JP2017060199A - Cluster participating node - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cluster participating node in which annular connection parts are configured of two cluster configuring/participating nodes that configure nodes and clusters and participate in the other clusters.SOLUTION: A cluster participating node participates in a first cluster configured by either of two cluster configuring/participating nodes which configure clusters and participate in the other cluster, which comprises means that allows the node to select a second cluster configured by the other of the cluster configuring/participating nodes to participate in the second cluster, so as to configure an annular connection part of the nodes that configure nodes and clusters, using the means.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a cluster participating node.

  2. Description of the Related Art Conventionally, a communication system constituting a communication network with high communication efficiency formed ad hoc as a cluster communication system is known. For example, in the technique described in Japanese Patent Application Laid-Open No. 2010-263349, each cluster includes a plurality of terminal devices, and each cluster includes one head node or gateway node as a higher-level node terminal device. All of the terminal devices are lower nodes, the upper node of the cluster manages the ratio of the communication time length to the sense period in the cluster, and the lower node appropriately determines other nodes depending on the communication status, remaining power, etc. Sense the upper node of the cluster to compare the communication efficiency, power saving, etc. based on the ratio of the communication time length to the sense cycle set by the upper node, and other upper nodes are desirable In such a case, a technique for switching an upper node is disclosed.

JP 2010-263349 A

  By the way, the conventional cluster communication system is ad-hoc, but there is a problem that an efficient communication path cannot be constructed because each cluster is connected in a tree shape. In addition, there is a problem that it is not possible to construct a circular connection part by two cluster construction participating nodes that construct themselves and clusters and participate in other clusters.

  Accordingly, an object of the present invention is to provide a cluster participation node that constructs a circular connection portion by two cluster construction participation nodes that construct themselves and a cluster and participate in another cluster.

  In order to solve the problem, the cluster construction participation node according to the present invention is a cluster participation node in which one of two cluster construction participation nodes that construct a cluster and participate in the other cluster participates in the first cluster to be constructed. And the other of the cluster construction participating nodes includes means for selecting the second cluster to be constructed and participating in the cluster, and the means constructs a circular connection portion by itself and the cluster construction participating node. And

  According to the present invention, the cluster joining node (1a) can construct a ring connection portion by itself (1a) and two cluster construction joining nodes (1b, 1d) that construct the cluster and participate in other clusters. .

It is a block diagram of the communication network system of embodiment.

  Hereinafter, an embodiment of the present invention will be described in detail.

  FIG. 1 is a configuration diagram of a communication network system according to an embodiment. The communication network system transmits / receives a wireless USB host communication unit H that constructs a cluster (within the dotted line in FIG. 1), at least one wireless USB device communication unit D that participates in the cluster, an IP packet, and a wireless USB packet. An information processing unit (not shown) and a node having each port connected to the host communication unit H, device communication unit D, and information processing unit, and a switch unit S that receives IP packets and wireless USB packets and transfers them to other ports A peripheral device 2 that includes a device 1 and a device communication unit D and that transmits and receives wireless USB packets via the device communication unit D, and a device communication unit D that includes an IP packet and a wireless USB via the device communication unit D An IP terminal 3 for transmitting and receiving packets, and a node device Are present, at least one device communication unit D can participate in one cluster, and the device communication unit D of the node device 1 participates in a cluster constructed by the host communication unit H of the other node device 1. By performing intra-cluster communication, a communication network in which the clusters are connected to each other in a network structure is constructed, and the device communication unit D of the peripheral device 2 and the IP terminal 3 participates in any one cluster and performs intra-cluster communication. And a plurality of node devices 1, peripheral devices 2 and IP terminals 3 coexist in the cluster.

  Devices such as the node device 1, the peripheral device 2, and the IP terminal 3 have a common connection key and a computer unit having a CPU, a ROM, a RAM, and the like. The host communication unit H and the device communication unit D of the node device 1 share a wireless transmission / reception unit. Since the switch unit S can transfer the IP packet and the wireless USB packet, the node device 1 and the IP terminal 3 can perform IP connection. Further, any peripheral device 2 can be connected and used via a communication network. The switch unit S constitutes an L3 switch, and includes two FDBs (Forwarding DataBase) for IP communication and wireless USB communication. The IP packet and wireless USB packet received from each port are compared with each FDB and the like. It will be transferred to another port.

  The node device 1 uses its own identification information or the like as cluster identification information, and sends a beacon including the cluster identification information and the cluster identification information of the cluster to which its device communication unit D participates from its own host communication unit H to another node device. In addition to the broadcast transmission toward the node 1, a cluster in which its own device communication unit D participates is selected based on the beacon received from the other node device 1, and the three node devices 1 including itself are linked together. Control as you do. Specifically, in the case of the node device 1a, based on the received beacon, one device communication unit D creates a cluster constructed by the node device 1b corresponding to the condition that the three node devices 1 including itself are connected. Select and participate to link the three node devices 1a, 1b, and 1c including the self, and based on the received beacon, the other device communication unit D includes the three node devices 1 including the self as a condition to form a link. The cluster constructed by the corresponding node device 1d is selected and joined, and the three node devices 1a, 1b, and 1d including itself are linked. Here, the node device 1 finds an arbitrary cluster constructed by another node device 1 to which the node device 1 is not connected, when an appropriate cluster in which the three node devices 1 including the device itself are connected is not found. You will be there.

  In the above-described embodiment, the communication network system is configured from each node device 1 that constructs a cluster and participates in another cluster, and the node device 1 participates in at least one or more other clusters to perform intra-cluster communication. And a communication network including a part in which each cluster in which at least one node device 1 participates is connected in a mesh shape is constructed. In addition to constructing a cluster, each node device 1 that participates in another cluster is configured, and a node network 1 constructs a communication network that participates in at least one other cluster and performs intra-cluster communication, The communication network may include a part in which three node devices 1 are connected by two or three clusters. Further, in the node device 1, means for notifying the other node device 1 of the identification information of the cluster constructed by itself and the other cluster in which the self participates, and acquiring the identification information from the other node device 1 and including the self It is also possible to provide means for self to join another cluster so that the three node devices 1 are linked. Further, the node device 1, the peripheral device 2, and the IP terminal 3 include a communication integrated circuit including a host communication unit H, a switch unit S, a device communication unit D, and the like. The node device 1, the peripheral device 2, and the IP terminal 3 may be realized by controlling the unit S, the device communication unit D, and the like. The node device 1 may constitute a communication network terminal. In addition, although devices using wireless USB are used as the node device 1, peripheral device 2, and IP terminal 3, the node device 1, peripheral device 2, and IP terminal 3 are not limited to devices using wireless USB. It is good also as a structure similar to the terminal device of kai 2010-263349.

  According to the above embodiment, the communication network system can connect clusters in a mesh pattern.

  In the above description, the case where various control programs including the communication control program are stored in the ROM in advance has been described. However, the control program may be recorded on a storage medium readable by the computer unit. With such a configuration, when the program is read from the storage medium by the computer unit and the computer unit executes processing according to the read program, the same operations and effects as those of the devices of the above-described embodiment can be obtained.

  Here, the storage medium is a semiconductor storage medium such as RAM or ROM, a magnetic storage type storage medium such as FD or HDD, an optical reading type storage medium such as CD, DVD or BD, or a magnetic storage type / optical such as MO. Any storage medium can be used as long as it is a computer-readable storage medium regardless of electronic, magnetic, optical, or other reading methods.

  Further, the control program can be downloaded, installed and executed via a network system such as the Internet or a LAN.

  DESCRIPTION OF SYMBOLS 1 ... Node apparatus, 2 ... Peripheral device, 3 ... IP terminal, H ... Host communication part, D ... Device communication part, S ... Switch part

  According to the present invention, the cluster joining node (1a) is configured in the middle of a series connection unit in which four (1c, 1b, 1d, 1) are connected in series to form a cluster and join another cluster. , A circular connection part can be constructed by the self (1a) and two adjacent cluster construction participating nodes (1b, 1d).

  By the way, the conventional cluster communication system is ad-hoc, but there is a problem that an efficient communication path cannot be constructed because each cluster is connected in a tree shape. In addition, there is a problem that a cluster joining node cannot construct a circular connection part by two cluster construction participating nodes that construct themselves and a cluster and participate in another cluster.

  In order to solve the problem, the cluster participation node according to the present invention is a cluster participation node in which one of two cluster construction participation nodes that construct a cluster and participate in the other cluster participates in the first cluster to be constructed. And the other of the cluster construction participating nodes comprises means for selecting the second cluster to be constructed and participating in the cluster, and the means constructs a circular connection between itself and the cluster construction participating node. To do.

  By the way, the conventional cluster communication system is ad-hoc, but there is a problem that an efficient communication path cannot be constructed because each cluster is connected in a tree shape. In addition, there is a problem that a cluster joining node participating in a cluster cannot construct a ring connection portion by two nodes participating in cluster construction that construct itself and a cluster and participate in another cluster.

  By the way, the conventional cluster communication system has a problem that a cluster joining node that participates in a cluster cannot construct a ring connection part by itself and a cluster and two cluster construction participating nodes that participate in another cluster. there were.

  In order to solve the problem, the cluster participation node according to the present invention is configured to form a cluster participation node truss-like connection unit that connects cluster participation nodes participating in a cluster in a truss shape that forms an aggregate of triangles as basic units. It is characterized by providing.

  By the way, the conventional cluster communication system has a problem that the cluster participating nodes participating in the cluster cannot be connected in the shape of a truss forming an aggregate of triangles as basic units.

  Therefore, an object of the present invention is to provide a cluster participation node that connects cluster participation nodes that participate in a cluster in a truss shape that forms an aggregate of triangles as basic units.

  According to the present invention, the cluster participation node can connect the cluster participation nodes in a truss shape forming an aggregate of triangles as basic units.

  The present invention relates to a cluster participating node.

  According to the present invention, the cluster participation node is not limited to connecting the cluster participation nodes in a truss shape in that the cluster is used, and can provide a cluster communication network for connecting the cluster communication terminals. A truss-like connection can be configured.

Claims (5)

One of the two cluster construction participating nodes that construct the cluster and participate in the other cluster is a cluster participating node that participates in the first cluster of construction,
Means for allowing the other of the cluster construction participating nodes to select and join the second cluster of construction to the cluster;
A cluster joining node, characterized in that, by the means, a circular connection unit is constructed by itself and the cluster construction participating node.   A communication module for realizing the cluster participation node according to claim 1. Computer
The control program for functioning as said means of the cluster participation node of Claim 1.   The terminal according to claim 1, further comprising terminal means for connecting each cluster to a mesh cluster network connected in a mesh pattern, wherein the cluster participating node according to claim 1 is provided with the circular connection part constructed.   The cluster construction participating node according to claim 1, wherein the cluster joining node is any one used for the circular connection part of construction.

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