After transmitting the entry registration response message to GW # 2, the network management server 2 determines whether or not load adjustment between the gateways is necessary as in step S612 described above (step S629). Here, it is determined that load adjustment is unnecessary (step S629: load adjustment is not required), and the smart meter 113 re-entry operation (switching of entry destinations from the GW # 1 side to the GW # 2 side) ends.
- the smart meter 301 that has received the re-entry instruction message in step S615 activates an entry start wait timer in order to wait for the designated entry start time, and when this timer times out, an adjacent search operation (step S630). ).
- the smart meter 301 stops the operation for entering the mesh network from the time when the entry start waiting timer is started until the time-out occurs.
- the re-entry operation of the smart meter 113 (steps S617 to S629 described above) is executed until the entry start waiting timer times out. In this way, the order of entry is determined in consideration of the positional relationship of each smart meter that the network management server 2 re-enters, and re-entry takes into account that entry operation (re-entry operation) is performed as determined. Since the entry start time is instructed to each smart meter, an efficient re-entry operation can be realized. If the entry start time is not instructed, for example, the entry operation by each smart meter instructed to re-enter may be performed at the same timing.
- Steps S630 to S640 showing the re-entry operation of the smart meter 301 are the same as the operations after the new installation (steps S602 to S611) described above except that the wireless mesh network of the entry destination is different. Therefore, description of the re-entry operation of the smart meter 301 is omitted.
- the network management server 2 determines whether or not load adjustment between gateways is necessary after receiving an entry registration request for a smart meter accommodated in each gateway, and load adjustment is necessary.
- a gateway with a small number of accommodation is specified and re-entry is instructed, and each smart meter instructed to re-enter is specified. Since entry registration is performed again after the entry start time, the number of smart meters accommodated by each gateway can be balanced, that is, load distribution between gateways can be autonomously achieved.
- Embodiment 7 FIG. Next, Embodiment 7 will be described.
- the configuration of the communication system will be described assuming that it is the same as that of the first embodiment (see FIG. 1).
- a case where a smart meter 301 is newly installed at the position illustrated in FIG. 8 will be described.
- each gateway (GW # 1, GW # 2) collects periodic meter reading values as shown in FIG.
- the periodic meter reading value collection timer is activated, and a meter reading data request message with an adjacent search request is transmitted to each smart meter accommodated at a constant interval (step S701).
- the transmission / reception operation of the meter reading data request / response message is described focusing on GW # 1 and smart meter 113, but the operation between GW # 1 and another smart meter, and other gateways The operation between smart meters is the same.
- the smart meter 113 that has received the meter-reading data request message executes an adjacent search operation (step S702).
- this adjacent search operation first, a timer for waiting for reception of a search response message is started and a search request message is broadcast (step S703).
- the broadcast search request message reaches the adjacent smart meters 109 and 207 existing within the radio wave reach of the smart meter 113, and the smart meters 109 and 207 indicate the gateway ID ( (# 1 or # 2) and the number of hops to the gateway are included in the search response message and transmitted to the smart meter 113 (steps S704 and S705).
- the smart meter 113 sets a combination of a gateway ID and a hop number indicating a wireless mesh network based on a single or a plurality of search response messages received so far. Is extracted as a search result, and a periodic meter reading value (power consumption (kWh) at a constant interval) and a meter reading data response message to which the search result is added are transmitted to GW # 1 (step S706).
- Step S707 which has received the meter reading data response message to which the periodic meter reading value (power consumption (kWh) at regular intervals) and the search result are added, searches the network management server 2 for the search notification message to which the search result is added. (Step S707), and the network management server 2 holds the search result of the smart meter 113 (step S708).
- each gateway executes the above-described operation (adjacent search operation in step S702) and notifies the search result to the network management server 2, the network management server 2 can obtain the search result by each smart meter, and the communication. It is possible to grasp the reachability of wireless communication between smart meters entering each wireless mesh network in the system. That is, for each smart meter, it is possible to grasp an adjacent smart meter that can be connected (direct wireless communication is possible).
- step S707 After transmitting the search notification message to the network management server 2 in step S707, the GW # 1 starts the periodic meter-reading collection timer. When the timer times out, the GW # 1 again gives the neighbor metering request to the smart meter 113.
- the meter reading data request message is transmitted (step S709).
- steps S710 to S716) are the same as steps S702 to S708 already described, and thus description thereof is omitted.
- the operation after the smart meter 301 is newly installed in the communication system of the present embodiment that collects meter reading data and search results in the sequence shown in FIG. 11 is substantially the same as the operation described in the sixth embodiment. is there.
- the difference between the operation of the sixth embodiment and the operation of the present embodiment is that the reachability of wireless communication between smart meters is also taken into consideration in the entry switching operation. That is, in the entry operation of the new smart meter in the present embodiment, as described in the sixth embodiment, the smart meter 301 that desires to enter temporarily transmits the wireless of GW # 1 via the adjacent smart meter 113.
- the network management server 2 enters the mesh network (see steps S601 to S611 in FIG.
- the network management server 2 determines whether or not load adjustment between the gateways is necessary, and determines that load adjustment is necessary.
- the load is determined based not only on the position information of each smart meter but also on the reachability of wireless communication between each smart meter including the adjacent wireless mesh network. Select a smart meter to re-enter the GW # 2 wireless mesh network on the smaller side To determine the order in which to re-enter with.
- each smart meter when each smart meter receives a meter reading data transmission request (meter reading data request message) from the gateway, it performs an adjacent search and transmits the adjacent search result to the gateway together with the meter reading data.
- the gateway forwards the neighbor search result received from the smart meter contained in the gateway to the network management server, and the network management server grasps the reachability of the wireless communication between the smart meters based on the received neighbor search result. If the smart meter entry registration request is received and it is determined that load adjustment between gateways is necessary, the smart meter that is the target of entry entry switching executed for load adjustment is assigned to each smart meter. Determined by taking into account location information and reachability of wireless communication between smart meters It was and. As a result, the number of smart meters accommodated by each gateway can be balanced, that is, load distribution among the gateways can be autonomously achieved.
- the present invention is useful as a communication system including a plurality of wireless mesh networks formed by smart meters that are nodes having a function of metering power and the like. It is suitable for a communication system capable of achieving additional distribution among existing gateways.
- server device 2 server device (network management server) 3 Wide area network 10, 20 Gateway 101-113, 201-212, 301 Smart meter
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Abstract
Description
図1は、本発明にかかる通信システムの構成例を示す図である。本発明にかかる通信システムは、サーバ装置1および2と、広域ネットワーク3を介してこれらのサーバ装置に接続されているゲートウェイ10(以下、GW#1と記載する場合もある)およびゲートウェイ20(以下、GW#2と記載する場合もある)と、ゲートウェイ10または20に直接または間接的に接続する複数のスマートメータ101~113および201~212と、を含んで構成されている。各ゲートウェイは、配下のスマートメータとともに無線メッシュネットワークを形成している。
FIG. 1 is a diagram showing a configuration example of a communication system according to the present invention. The communication system according to the present invention includes
つづいて、実施の形態2について説明する。なお、通信システムの構成は実施の形態1と同じものとして説明を行う(図1参照)。また、実施の形態1と同様に、図2に示した位置にスマートメータ301を新たに設置する場合について説明を行う。
Next, the second embodiment will be described. The configuration of the communication system will be described assuming that it is the same as that of the first embodiment (see FIG. 1). As in the first embodiment, a case where a
つづいて、実施の形態3について説明する。なお、通信システムの構成は実施の形態1と同じものとして説明を行う(図1参照)。また、実施の形態1と同様に、図2に示した位置にスマートメータ301を新たに設置する場合について説明を行う。 Embodiment 3 FIG.
Next, Embodiment 3 will be described. The configuration of the communication system will be described assuming that it is the same as that of the first embodiment (see FIG. 1). As in the first embodiment, a case where a
つづいて、実施の形態4について説明する。本実施の形態では、実施の形態2の通信システムの変形例について説明する。 Embodiment 4 FIG.
Next, the fourth embodiment will be described. In the present embodiment, a modification of the communication system according to the second embodiment will be described.
つづいて、実施の形態5について説明する。本実施の形態では、実施の形態3の通信システムの変形例について説明する。
Next, the fifth embodiment will be described. In the present embodiment, a modified example of the communication system according to the third embodiment will be described.
つづいて、実施の形態6について説明する。なお、通信システムの構成は実施の形態1と同じものとして説明を行う(図1参照)。 Embodiment 6 FIG.
Next, the sixth embodiment will be described. The configuration of the communication system will be described assuming that it is the same as that of the first embodiment (see FIG. 1).
つづいて、実施の形態7について説明する。なお、通信システムの構成は実施の形態1と同じものとして説明を行う(図1参照)。本実施の形態では、実施の形態6と同様に、図8に示した位置にスマートメータ301を新たに設置する場合について説明を行う。
Next,
2 サーバ装置(ネットワーク管理サーバ)
3 広域ネットワーク
10,20 ゲートウェイ
101~113,201~212,301 スマートメータ 1
3
Claims (9)
- 単一のゲートウェイ、および当該ゲートウェイに収容されているノードであって、需要家に設置され、電力、ガスおよび水道の中の少なくとも1つについての使用量を計測する1つ以上のノード、により形成された複数の無線メッシュネットワークと、前記ゲートウェイ各々に収容されているノードの数を管理するとともに前記ノードによる計測結果を収集して管理する管理サーバとを備え、
前記ノードは、無線メッシュネットワークへの参入を希望する場合、直接または他のノードを介して接続が可能なゲートウェイの中の1つに対して、接続が可能なゲートウェイすべての情報を通知するとともに参入を要求し、
前記ゲートウェイは、自身が管理している無線メッシュネットワークである自ネットワークへの参入要求をノードから受けると、自身が収容しているノードの数と、要求元のノードが接続可能な他のゲートウェイが収容しているノードの数とを確認し、自身が収容しているノード数よりも収容ノード数が少ない他のゲートウェイが存在する場合には、当該他のゲートウェイが管理している無線メッシュネットワークに参入するよう、要求元のノードに対して指示を行う
ことを特徴とする通信システム。 Formed by a single gateway and one or more nodes housed in the gateway that are installed at the consumer and measure usage for at least one of power, gas and water A plurality of wireless mesh networks, and a management server that manages the number of nodes accommodated in each of the gateways and collects and manages measurement results by the nodes,
When the node wishes to enter the wireless mesh network, it notifies one of the gateways that can be connected directly or through another node, and notifies all of the gateways that can be connected. Request and
When the gateway receives an entry request from the node, which is a wireless mesh network managed by itself, from the node, the number of nodes accommodated by the gateway and other gateways to which the requesting node can be connected are If there is another gateway with a smaller number of nodes than the number of nodes it owns, the wireless mesh network managed by the other gateway A communication system characterized by instructing a requesting node to enter. - 前記管理サーバは、前記ゲートウェイ各々に収容されているノードの数が変化した場合、変化後のノード数を前記ゲートウェイ各々に通知する
ことを特徴とする請求項1に記載の通信システム。 The communication system according to claim 1, wherein, when the number of nodes accommodated in each of the gateways changes, the management server notifies each of the gateways of the changed number of nodes. - 単一のゲートウェイ、および当該ゲートウェイに収容されているノードであって、需要家に設置され、電力、ガスおよび水道の中の少なくとも1つについての使用量を計測する1つ以上のノード、により形成された複数の無線メッシュネットワークと、前記ゲートウェイ各々に収容されているノードの数を管理するとともに前記ノードによる計測結果を収集して管理する管理サーバとを備え、
前記ゲートウェイは、所定の情報を格納した報知情報メッセージを自身が管理している無線メッシュネットワーク内に定期的にブロードキャストするとともに、当該報知情報メッセージを利用して、自身が収容しているノード数の情報をブロードキャストし、
前記ノードは、無線メッシュネットワークへ参入する際、収容しているノード数が最も少ないゲートウェイが管理している無線メッシュネットワークを参入先として選択する
ことを特徴とする通信システム。 Formed by a single gateway and one or more nodes housed in the gateway that are installed at the consumer and measure usage for at least one of power, gas and water A plurality of wireless mesh networks, and a management server that manages the number of nodes accommodated in each of the gateways and collects and manages measurement results by the nodes,
The gateway periodically broadcasts a broadcast information message storing predetermined information in a wireless mesh network managed by the gateway, and uses the broadcast information message to determine the number of nodes accommodated by the gateway. Broadcast information,
When entering the wireless mesh network, the node selects, as an entry destination, a wireless mesh network managed by a gateway having the smallest number of accommodated nodes. - 前記ゲートウェイは、自身が収容しているノード数が変化した場合に、変化後のノード数の情報を前記報知情報メッセージに付加して送信する
ことを特徴とする請求項3に記載の通信システム。 The communication system according to claim 3, wherein when the number of nodes accommodated by the gateway changes, the gateway adds information on the number of nodes after the change to the broadcast information message. - 単一のゲートウェイ、および当該ゲートウェイに収容されているノードであって、需要家に設置され、電力、ガスおよび水道の中の少なくとも1つについての使用量を計測する1つ以上のノード、により形成された複数の無線メッシュネットワークと、前記ゲートウェイ各々に収容されているノードの数を管理するとともに前記ノードによる計測結果を収集して管理する管理サーバとを備え、
前記ゲートウェイは、自身が収容している各ノードに対して、前記使用量の計測結果の通知を要求するためのメッセージを定期的に送信するとともに、当該メッセージを利用して、自身が収容しているノードの数を各ノードへ通知し、
前記ノードは、無線メッシュネットワークへ参入する際、収容しているノード数が最も少ないゲートウェイが管理している無線メッシュネットワークを参入先として選択する
ことを特徴とする通信システム。 Formed by a single gateway and one or more nodes housed in the gateway that are installed at the consumer and measure usage for at least one of power, gas and water A plurality of wireless mesh networks, and a management server that manages the number of nodes accommodated in each of the gateways and collects and manages measurement results by the nodes,
The gateway periodically transmits a message for requesting notification of the measurement result of the usage amount to each node accommodated therein, and uses the message to accommodate the node itself. To each node,
When entering the wireless mesh network, the node selects, as an entry destination, a wireless mesh network managed by a gateway having the smallest number of accommodated nodes. - 前記ゲートウェイは、自身が収容しているノードの数が変化した場合に、変化後のノード数の情報を前記メッセージに付加して送信する
ことを特徴とする請求項5に記載の通信システム。 The communication system according to claim 5, wherein, when the number of nodes accommodated by the gateway changes, the gateway adds information on the number of nodes after the change to the message. - 単一のゲートウェイ、および当該ゲートウェイに収容されているノードであって、需要家に設置され、電力、ガスおよび水道の中の少なくとも1つについての使用量を計測する1つ以上のノード、により形成された複数の無線メッシュネットワークと、前記ゲートウェイ各々に収容されているノードの数および各ノードの位置情報を管理するとともに前記ノードによる計測結果を収集して管理する管理サーバとを備え、
前記ゲートウェイは、自身が管理している無線メッシュネットワークに対して新たなノードが参入した場合、自身が収容しているノード数の情報を更新するとともに更新後のノード数を前記管理サーバに通知し、
前記管理サーバは、前記更新後のノード数が通知されてきた場合、前記ゲートウェイ各々に収容されているノードの数に基づいてゲートウェイ間の負荷調整の必要性について判断し、負荷調整が必要な場合には、前記位置情報に基づいて、過負荷状態のゲートウェイに収容されているノードの一部を選択し、当該選択したノードに対して、参入先を、過負荷状態ではないゲートウェイが管理している無線メッシュネットワークに変更するよう指示する
ことを特徴とする通信システム。 Formed by a single gateway and one or more nodes housed in the gateway that are installed at the consumer and measure usage for at least one of power, gas and water A plurality of wireless mesh networks, and a management server that manages the number of nodes accommodated in each gateway and location information of each node and collects and manages measurement results by the nodes,
When a new node enters the wireless mesh network managed by the gateway, the gateway updates information on the number of nodes accommodated by the gateway and notifies the management server of the updated number of nodes. ,
When the management server is notified of the updated number of nodes, the management server determines the necessity of load adjustment between the gateways based on the number of nodes accommodated in each of the gateways, and the load adjustment is necessary. Based on the location information, select a part of the node accommodated in the overloaded gateway, and manage the entry destination for the selected node by the non-overloaded gateway. A communication system characterized by instructing to change to a wireless mesh network. - 前記管理サーバは、前記選択したノードに対して参入先の変更を指示する際、各ノードに対し、参入先変更動作を実行するタイミングとしてそれぞれ異なる動作開始タイミングを指示することにより、各ノードの参入先変更動作を所望の順番で実行させる
ことを特徴とする請求項7に記載の通信システム。 When the management server instructs the selected node to change the entry destination, it instructs each node to enter a different operation start timing as a timing for executing the entry destination change operation. The communication system according to claim 7, wherein the destination change operation is executed in a desired order. - 前記ゲートウェイは、収容している各ノードに対して、隣接ノードを探索するよう定期的に指示を行って各ノードから探索結果を取得し、当該探索結果を前記管理サーバへ通知し、
前記管理サーバは、前記負荷調整が必要と判断した場合には、前記位置情報および前記探索結果に基づいて、過負荷状態のゲートウェイに収容されているノードの一部を選択する
ことを特徴とする請求項7または8に記載の通信システム。 The gateway periodically instructs each accommodated node to search for neighboring nodes, obtains a search result from each node, notifies the management server of the search result,
When it is determined that the load adjustment is necessary, the management server selects a part of nodes accommodated in an overloaded gateway based on the location information and the search result. The communication system according to claim 7 or 8.
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Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2013118621A (en) * | 2011-10-19 | 2013-06-13 | Toshiba Corp | Methods of establishing communication in sensor network and apparatus |
WO2014065104A1 (en) * | 2012-10-23 | 2014-05-01 | 横河電機株式会社 | Wireless communication system, management device, wireless device, and wireless communication method |
CN106019959A (en) * | 2016-06-01 | 2016-10-12 | 深圳市共进电子股份有限公司 | Intelligent household equipment control method, intelligent household equipment control device, and intelligent household equipment control system |
JP2017011670A (en) * | 2015-06-17 | 2017-01-12 | 財團法人工業技術研究院Industrial Technology Research Institute | Routing gateway selection method, controller and vehicle network system |
JP2017046139A (en) * | 2015-08-26 | 2017-03-02 | 矢崎エナジーシステム株式会社 | Radio device connecting to meter for meter reading |
JP2018515975A (en) * | 2015-04-27 | 2018-06-14 | 厦▲門縦▼行信息科技有限公司 | Networking method and device for network |
JP2019140505A (en) * | 2018-02-09 | 2019-08-22 | Necプラットフォームズ株式会社 | Wireless communication aggregation device |
JP6824488B1 (en) * | 2020-03-06 | 2021-02-03 | 三菱電機株式会社 | Communication terminals, communication devices, communication management devices, communication systems, network entry methods and network entry programs |
JP2021118371A (en) * | 2020-01-22 | 2021-08-10 | 東芝テック株式会社 | Communication system, communication device, and communication method |
WO2022209803A1 (en) * | 2021-03-31 | 2022-10-06 | 日本電気株式会社 | Communication device, communication system, and communication method |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR102098156B1 (en) * | 2018-10-16 | 2020-04-09 | 주식회사 알아이파워 | Remote ble mesh network system and method for configuring the same |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003324449A (en) * | 2002-04-30 | 2003-11-14 | Matsushita Electric Ind Co Ltd | Radio communication terminal and radio communication repeater |
JP2008228178A (en) * | 2007-03-15 | 2008-09-25 | Japan Radio Co Ltd | Radio device |
JP2010193416A (en) * | 2009-02-20 | 2010-09-02 | Mitsubishi Electric Corp | Network system and communication method |
JP2010219801A (en) * | 2009-03-16 | 2010-09-30 | Mitsubishi Electric Corp | Communication system and node management method |
-
2011
- 2011-03-25 WO PCT/JP2011/057445 patent/WO2012131854A1/en active Application Filing
- 2011-03-25 JP JP2013506883A patent/JP5575330B2/en not_active Expired - Fee Related
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003324449A (en) * | 2002-04-30 | 2003-11-14 | Matsushita Electric Ind Co Ltd | Radio communication terminal and radio communication repeater |
JP2008228178A (en) * | 2007-03-15 | 2008-09-25 | Japan Radio Co Ltd | Radio device |
JP2010193416A (en) * | 2009-02-20 | 2010-09-02 | Mitsubishi Electric Corp | Network system and communication method |
JP2010219801A (en) * | 2009-03-16 | 2010-09-30 | Mitsubishi Electric Corp | Communication system and node management method |
Cited By (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2013118621A (en) * | 2011-10-19 | 2013-06-13 | Toshiba Corp | Methods of establishing communication in sensor network and apparatus |
WO2014065104A1 (en) * | 2012-10-23 | 2014-05-01 | 横河電機株式会社 | Wireless communication system, management device, wireless device, and wireless communication method |
JP2014086852A (en) * | 2012-10-23 | 2014-05-12 | Yokogawa Electric Corp | Radio communication system, management apparatus, radio device and radio communication method |
JP2018515975A (en) * | 2015-04-27 | 2018-06-14 | 厦▲門縦▼行信息科技有限公司 | Networking method and device for network |
JP2017011670A (en) * | 2015-06-17 | 2017-01-12 | 財團法人工業技術研究院Industrial Technology Research Institute | Routing gateway selection method, controller and vehicle network system |
JP2017046139A (en) * | 2015-08-26 | 2017-03-02 | 矢崎エナジーシステム株式会社 | Radio device connecting to meter for meter reading |
CN106019959A (en) * | 2016-06-01 | 2016-10-12 | 深圳市共进电子股份有限公司 | Intelligent household equipment control method, intelligent household equipment control device, and intelligent household equipment control system |
JP2019140505A (en) * | 2018-02-09 | 2019-08-22 | Necプラットフォームズ株式会社 | Wireless communication aggregation device |
JP2021118371A (en) * | 2020-01-22 | 2021-08-10 | 東芝テック株式会社 | Communication system, communication device, and communication method |
JP7387460B2 (en) | 2020-01-22 | 2023-11-28 | 東芝テック株式会社 | Communication system, communication device and communication method |
JP6824488B1 (en) * | 2020-03-06 | 2021-02-03 | 三菱電機株式会社 | Communication terminals, communication devices, communication management devices, communication systems, network entry methods and network entry programs |
WO2021176713A1 (en) * | 2020-03-06 | 2021-09-10 | 三菱電機株式会社 | Communication terminal, communication device, communication management device, communication system, network joining method, and network joining program |
WO2022209803A1 (en) * | 2021-03-31 | 2022-10-06 | 日本電気株式会社 | Communication device, communication system, and communication method |
Also Published As
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CN103460725A (en) | 2013-12-18 |
JPWO2012131854A1 (en) | 2014-07-24 |
JP5575330B2 (en) | 2014-08-20 |
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