JP2012217160A - Communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication system that easily check a communication link state.SOLUTION: A wired communication path in a wired network is dynamically constructed, and a radio communication path in a radio network is dynamically constructed. A communication device for connecting a wired network and a radio network is used as a gateway to display a path diagram which is represented by a radio communication path from a gateway existing in a present wired network to a gateway existing in another wired network and a wired communication path till a communication terminal on a wired network connected through the gateway existing in the other wired network.

Description

  The present invention relates to a communication system, and more particularly to a communication system that dynamically constructs a communication path.

A wireless local area network (LAN) has an ad hoc mode as a connection form of wireless terminals for communication (see Patent Document 1).
In the ad hoc mode, there are two types of routing protocols for establishing a wireless communication path, a reactive type and a proactive type.
The reactive type is a method of creating a routing table when a transmission request occurs, and for example, AODV (Adhoc On-Demand Distance Vector) is known. The proactive type is a method in which nodes communicate with each other periodically and a routing table to each terminal is created in advance. For example, OLSR (Optimized Link State Routing) is known.
As a routing protocol for constructing a communication path in a wired network, for example, RIP (Routing Information Protocol) is known.

JP 2011-35600 A

When a communication path is dynamically constructed, it is desirable for the user of the communication system that the communication link state from the self to another node can be easily confirmed.

  An object of the present invention is to provide a communication system in which a communication link state can be easily confirmed.

In order to achieve the above object, the communication system according to the present invention is a communication device in which a plurality of wired networks are connected by a wireless network, and a wired communication path that dynamically constructs a wired communication path in the wired network. A communication path construction means, a wireless communication path construction means for dynamically constructing a wireless communication path in the wireless network, and a communication device that connects the wired network and the wireless network as a gateway exist in the own wired network A wireless communication path from the gateway to the gateway existing in the other wired network and a wired communication path to the communication terminal on the wired network connected via the gateway existing in the other wired network And a communication path display means for displaying the figure.

  In the communication system according to the present invention, the communication link state can be easily confirmed.

It is a figure which shows the structure of the communication system which concerns on this invention. It is a figure which illustrates the software structure of the communication apparatus shown in FIG. It is a figure which illustrates the format of a route update notification message. 3 is a flowchart illustrating an integrated management process of an integrated management unit illustrated in FIG. 2. (A) is a figure which illustrates the network comprised from the some node containing the communication apparatus which concerns on this invention, (B) is the radio | wireless shown in FIG. 2 which comprises the communication apparatus shown to (A). It is a figure which illustrates the list | wrist of the routing information base which the routing information base of a protocol memorize | stores, (C) memorize | stores the routing information base of the wired protocol shown in FIG. 2 which comprises the communication apparatus shown to (A). It is a figure which illustrates the list of route information base. It is a figure which illustrates the route map displayed on the display part of the controller shown in FIG. In the communication system which concerns on 2nd Embodiment, it is a figure which illustrates the route map displayed on the display part of a controller. In the communication system which concerns on 2nd Embodiment, it is a figure which illustrates the route map displayed on the display part of a controller.

[Network 1]
FIG. 1 is a diagram showing a configuration of a communication system according to the present invention.
The illustrated communication system 1 includes a wired router (RT) 120-1 to 120-5, a communication terminal (TMN) 124-1 to 124-6, and a communication device (IR; Integrated).
Router) 2-1 to 2-4 and controllers 3-1 to 3-4.
The communication devices 2-1 to 2-4, the wired routers 120-1 to 120-5, and the communication terminals 124-1 to 124-6 are connected to each other via a wired link 130. The controllers 3-1 to 3-4 are connected to the communication devices 2-1 to 2-4 by wires.
Further, the communication devices 2-1 to 2-4 are connected to the other communication devices 2-1 to 2-4 via the wireless link 140.

The network of the communication system 1 includes a plurality of wired networks 150-1 to 150-4, and belongs to different wired networks connected via the communication devices 2-1 to 2-4 and the wireless link 140. Data is transmitted to and received from the communication devices 2-1 to 2-4. Each wired network has a different domain. In addition, each wired network is movable with respect to each network, and each communication device performs ad hoc communication in which a communication path (wireless link 140) dynamically changes.
In FIG. 1, for the sake of clarification and implementation, five wired routers 120-1 to 120-5, six communication terminals 124-1 to 124-6, and four communication units Although the case where it comprises from apparatus 2-1 to 2-4 is made into a specific example, the number of these apparatuses and terminals is not limited to this.

[Hardware configuration]
Hereinafter, the hardware configuration of the communication apparatus 2 will be described.
As illustrated in FIG. 1, the communication device 2 includes a CPU 102, a wireless communication unit 110 that transmits and receives information between the wireless link 140 and the main body 100, and a wired communication unit that transmits and receives information between the wired link 130 and the main body 100. 112.

Software configuration
FIG. 2 is a diagram illustrating a communication device program (software configuration) 20 executed on the communication device 2 (FIG. 1).
As illustrated in FIG. 2, the communication device program 20 has a configuration in which a notification message transmission / reception unit 222 and an integrated management unit 3 are added to the configuration of the general communication device illustrated in FIG. 1.
The integrated management unit 3 includes a notification message reception unit 224, an integrated routing information base 226, a control unit 228, and a notification message transmission unit 230.
The communication device program 20 is stored in, for example, a memory (not shown) and supplied to each communication device 2. If necessary, the communication device program 20 is installed on each communication device 2 on an OS (not shown). It is executed by specifically using hardware resources.

The communication device program 20 acquires and integrates information based on a message using a wired protocol and information based on a message using a wireless protocol, and shares information between both protocols. In the present invention, RIP is used as a wired protocol, and OLSR is used as a wireless protocol.
In addition to the normal routing operation in the communication device (FIG. 1), the protocol control unit 212 generates a route update notification message when the route information base stored in the routing information base 214 is updated, and sends a notification message transmission / reception unit. The data is output to 222.
Also, the protocol control unit 212 updates the route information base stored in the routing information base 214 based on the route update notification message input from the notification message transmission / reception unit 222.

FIG. 3 is a diagram illustrating a format of a route update notification message.
As shown in FIG. 3, the format of the route update notification message includes a Protocol Number field indicating a protocol type (OLSR, RIP, etc.), an Msg Type field indicating a message type (Hello message, TC message, HNA message, etc.), Originator indicating the address of the node that sends the route update notification message
It includes an Address field, an Add Routing Number field indicating the number of routes added by updating, a Del Routing Number field indicating the number of routes deleted by updating, and the like.
The notification message transmission / reception unit 222 (FIG. 2) receives the route update notification message input from the protocol control unit 212 and outputs it to the notification message reception unit 224.
In addition, the notification message transmission / reception unit 222 outputs the route update notification message input from the notification message transmission unit 230 to the protocol control unit 212.

The notification message reception unit 224 outputs the route update notification message input from the notification message transmission / reception unit 222 of the wired protocol unit and the wireless protocol unit to the integrated routing information base 226.
The integrated routing information base 226 stores the route update notification message input from the notification message receiving unit 224 so that it can be referred to the control unit 228.
The control unit 228 determines the output destination protocol based on the route update notification message stored in the integrated routing information base 226, specifies the output destination protocol to the notification message transmission unit 230, and notifies the route update notification. A message is output (described later with reference to FIG. 4).

When the wired protocol is specified as the output destination protocol from the control unit 228, the notification message transmission unit 230 outputs the route update notification message input from the control unit 228 to the wired notification message transmission / reception unit 222.
Further, when the wireless protocol is designated as the output destination protocol from the control unit 228, the notification message transmission unit 230 outputs the route update notification message input from the control unit 228 to the wireless notification message transmission / reception unit 222. .

[Process of integrated management unit 3]
FIG. 4 is a flowchart illustrating an integrated management process of the notification message receiving unit 224 and the control unit 228 that configure the integrated management unit 3 illustrated in FIG.
In the processing of S300 to S310 described below, a route update notification message transmitted from one of the wired protocol unit and the wireless protocol unit (FIG. 2) is transmitted to the other protocol unit, and the other protocol unit is transmitted. It is executed to update the routing information base 214 of the protocol part.

In step 300 (S300; FIG. 4), the notification message receiving unit 224 receives the route update notification message from the notification message transmitting / receiving unit 222.
In step 302 (S302), the notification message receiving unit 224 registers the route update notification message received in S300 in the integrated routing information base 226.
In step 304 (S304), the control unit 228 determines whether or not the route update notification message registered in the integrated routing information base 226 in S302 is transmitted from the wired protocol unit.

Specifically, for example, the control unit 228 determines the Protocol of the route update notification message.
It is determined whether or not the protocol type stored in the Number field (FIG. 3) is a wired protocol.
If the route update notification message is transmitted from the wired protocol unit, the control unit 228 proceeds to the process of S306, and otherwise proceeds to the process of S308.
In step 306 (S306), the control unit 228 designates a wireless protocol unit as an output destination to the notification message transmission unit 230, and outputs a route update notification message registered in the integrated routing information base 226 in S302. To end the process.

In step 308 (S308), the control unit 228 determines whether or not the route update notification message transmitted from the wireless protocol unit is generated based on the HNA message of the wireless protocol.
Specifically, for example, the control unit 228 determines whether or not the message type stored in the Msg Type field (FIG. 3) of the route update notification message is an HNA message.
If it is an HNA message, the control unit 228 proceeds to the process of S310, and otherwise ends the process.
In step 310 (S310), the control unit 228 designates a wired protocol unit as an output destination to the notification message transmission unit 230, and outputs a route update notification message registered in the integrated routing information base 226 in S302. To end the process.

[Operation example of communication device 2]
FIG. 5A is a diagram illustrating a network composed of a plurality of nodes including an IR # 1 node and an IR # 2 node showing two communication apparatuses 2 (FIGS. 1 and 2) according to the present invention. is there.
FIG. 5B is a diagram illustrating a list of route information bases stored in the wireless routing information base 214 (FIG. 2) of the IR # 1 node.
FIG. 5C is a diagram illustrating a list of route information bases stored in the wired routing information base 214 of the IR # 1 node.
Hereinafter, an example of an update operation based on the route information of the communication device 2 will be described with reference to FIGS. 5 (A) to 5 (C).

In addition, hereinafter, for the sake of clarification and realization, a specific example in which the IR # 1 node shown in FIG. 5A updates the route information base in the network shown in FIG. explain.
In FIG. 5A, the IP addresses shown in the wired link and the wireless link between the nodes indicate domain addresses, and the IP address shown in FIG. 5A is set for each node. It shall be.
Further, it is assumed that the IP address of each domain to which the adjacent node belongs is set in the IR node.
For example, as shown in FIG. 5A, the IP address “192.168.0.1” of the domain “192.168.0. *” To which the adjacent wired node RT # 2 belongs to the IR # 1 node. And the IP address “192.168.1.1” of the domain “192.168.1. *” To which the adjacent IR # 2 node belongs is set.

As shown in FIG. 5B, the No. stored in the wireless routing information base 214 (FIG. 2) is stored. 1 to 3 indicate, in order, the path information base between the IR # 1 node and the adjacent IR # 2 node and the IR # 3 node that is two hops away.
For example, no. 1 is based on the IP address “192.168.1.1” of its own node (IR # 1), the IP address “192.168.1.2” of the IR # 2 node, and the netmask “255. 255.255.255 ”and the hop count“ 1 ”to the IR # 2 node.
Further, the No. stored in the wireless routing information base 214 (FIG. 2) is stored. 4 and 5 indicate, in order, the path information base between the IR # 1 node, the adjacent RT # 2 node, and the RT # 1 node two hops away.

For example, no. 4 is based on the IP address “192.168.1.1” of its own node (IR # 1), the IP address “192.168.1.1” of the relay node (IR # 1), and the transmission destination. The domain information “192.168.0.0” to which the node belongs, the netmask “255.255.255.0”, and the hop count “1” are indicated.
That is, no. 6 shows a path information base to the RT # 2 node adjacent to the IR # 1 node.
As shown in FIG. 5C, the No. stored in the wired routing information base 214 (FIG. 2) is stored. 1 and 2 are No. 1 shown in FIG. This corresponds to the route information base of the wired nodes RT # 2 and RT # 1 of 4,5.

In the following (1) to (7), the No. stored in the wireless routing information base 214 (FIG. 2) is stored. No. 6 and subsequent route information bases, and No. 6 stored in the wired routing information base 214. An example of the update operation based on the route information base 3 and later will be described.
(1) The IR # 1 node receives the wireless protocol HNA message transmitted from the IR # 3 node via the IR # 2 node.
The HNA message is a message used when the node (communication device 2) functions as a gateway.
(2) The IR # 1 node analyzes the HNA message received in (1) and sets the generated route information base to No.1. 6 as a route information base (FIG. 5B).
As shown in FIG. 6 is a route information base in which the relay node is the IR # 2 node, the destination node domain is “192.168.2.0”, and the hop count is “3”, that is, the route information base to the RT # 4 node. Show.

(3) The IR # 1 node generates a route update notification message based on the route information base generated in (2), and transmits the route update notification message from its own wireless protocol unit to its own integrated management unit 3 (FIG. 2). .
(4) The IR # 1 node receives and registers the route notification message transmitted in (3) at its own integrated management unit 3 (S300; FIG. 4) (S302).
(5) The IR # 1 node determines that the route notification message received in (4) has been generated based on the HNA message of the wireless protocol (S304, S308), and transmits it to its own wired protocol unit (S310). .

(6) The IR # 1 node receives the route notification message transmitted in (5) by its own wired protocol unit.
(7) The IR # 1 node generates a route information base based on the route notification message received in (6). 3 as a route information base (FIG. 5C).
As a result, the IR # 1 node becomes No. 1 in FIG. It can be understood that there is a wired node capable of transmitting data on a route having a destination node domain of “192.168.2.0” and a hop count of “3” as shown in FIG.
By repeating the same processing as the above (1) to (7), the route information base of the wireless protocol part stored in the IR # 1 node is further updated (Nos. 7 to 9 in FIG. 5B).
These updates are reflected in the route information base of the wired protocol unit stored in the IR # 1 node (Nos. 4 to 6 in FIG. 5C).

The communication device 2 performs routing according to the path information base constructed as described above.
That is, when an IP packet is input from the network, the communication device 2 confirms the route information base and determines whether or not the packet is to be relayed from the source and destination of the IP packet.
When the communication device 2 determines that the packet is to be relayed, the communication device 2 outputs the packet to the designated network interface. When the communication device 2 determines that the packet is not to be relayed, the communication device 2 discards the packet.

As described above, the wireless device 2 according to the present invention shares the route information acquired by the wired protocol and the control message of the wireless protocol between both protocols.
By sharing route information between the wired and wireless protocols, for example, the communication device 2 can grasp the presence of a node wired to the other communication device 2 and is wired to the communication device 2. Data can be transmitted and received between the node and the node connected to the other wireless device 2 by wire.
Therefore, according to the wireless device 2 according to the present invention, it is possible to realize routing in consideration of the connection status in each of the wired network and the wireless network.

  The controller 3 acquires the route information stored in the wired or wireless routing information base 214 as described above. The controller 3 includes a display control unit (not shown), an operation unit, and a display unit. The display control unit creates a tree-like route map based on the acquired route information, and displays the route map on the display unit in accordance with a display instruction input from the user via the operation unit.

FIG. 6 is a diagram illustrating a path diagram displayed on the display unit of the controller 3-1 in FIG.
As shown in FIG. 6, the communication apparatus 2-1 as a gateway to which the controller 3-1 is connected by wire is displayed in the route diagram. In the lower layer of the communication device 2-1, communication devices 2-2 and 2-3 that are gateways of other wired networks that are connected to the communication device 2-1 by radio in one hop are displayed in a tree shape. .
Further, in the lower layer of the communication device 2-2, communication terminals 124-2 and 124-3 in the wired network in which the communication device 2-2 functions as a gateway are displayed in a tree shape, and are displayed on the communication device 2-2. Communication terminals 124-5 and 124-6 in the wired network in which the wirelessly connected communication device 2-4 functions as a gateway are displayed in a tree shape.

Further, communication terminals 124-4 in the wired network in which the communication device 2-3 functions as a gateway are displayed in a tree form below the communication device 2-3.
The number of hops from the communication device 2-1 is displayed on each communication terminal 124 that can be a destination.
Each communication device 2 and the communication terminal 124 are displayed with their own IP addresses.

As described above, according to the present invention, in a communication device in which a plurality of wired networks are connected by a wireless network, a wired communication path in the wired network is dynamically constructed and a wireless communication path in the wireless network is dynamically changed. To build. Then, with a communication device that connects the wired network and the wireless network as a gateway, a wireless communication path from a gateway that exists in its own wired network to a gateway that exists in another wired network, and a gateway that exists in another wired network The route map shown by the wired communication route to the communication terminal on the wired network connected via the network is displayed.
Thereby, even if a communication path is a case where it crosses over a wired network and a wireless network, a communication link state can be confirmed easily.

  Next, a communication system according to the second embodiment of the present invention will be described. The communication system according to the second embodiment is configured to display a multicast route.

In order to manage the participation and withdrawal of the communication terminal 124 from the multicast group, IGMP (Internet
Use Group Management Protocol. The wired router 120 receives an IGMP Membership Report (Join) message transmitted from the communication terminal 124 and detects participation in the multicast group. Further, the wired router 120 receives the IGMP Leave Group message transmitted from the communication terminal 124 and detects the departure from the multicast group.

Multicast packet transfer uses PIM-SM (Protocol Independent Multicast Sparse) to share multicast group participation information, identify the multicast group, and transfer multicast packets.
Mode). In this PIM-SM, the wired router 120 functions as a rendezvous point and builds separate routes on the transmitting side and the receiving side with the wired router 120 at the center.

As a protocol for establishing a wireless path, MOLSR (Multicast
Use Optimized Link State Routing. MOLSR is an ad hoc routing protocol OLSR improved for multicast and is a proactive protocol. The communication system according to the present embodiment performs multicast communication by using the above-described protocols.

  In addition, since the communication device 2 also needs to manage route information and multicast group participation information, the route information and multicast group participation between the wired router 120 and the communication device 2 using MSDP (Multicast Source Discovery Protocol) is used. Share information.

  The controller 3 acquires route information and multicast group participation information from the communication device 2. The controller 3 includes a display control unit (not shown), an operation unit, and a display unit, and the display control unit creates a tree-like route map based on the acquired information, and from the user via the operation unit. In accordance with the input display instruction (multicast route display instruction and group instruction to be displayed), the route map is displayed on the display unit.

FIG. 7 is a diagram illustrating a path diagram displayed on the display unit of the controller 3-1 in the communication system according to the second embodiment.
As shown in FIG. 7, in the route diagram, group information (GROUP 1) and a route to the communication terminals 124 participating in the group are displayed. The route display method is the same as that in the first embodiment.

  Further, the controller 3, as shown in FIG. 8, based on the participation information to the multicast group of the communication terminal 124 connected to the communication device 2 to which the controller 3 is connected, as shown in FIG. The communication terminal 124 connected to the terminal may also be displayed.

  Thus, in the communication system according to the second embodiment of the present invention, the communication path of multicast communication is displayed. Thereby, the communication link state with the other party (communication terminal in a multicast group) which wants to transmit data can be confirmed easily.

DESCRIPTION OF SYMBOLS 1 ... Communication system, 2 ... Communication apparatus, 3 ... Controller, 124 ... Communication terminal

Claims (1)

A communication system in which a plurality of wired networks are connected by a wireless network,
Wired communication path construction means for dynamically constructing a wired communication path in the wired network;
Wireless communication path construction means for dynamically constructing a wireless communication path in the wireless network;
Using a communication device that connects the wired network and the wireless network as a gateway, a wireless communication path from a gateway existing in the own wired network to a gateway existing in another wired network, and a gateway existing in the other wired network A communication route display means for displaying a route diagram represented by a wired communication route to a communication terminal on a wired network connected via
A communication system comprising: