WO2014170930A1 - ゲートウェイ装置、ゲートウェイ装置を含むネットワークシステム、空調室外機、及び空調ネットワークシステム - Google Patents
ゲートウェイ装置、ゲートウェイ装置を含むネットワークシステム、空調室外機、及び空調ネットワークシステム Download PDFInfo
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/02—Details
- H04L12/16—Arrangements for providing special services to substations
- H04L12/18—Arrangements for providing special services to substations for broadcast or conference, e.g. multicast
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/02—Details
- H04L12/16—Arrangements for providing special services to substations
- H04L12/18—Arrangements for providing special services to substations for broadcast or conference, e.g. multicast
- H04L12/1886—Arrangements for providing special services to substations for broadcast or conference, e.g. multicast with traffic restrictions for efficiency improvement, e.g. involving subnets or subdomains
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/50—Control or safety arrangements characterised by user interfaces or communication
- F24F11/56—Remote control
- F24F11/58—Remote control using Internet communication
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/02—Details
- H04L12/16—Arrangements for providing special services to substations
- H04L12/18—Arrangements for providing special services to substations for broadcast or conference, e.g. multicast
- H04L12/1836—Arrangements for providing special services to substations for broadcast or conference, e.g. multicast with heterogeneous network architecture
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/28—Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
- H04L12/2803—Home automation networks
- H04L12/283—Processing of data at an internetworking point of a home automation network
- H04L12/2836—Protocol conversion between an external network and a home network
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/28—Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
- H04L12/46—Interconnection of networks
- H04L12/4633—Interconnection of networks using encapsulation techniques, e.g. tunneling
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
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- H—ELECTRICITY
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- H04L41/12—Discovery or management of network topologies
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- H04L61/00—Network arrangements, protocols or services for addressing or naming
- H04L61/50—Address allocation
- H04L61/5069—Address allocation for group communication, multicast communication or broadcast communication
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- H—ELECTRICITY
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- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/12—Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L69/00—Network arrangements, protocols or services independent of the application payload and not provided for in the other groups of this subclass
- H04L69/18—Multiprotocol handlers, e.g. single devices capable of handling multiple protocols
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- H—ELECTRICITY
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- H04L45/00—Routing or path finding of packets in data switching networks
- H04L45/16—Multipoint routing
Definitions
- This invention relates to an equipment network using a gateway device.
- band-sharing communication media are generally very narrow band, but are still used in various equipment today for various reasons such as price / operation and connectivity with existing equipment.
- the equipment equipment divides the collision domain, so if the existing equipment is not equipped with multiple communication ports and the collision domain dividing function, the collision domain is not divided. There was a problem that the communication band could not be used efficiently.
- the gateway devices are connected using a broadband communication path while suppressing the communication band for each divided collision domain, Although it is possible to secure a sufficient bandwidth, broadcast communication is performed when N (where N is a natural number of 2 or more) equipment networks with different address systems are divided into collision domains using (N + 1) or more gateway devices. There is a problem in that the reach of multicast communication changes and the packet cannot reach all devices that need to receive the communication.
- the present invention has been made in view of such a situation, and the collision domain is divided by using (N + 1) or more gateway devices in N system networks (N is a natural number of 2 or more) having different address systems.
- the object is to realize broadcast or multicast communication according to the range of the address system.
- the present invention is connected to a non-band-sharing network and is connected to the band-sharing network to transmit and receive data.
- the second interface to be performed, address management means for managing multicast address information for enabling transmission of multicast data from the second interface of the own device, and the data received by the second interface are multicast data.
- a first relay processing unit that adds a header conforming to the protocol of the non-bandwidth shared network and multicast address information to the received multicast data and outputs the multicast data to the first interface, and the first interface Multicast address in received data
- it comprises a second relay processing unit that transmits only the extracted to the second interface the multicast data from the data suitable for the non-bandwidth-sharing network protocol.
- the collision domain is divided by using (N + 1) or more gateways in N equipment systems networks (N is a natural number of 2 or more) having different address systems.
- N is a natural number of 2 or more
- FIG. 3 shows a gateway device 100 in the equipment network in the first embodiment.
- 2 is a network configuration example including the gateway device 100 according to the first embodiment.
- FIG. 3 shows a gateway device 100 in the equipment network in the first embodiment.
- 9 is a flowchart showing an operation when data is transmitted from the communication device 211 in the second embodiment.
- FIG. 4 is a configuration diagram of a gateway device 100 in a third embodiment.
- FIG. 10 is a flowchart until the bridge 100 according to the third embodiment starts relaying other than a frame with the master station 101.
- the block diagram of the gateway apparatus 100 implement
- FIG. 1 is a diagram showing a gateway device in an equipment network according to the first embodiment. The configuration will be described.
- the gateway device 100 includes a first interface 1 and a second interface 2, a first relay processing unit 3, a second relay processing unit 4, and an address management unit 5.
- the first interface 1 is an interface connected to a non-band-sharing and wider-bandwidth network out of two types of networks connected to the gateway device 100.
- a non-band-sharing and wider-bandwidth network out of two types of networks connected to the gateway device 100.
- an interface using Ethernet (registered trademark) Etc. are used.
- the second interface 2 is an interface that is connected to a band-sharing and narrower-band network among the two types of networks connected to the gateway device 100.
- the specific network type is not limited, the present invention is particularly useful in the case of half-duplex communication or a case where a low-speed network is connected.
- the first relay processing unit 3 determines whether the destination address of the data received from the second interface 2 is a multicast address or a broadcast address in the address system of the second interface 2, and In such a case, it has a function of performing an encapsulation process using the address information acquired from the address management unit 5 and sending it from the first interface 1.
- the second relay processing unit 4 matches the data received from the first interface 1 as a result of determining whether the destination address is a multicast address and matches the address information acquired from the address management unit 5. In some cases, the received packet is decapsulated and the processed data is transmitted from the second interface 2. The second relay processing unit 4 has a function of discarding the data received from the first interface 1 when the data is a multicast address and does not match the address information acquired from the address management unit 5.
- the operation when the destination address of the data received from the first interface 1 is broadcast or unicast is arbitrary and is not defined in the present embodiment. That is, the communication protocol used in the broadband network to which the first interface 1 is connected may be used, or the data may be processed according to other arbitrarily defined rules. These broadcast or unicast data are not sent from the first relay processing unit in the present embodiment, but the first interface is connected to the broadband network, and therefore other systems not related to the present invention. There is a possibility that the gateway device may receive the communication due to superimposition of the communication.
- the address management unit 5 has a function of holding and managing address information used by the gateway device 100.
- the address information is information used to determine whether or not a gateway device other than the device itself decapsulates and to determine whether or not the device itself decapsulates a multicast packet received from another gateway device. . This determination is applied to multicast, and the address held in the address management unit 5 is always a multicast address.
- the address information held by the address management unit 5 may be a method in which the gateway device 100 automatically generates the information according to a certain rule from identification information such as a gateway identifier in addition to direct input means by a user interface.
- FIG. 2 is a network configuration example including the gateway device 100 according to the first embodiment.
- Two or more shared bandwidth networks (narrowband networks) and non-bandwidth shared networks (broadband networks) having different address systems are applied to a system configured to be connected via the gateway device 100 implementing this embodiment.
- gateway devices 101 to 104 are each connected to a non-band shared network (broadband network) and are connected to each other via a network hub 400 so as to communicate with each other.
- the gateway apparatuses 101 to 104 are also connected to a band sharing network (narrow band network).
- Communication devices 210 to 212, 220 to 222, 230 to 232, and 240 to 242 having bandwidth sharing interfaces are respectively connected to the band sharing networks (narrow band networks) connected to the gateway devices 101 to 104. Is connected on the line.
- the communication devices 210 to 212, 220 to 222, and 230 to 232 connected to the gateway devices 101 to 103 constitute a bandwidth sharing network having the first address system 300 and are connected to the gateway device 104.
- the communication devices 240 to 242 thus configured constitute a bandwidth sharing network having the second address system 301.
- the communication apparatuses 210 to 212, 220 to 222, 230 to 232, and 240 to 242 have unique address information in the first address system 300 and the second address system 301 to which they belong, respectively.
- FIG. 3 is a flowchart showing an operation when multicast data is transmitted from the communication device 211 in FIG.
- multicast data is distributed from the communication device 211 via the bandwidth sharing network and reaches the communication device 212 and the communication device 210, and the gateway device 101 receives the multicast data in step S ⁇ b> 301 of FIG. 3.
- the second interface in FIG. 1 receives the multicast data.
- the first relay processing unit 3 of the gateway apparatus 101 performs encapsulation processing on the multicast data. Specifically, in FIG. 1, when the first relay processing unit 3 receives multicast data from the second interface, the first relay processing unit 3 determines whether or not the destination address is a multicast address. Above, when it is a multicast address, it is encapsulated using the address information managed by the address management unit 5 (packets in a common band network (narrow band network) protocol are non-band shared network (broadband network)) And wrap it in the actual data part of the protocol packet).
- packets in a common band network (narrow band network) protocol are non-band shared network (broadband network)
- wrap it in the actual data part of the protocol packet wrap it in the actual data part of the protocol packet.
- the address information managed by the address management unit 5 is embedded in the destination address area in the header portion of the communication protocol used in the non-band shared network (broadband network) and relayed in the broadband network.
- Processing and other gateway devices 102 to 104 decapsulate (extract packets in the protocol of the common bandwidth network (narrowband network) from the packets of the non-bandwidth shared network (broadband network) protocol) or discard them It is for use in determining whether to do.
- a socket that is a general implementation of the IP protocol is set to receive no default information other than address information corresponding to a designated multicast address. ing. Therefore, when a network using the IP protocol is used, only address information corresponding to the designated multicast address is received by setting address information corresponding to the multicast address designated as the packet to be received in the socket. Implementation can be realized easily.
- the address information used in step S302 is decapsulated in the gateway apparatuses 102 and 103 in FIG. 2, but is not decapsulated in the gateway apparatus 104.
- the gateway devices belonging to the same group need to use the same multicast address.
- a group ID for identifying a group is defined and automatically generated based on a certain rule from the ID, gateways belonging to the same group use the same address, so this method is suitable.
- it may be determined by another method such as preparing a setting interface and designating a direct value.
- step S303 in FIG. 3 the gateway device 101 outputs the encapsulated multicast data to the non-bandwidth shared network (broadband network).
- the first interface receives the multicast data encapsulated by the first relay processing unit 3, and the first interface outputs the multicast data to the non-bandwidth shared network.
- Steps S304a, S304b, and S304c in FIG. 3 the gateway devices 102 to 104 receive the multicast data transmitted from the gateway device 101, respectively. Specifically, the first interfaces of the gateway apparatuses 102 to 104 in FIG. 1 receive the multicast data that has been encapsulated and transmitted.
- the second relay processing unit 4 of the gateway devices 102 and 103 in FIG. 1 receives the multicast data encapsulated from each of the first interfaces 1, It is determined whether the address information corresponds to the multicast address managed by the address management unit 5 or not.
- the gateway devices 102 and 103 are managed by the address management unit 5 and are determined to be address information corresponding to a multicast address belonging to the first address system 300 that is the same group as the gateway device 101.
- the second relay processing unit 4 of the gateway device 104 in FIG. 1 receives the multicast data encapsulated from each first interface 1, and then manages the address of the own device. As a result of determining whether the address information corresponds to the multicast address managed by the unit 5, it is determined that the address information does not correspond.
- the second relay processing unit 4 of the gateway devices 102 and 103 in FIG. 1 decapsulates the encapsulated multicast data (non-bandwidth shared network (broadband network) protocol protocol).
- the packet in the protocol of the common band network (narrow band network) is extracted from the packet).
- the second relay processing unit 4 of the gateway device 104 in FIG. 1 determines whether or not the address information corresponds to the multicast address managed by the address management unit 5 of the own device. As a result of determining whether it corresponds to one of them, it determines that it does not correspond and discards the received multicast data.
- the second interface 2 of the gateway devices 102 and 103 in FIG. 1 receives the decapsulated multicast data from the first relay processing unit 3 and then uses the common band network ( Narrow-band network) and transfer to the communication devices 220 to 222 and 230 to 232 connected to the shared medium network under the gateway devices 102 and 103.
- the common band network Narrow-band network
- the gateway devices 100 to 104 are connected to the non-bandwidth sharing network and transmit / receive data
- the first interface 1 is connected to the band sharing network
- the second interface 2 is connected to data transmission / reception.
- Address management means 5 for managing address information for enabling transmission of data from the second interface of the own device and other devices, and multicast data received when the data received by the second interface is multicast data.
- the first relay processing unit 3 that assigns a header conforming to the protocol of the non-band-sharing network and the address information, and outputs to the first interface, and the address information is included in the data received by the first interface
- N is a natural number of 2 or more
- N + 1 Even when the collision domain is divided using N + 1) or more gateways, it is possible to realize broadcast or multicast communication according to the range of the address system.
- Embodiment 2 a configuration in which all the configurations and operations of the first embodiment are provided and the address storage processing unit 6 of the subordinate apparatus is added will be described.
- FIG. 4 is a diagram illustrating the gateway device 100 in the equipment network according to the second embodiment.
- the address storage processing unit 6 of the gateway device 100 is connected to the end of the second interface 2 by monitoring the data received from the second interface 2 and acquiring the source address included in the data. While holding the address information of a communication apparatus, it has the function to provide the address information hold
- FIG. 4 is a diagram illustrating the gateway device 100 in the equipment network according to the second embodiment.
- the address storage processing unit 6 of the gateway device 100 is connected to the end of the second interface 2 by monitoring the data received from the second interface 2 and acquiring the source address included in the data. While holding the address information of a communication apparatus, it has the function to provide the address information hold
- the first relay processing unit 3 performs the same processing as that of the first embodiment on the multicast or broadcast data received by the second interface 2 and performs the following processing on the unicast data. .
- address information is inquired to the address storage processing unit 6 for the address, and if it is registered as a result of the inquiry, the data is discarded. If the address is not registered Is handled in the same manner as multicast data and broadcast data.
- FIG. 5 is a flowchart showing an operation when data is transmitted from the communication device 211 in the second embodiment. It is assumed that unicast data addressed to the communication device 210 or 212 connected to the same gateway device 101 as the communication device 211 in FIG. 2 is transmitted. In step S501 of FIG. 5, the gateway apparatus 101 receives unicast data.
- step S502 address information inquiry is performed from the destination information of the unicast data.
- the first relay processing unit 3 extracts the destination address of the unicast data received from the second interface 2, confirms it with the address storage processing unit 6, and Recognizing that it is addressed to a device connected to the shared medium network, the process proceeds to step S503 in FIG.
- the first relay processing unit 3 discards the unicast data.
- step S502 address information inquiry is performed from the destination information of the unicast data.
- the first relay processing unit 3 extracts the destination address of the unicast data received from the second interface 2, confirms it with the address storage processing unit 6, and It recognizes that it is not addressed to a device connected to the shared medium network, and proceeds to step S504.
- step S504 the same operation as step S302 in FIG. 3 is performed.
- S507 is S305a, S305b, and S305c
- S508 is S306c
- S509 is S306a and S306b
- S510 is the same as S307a and S307b.
- the gateway devices 100 to 104 are connected to the non-bandwidth sharing network and transmit / receive data
- the first interface 1 is connected to the band sharing network
- the second interface 2 is connected to data transmission / reception.
- Address management means 5 for managing address information for enabling transmission of data from the second interface of the own device and other devices, and multicast data received when the data received by the second interface is multicast data.
- the first relay processing unit 3 that assigns a header conforming to the protocol of the non-band-sharing network and the address information, and outputs to the first interface, and the address information is included in the data received by the first interface Non-bandwidth shared network protocol
- a second relay processing unit 4 that extracts only multicast data from data suitable for the network and transmits it to the second interface, and an address storage processing unit 6 that acquires the data source address received by the second interface 2
- the first relay processing unit 3 does not output the data to the first interface 1 when the destination address of the received data is the transmission source address stored in the address storage processing unit 6.
- FIG. 6 is a configuration diagram of the gateway device 100 according to the third embodiment.
- the gateway address management unit 7 monitors the data received from the first interface 1, and from the received data, the address information of the transmission source gateway (broadband network address) and the received data before the encapsulation is performed.
- the address information (the narrow-band network address) of the transmission source communication device included in is extracted, the two types of address information are stored in pairs, and in response to a request from the first relay processing unit 3 It has a function of providing information on address pairs to be provided.
- FIG. 7 is a flowchart showing an operation when data is transmitted from the communication apparatus 211 according to the third embodiment. The difference from the second embodiment is that step S701 and step S702 are inserted in FIG. 7 instead of step S504 in FIG. 5, and only that portion will be described.
- step S501 the destination address is extracted from the unicast data received by the second interface 2, and in step S502, the address storage processing unit 6 of the subordinate apparatus is inquired about the address, and registered as a result of the inquiry. In that case, the data is discarded. If the address is not registered in step S502, in step S701, the first relay processing unit 3 makes an address information inquiry to the gateway address management unit 7 for the address, and if the address is registered as a result of the inquiry. Determines that the data is unicast data to the gateway corresponding to the destination address.
- step S702 If it is determined in step S702 that the data is unicast data in step S701, the first relay processing unit 3 encapsulates the data in the header portion of the protocol of the non-band sharing network when encapsulating the data. Encapsulation is performed using the unicast address as the destination address, and is output to the first interface 1. If the address is not registered in step S701, the same processing as in the case of multicast data and broadcast data in the second embodiment is performed. In step S507, when the destination is the unicast address of the own device as a result of the address collation, the same processing as when the destination is registered in the address management unit 5 in the multicast data (Yes in S507). I do. The case where the destination address is multicast is the same as in the first and second embodiments. Further, the processes other than those described above are the same as those in the second embodiment.
- unicast data that can be received by the first interface 1 in addition to the unicast data generated by this embodiment, such as when other systems not defined by the present invention are connected to a broadband network.
- a method therefor a method of providing an identification flag in the payload portion of unicast data is conceivable.
- the method is not limited to this, and another method may be used.
- the identification if the received data is unicast data generated according to the present embodiment, the processing specified in the present embodiment is performed, and the unicast generated regardless of the present embodiment In the case of data, the processing is not defined in the present invention.
- the first relay processing unit 3 that assigns a header conforming to the protocol of the shared network and address information and outputs it to the first interface, and the address information is included in the data received by the first interface From data that conforms to non-bandwidth shared network protocols
- An address storage processing unit 6 for obtaining a data transmission source address received by the second interface 2, and a first interface, the second relay processing unit 4 extracting only the Chicast data and transmitting it to the second interface 1 includes a gateway address management unit 7 that stores address information of a transmission source gateway and address information of a corresponding transmission source communication device from data received by the first relay processing unit 3.
- the address is the source address stored in the address storage processing unit 6, the data is not output to the first interface 1, and the destination address of the unicast data received by the second interface 2 is the gateway address. If stored in the management unit 7, the destination address of the unicast data By using the gateway address corresponding to the address of the header of the non-bandwidth shared network protocol as a destination address, it is not necessary to transfer unicast data addressed to the address learned function address by the flooding operation. Compared with the second embodiment Thus, the problem can be solved after lowering the bandwidth occupancy rate of the non-bandwidth shared network.
- FIG. 8 is a configuration diagram of the gateway device 100 realized based on the first embodiment in the fourth embodiment. A configuration based on the second or third embodiment is also possible.
- the IGMP Report transmission processing unit 8 has a function of acquiring address information from the address management unit 5, creating an IGMP Report packet corresponding to the address, and sending it from the first interface 1.
- This embodiment is useful when the hub 400 is an apparatus having an IGMP Snooping function in the configuration of FIG.
- the hub 400 With the IGMPnSnooping function, when the IGMP Report packet generated in advance by the IGMP Report transmission processing unit 8 is received, the port corresponding to the gateway device 100 that has transmitted is managed on the hub 400 side, and the IGMP Report packet is transmitted.
- the hub 400 that has received the multicast data packet transmitted from the other gateway device 100 transfers the packet only to the port that has received the IGMP Report, corresponding to the destination address of the packet.
- this embodiment includes a plurality of gateway devices each connected to a plurality of communication devices through a band sharing network, and a hub 400 connected to each gateway device through a non-band sharing network.
- each gateway device includes an IGMP Report transmission processing unit 8 that acquires address information from the address management unit 5, creates an IGMP Report packet corresponding to the address, and sends out the packet from the first interface 1. Since the hub 400 has the IGMP Snooping function, the hub 400 can further reduce the bandwidth occupancy rate of the non-band shared network by transferring multicast data only to the necessary ports.
- Embodiment 5 FIG.
- a case where the present invention is applied to an air conditioner network will be described as an application application example having the configuration described in the first to fourth embodiments.
- description will be made assuming that all the configurations and operations described in the first to fourth embodiments are provided.
- Communication devices 210, 220, 230, and 240 in FIG. 2 are provided in an air-conditioning outdoor unit, and communication devices 211, 212, 221, 222, 231, 232, 241, and 242 are air-conditioning outdoor units or air-conditioning indoor units. Prepared for. Gateway devices 101 to 104 are also provided in the air conditioner outdoor unit.
- the gateway device 100 and the communication devices 210, 220, 230, and 240 as air conditioning outdoor units, it is possible to obtain a layout that is not different from that of a conventional air conditioning system. Further, according to this layout, control information necessary only for the same refrigerant system can be transmitted only to the communication devices connected to the gateway devices 101 to 104 or lower. Furthermore, since only control information across a plurality of air conditioning outdoor units that are a plurality of refrigerant systems is transmitted via the gateway devices 101 to 104, a traffic suppressing effect is achieved as compared with a case where all communication devices are connected to a band sharing network. Is obtained.
- Gateway apparatus 210 ⁇ 212 communication device 220 ⁇ 222 communication device 230 ⁇ 232 communication device 240 ⁇ 242 communication device 300 first address system 301 second address system 400 network hub
Abstract
Description
従来の設備系ネットワークシステムでは、通信のコリジョンドメインが全ての設備系機器で共有されている場合、そのコリジョンドメインを複数に分割することで通信帯域を効率的に使用していた(例えば、特許文献1)。
なお、従来は、複数の通信ポートを持つ設備系機器に複数の設備系機器を接続し、宛先アドレスを基に設備系機器が適切な経路選択を行うことで、コリジョンドメインの分割を行っていた。
の第2のインターフェースからマルチキャストデータの送信を可能とするためのマルチキャストアドレス情報を管理するアドレス管理手段と、第2のインターフェースが受信したデータがマルチキャストデータであった場合に受信したマルチキャストデータに、非帯域共有型ネットワークのプロトコルに適合したヘッダと、マルチキャストアドレス情報とを付与し、第1のインターフェースに出力する第1の中継処理部と、第1のインターフェースが受信したデータにマルチキャストアドレス情報が含まれる場合に、非帯域共有型ネットワークのプロトコルに適合したデータからマルチキャストデータのみを抽出し第2のインターフェースに送信する第2の中継処理部を備えることを特徴とする。
図1は実施の形態1における設備系ネットワーク内のゲートウェイ装置を示す図である。
構成について説明する。
ゲートウェイ装置100は第1のインターフェース1と第2のインターフェース2、第1の中継処理部3、第2の中継処理部4、アドレス管理部5により構成される。
アドレス管理部5が保持するアドレス情報はユーザインターフェースによる直接入力手段によるもののほか、ゲートウェイ識別子等の識別情報から一定の規則に従ってゲートウェイ装置100が自動生成する方式としても良い。
図2において、ゲートウェイ装置101~104は、各々非帯域共有型ネットワーク(広帯域ネットワーク)に接続されるとともに、ネットワークハブ400を介してお互いが通信可能に接続される。
また、ゲートウェイ装置101~104は、各々帯域共有型ネットワーク(狭帯域ネットワーク)にも接続されている。
ここで、ゲートウェイ装置101~103に各々接続された通信装置210~212、220~222、230~232が第1のアドレス体系300を持つ帯域共有型ネットワークを構成するとともに、ゲートウェイ装置104に各々接続された通信装置240~242が第2のアドレス体系301を持つ帯域共有型ネットワークを構成するとする。
通信装置210~212、220~222、230~232、240~242はそれぞれ所属する第1のアドレス体系300、第2のアドレス体系301においてユニークなアドレス情報を持つとする。
図2において、例えば通信装置211からマルチキャストデータを送信した場合について説明する。
図3は、図2において通信装置211からマルチキャストデータを送信した場合の動作を示すフローチャートである。
図2において通信装置211からマルチキャストデータが帯域共有型ネットワークを介して配信され、通信装置212、通信装置210に到達するとともに、図3のステップS301において、ゲートウェイ装置101がそのマルチキャストデータを受信する。具体的には図1における第2のインターフェースがマルチキャストデータを受信する。
具体的には、図1において、第1の中継処理部3が第2のインターフェースからマルチキャストデータを受信すると、第1の中継処理部3は、宛先アドレスがマルチキャストアドレスであるか否かを判定した上で、マルチキャストアドレスである場合に、アドレス管理部5に管理されているアドレス情報を用いてカプセル化(帯域共通型ネットワーク(狭帯域ネットワーク)のプロトコルにおけるパケットを非帯域共有型ネットワーク(広帯域ネットワーク)のプロトコルのパケットの実データ部分に入れて包みこむこと)を行う。
尚、マルチキャストアドレスに対応するアドレス情報の決定方法に決まりは無いが、同一グループに所属するゲートウェイ装置は同一のマルチキャストアドレスを用いることが必要である。
また、グループを識別するグループIDを定義し、そのIDから一定の規則に基づいて自動生成する方法であれば、同一グループに所属するゲートウェイは同じアドレスを使用することとなるため本方式に適した方法として考えられるが、設定用インターフェースを用意し直値指定を行うなど他の方法により決定しても良い。
一方で図3のステップS305cにおいて、図1におけるゲートウェイ装置104の第2の中継処理部4は各々の第1のインターフェース1からカプセル化処理されたマルチキャストデータを受信した上で、自装置のアドレス管理部5にて管理されているマルチキャストアドレスに対応するアドレス情報か否かのいずれかに該当するかを判定した結果、該当するものではないと判定される。
一方で、図3のステップS306cにおいて、図1におけるゲートウェイ装置104の第2の中継処理部4は、自装置のアドレス管理部5にて管理されているマルチキャストアドレスに対応するアドレス情報か否かのいずれかに該当するかを判定した結果、該当しないと判定して受信したマルチキャストデータを破棄する。
実施の形態2では実施の形態1の構成、動作をすべて備え、自配下装置のアドレス記憶処理部6を追加した構成について説明する。
ゲートウェイ装置100のアドレス記憶処理部6は、第2のインターフェース2から受信したデータを監視し、そのデータに含まれる送信元アドレスを取得することにより、第2のインターフェース2の先に接続されている通信装置のアドレス情報を保持するとともに、第1の中継処理部3の要求に応じて保持するアドレス情報を提供する機能を有する。
受信したユニキャストデータから宛先アドレスを抽出し、当該アドレスについてアドレス記憶処理部6にアドレス情報照会を行い、照会の結果登録されていた場合には当該データを破棄し、登録されていなかった場合にはマルチキャストデータ及びブロードキャストデータの場合と同様に扱う。
図2における通信装置211からと同一のゲートウェイ装置101に接続された通信装置宛210または212宛のユニキャストデータが発信された場合を想定する。
図5のステップS501において、ゲートウェイ装置101はユニキャストデータを受信する。
ステップS503において、第1の中継処理部3は、ユニキャストデータを破棄する。
ステップS502において、ユニキャストデータの宛先情報からアドレス情報照会を行う。具体的には、図4において、第1の中継処理部3は、第2のインターフェース2から受信したユニキャストデータの宛先アドレスを抽出した上でアドレス記憶処理部6に確認し、自装置配下の共有媒体ネットワークに接続された装置宛ではないと認識し、ステップS504に進む。
ステップS504においては図3のステップS302と同じ動作を行う。
実施の形態3では、実施の形態2の構成を全て備えた上で、ゲートウェイアドレス管理部7を追加した構成について説明する。
図6は、実施の形態3における、ゲートウェイ装置100の構成図である。
図7は実施の形態3における通信装置211からデータを送信した場合の動作を示すフローチャートである。実施の形態2と異なるのは図5のステップS504の代わりに図7においてステップS701とステップS702が挿入されており、その部分のみ説明する。
ステップS502において当該アドレスについて登録されていなかった場合にはステップS701において、第1の中継処理部3は当該アドレスについてゲートウェイアドレス管理部7にアドレス情報照会を行い、照会の結果登録されていた場合には当該データを宛先アドレスを対応するゲートウェイへのユニキャストデータと判定する。
ステップS702において、前記ステップS701でユニキャストデータと判定された場合、第1の中継処理部3は当該データをカプセル化する際に、非帯域共有型ネットワークのプロトコルのヘッダ部分に、対応するゲートウェイのユニキャストアドレスを宛先アドレスとしてカプセル化を行い、第1のインターフェース1に出力する。
ステップS701において当該アドレスについて登録されていなかった場合には実施の形態2のマルチキャストデータ及びブロードキャストデータの場合と同様の処理を行う。
ステップS507において、アドレス照合を行った結果として宛先が自装置のユニキャストアドレスであった場合、マルチキャストデータのうち当該宛先がアドレス管理部5に登録されていた場合(S507、あり)と同様の処理を行う。宛先アドレスがマルチキャストであった場合については実施の形態1及び2と同じである。
また、上記で述べた以外の処理については実施の形態2と同じである。
本実施の形態は実施の形態1から3のいずれかの構成にIGMP(Internet Group Management Protcol) Report送信処理部8を追加した構成である。
図8は、実施の形態4における実施の形態1を基に実現したゲートウェイ装置100の構成図である。実施の形態2または3を基にした場合も構成可能である。
本実施の形態では実施の形態1から4に記載された構成のアプリケーション適用例として空調機のネットワークに適用した場合について説明する。
尚、実施の形態5においては、実施の形態1から4に記載された構成、動作を全て備えたものとして説明する。
また、ゲートウェイ装置101~104も空調室外機に備えられる。
2 第2のインターフェース
3 第1の中継処理部
4 第2の中継処理部
5 アドレス管理部
6 アドレス記憶処理部
7 ゲートウェイアドレス管理部
8 IGMP Report送信処理部
100~104 ゲートウェイ装置
210~212 通信装置
220~222 通信装置
230~232 通信装置
240~242 通信装置
300 第1のアドレス体系
301 第2のアドレス体系
400 ネットワークハブ
Claims (6)
- 非帯域共有型ネットワークと接続され、データの送受信を行う第1のインターフェースと、
帯域共有型ネットワークと接続され、データの送受信を行う第2のインターフェースと、
自他装置の前記第2のインターフェースからマルチキャストデータの送信を可能とするためのマルチキャストアドレス情報を管理するアドレス管理手段と、
前記第2のインターフェースが受信したデータが前記マルチキャストデータであった場合に受信した前記マルチキャストデータに、前記非帯域共有型ネットワークのプロトコルに適合したヘッダと、前記マルチキャストアドレス情報とを付与し、前記第1のインターフェースに出力する第1の中継処理部と、
前記第1のインターフェースが受信したデータに前記マルチキャストアドレス情報が含まれる場合に、前記非帯域共有型ネットワークのプロトコルに適合したデータからマルチキャストデータのみを抽出し前記第2のインターフェースに送信する第2の中継処理部と、
を備えることを特徴とするゲートウェイ装置。 - 前記第2のインターフェースが受信したデータ送信元アドレスを記憶するアドレス記憶処理部を備え、
前記第1の中継処理部は、受信したデータの宛先アドレスが前記アドレス記憶処理部に記憶されている送信元アドレスであった場合には前記受信したデータを前記第1のインターフェースに出力しないこと、
を特徴とする請求項1に記載のゲートウェイ装置。 - 前記第1のインターフェースが受信したデータから送信元ゲートウェイ装置のアドレス情報と、対応する送信元の通信装置のアドレス情報とを記憶するゲートウェイアドレス管理部を備え、
前記第1の中継処理部は、前記第2のインターフェースが受信したユニキャストデータの宛先アドレスと対応するゲートウェイ装置のアドレスが前記ゲートウェイアドレス管理部に記憶されている場合には、前記ゲートウェイアドレスを、非帯域共有型ネットワークのプロトコルのヘッダの宛先アドレスとすること
を特徴とする請求項1または2に記載のゲートウェイ装置。 - 各々複数の通信装置と、前記帯域共有型ネットワークにて接続される複数の請求項1から3のいずれかに記載のゲートウェイ装置と、各々の前記ゲートウェイ装置と非帯域共有型ネットワークにて接続されるハブと、から構成されるネットワークにおいて、
各々のゲートウェイ装置は、前記アドレス管理部に保持される前記アドレス情報に対応するIGMP Reportパケットを作成し、前記第1のインターフェースから送出させるIGMP Report送信処理部を備え、
ハブは、IGMP Snooping機能を備えたこと
を特徴とするネットワークシステム。 - 請求項1から3のいずれかに記載のゲートウェイ装置と前記通信装置とを備える空調室外機。
- 複数の通信装置と、前記帯域共有型ネットワークにて接続される請求項5に記載の各々の空調室外機と、各々の前記空調室外機と非帯域共有型ネットワークにて接続される前記前記ハブと、から構成される空調ネットワークにおいて、
各々の空調室外機が備えるゲートウェイ装置は、前記アドレス管理部に保持される前記アドレス情報に対応するIGMP Reportパケットを作成し、前記第1のインターフェースから送出させるIGMP Report送信処理部を備え、
前記ハブは、IGMP Snooping機能を備えたこと
を特徴とする空調ネットワークシステム。
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EP13882543.5A EP2988457A4 (en) | 2013-04-19 | 2013-04-19 | Gateway device, network system including gateway device, air-conditioning outdoor unit, and air-conditioning network system |
JP2015512203A JP5905161B2 (ja) | 2013-04-19 | 2013-04-19 | ゲートウェイ装置、ゲートウェイ装置を含むネットワークシステム、空調室外機、及び空調ネットワークシステム |
US14/781,439 US20160036600A1 (en) | 2013-04-19 | 2013-04-19 | Gateway device, network system including gateway device, air-conditioning outdoor unit, and air-conditioning network system |
PCT/JP2013/002664 WO2014170930A1 (ja) | 2013-04-19 | 2013-04-19 | ゲートウェイ装置、ゲートウェイ装置を含むネットワークシステム、空調室外機、及び空調ネットワークシステム |
CN201380075233.1A CN105075187A (zh) | 2013-04-19 | 2013-04-19 | 网关装置、包含网关装置的网络系统、空调室外机以及空调网络系统 |
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US11916828B2 (en) | 2020-07-13 | 2024-02-27 | Daikin Industries, Ltd. | Communication system, communication method, and program |
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US20160036600A1 (en) | 2016-02-04 |
EP2988457A4 (en) | 2017-01-11 |
CN105075187A (zh) | 2015-11-18 |
JPWO2014170930A1 (ja) | 2017-02-16 |
EP2988457A1 (en) | 2016-02-24 |
JP5905161B2 (ja) | 2016-04-20 |
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