JPH1132063A - 1:n transmission confirmation processing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a 1:N transmission confirmation processing system in which the automatic recognition of the number of communication controllers connected on a network transmission path can be attained, and high efficiency and low costs can be realized. SOLUTION: Plural communication controllers 1, 2, 3, and 4 are connected with a network transmission path 5. At the time of operating 1:N transmission confirmation processing, all the communication controllers transmit an existence signal 6 to the network and receive the existence signals 6 of other communication controllers, and each communication controller automatically recognizes the number of the communication controllers connected on the network, based on the number of the received existence signals. Then, any one communication controller 1 transmits an inquiry signal 7 to the network, and the other communication controllers 2, 3, and 4 connected on the network return a response signal 8 in response to the inquiry signal, and when the communication controller 1 receives the response signal, the 1:N transmission confirmation processing is completed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention recognizes the number of communication control units connected to a network on a network transmission path and performs 1: N delivery confirmation communication.
It relates to a delivery confirmation processing method.

[0002]

2. Description of the Related Art Conventionally, when recognizing the number of communication control devices connected to a network on a network transmission line, if the communication control device is connected or disconnected on the network transmission line, the communication control device is connected to the network transmission line. After the user grasps the communication control device that is in use, the communication control device is made to remember the communication control device, and communication of 1: N delivery confirmation is performed. In this case, it is necessary to reset or restart the system so that each communication control device can memorize the connection state and the number of connected nodes on the network transmission path. Also, JP-A-8-2
No. 23197 discloses that when a communication control device is additionally connected to a token ring type network and receives an empty token from an upstream adjacent terminal, the token of an address setting request command including the address of the upstream adjacent terminal is transmitted downstream. When receiving the token of the address setting request command including the address of the upstream adjacent terminal from the terminal to be transmitted to the adjacent terminal and the additionally connected terminal, the additional connection is performed based on the address of the upstream adjacent terminal. It is provided with a monitoring device that automatically determines the address of the terminal and notifies the determined address to the additionally connected terminal, and describes that the delivery confirmation is performed between the expansion and the existing communication control device. I have.

[0003]

As described above, in the conventional communication control device system, when the communication control device is added to or disconnected from the network, the connection state and the number of nodes are memorized in each communication control device. Therefore, it is necessary to reset or restart the system, which is complicated in operation and inefficient. Further, in the system described in Japanese Patent Application Laid-Open No. 8-223197, it is necessary to provide a monitoring device for inquiring the address of the added communication control device in order to confirm the delivery between the added and existing communication control devices. Therefore, there is a problem that the cost of the system becomes high. Further, in the conventional system, when performing the 1: N delivery confirmation processing, the number of communication control devices connected to the network transmission path cannot be automatically recognized. There is a problem that it is necessary to grasp the number of the vehicles.

An object of the present invention is to provide a highly efficient and low-cost 1: N delivery confirmation processing method which enables automatic recognition of the number of communication control devices connected on a network transmission line. .

[0005]

In order to solve the above problems, a plurality of communication control devices are connected to a network transmission path, and when performing a 1: N delivery confirmation process, all of the plurality of communication control devices are connected to each other. Each of the communication control devices transmits a survival signal indicating that the communication device is operating normally on the network transmission line, and receives a survival signal of another communication control device. Automatically grasp the number of connected communication control devices.
Then, one of the communication control devices transmits an inquiry signal to the network transmission line, and another communication control device connected to the network transmission line returns a response signal to the inquiry signal, and When one communication control device receives this response signal, the 1: N delivery confirmation is completed.

[0006]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an embodiment of the present invention,
This shows a 1: N delivery confirmation processing method when a communication control device is connected to a network transmission path. In FIG.
Reference numerals 2, 3, and 4 denote communication control devices, and nodes 1, 2, 3, and
4 is constituted. Reference numeral 5 denotes a network transmission path. The communication control devices 1, 2, 3, and 4 provide a survival signal 6 indicating that the device is operating normally
An inquiry signal 7 and a response signal 8 are transmitted and received. FIG.
Then, the nodes 1, 2, and 4 including the existing communication control devices 1, 2, and 4 are connected on the network transmission line 5, and the node 3 of the communication control device 3 is in a state of trying to connect to the network. . The node number is a number uniquely determined by the user on the network transmission path.

Now, three communication control devices 1, 2, and 4 are connected on the network transmission line 5, and the network transmission line 5 (shown as a line 5-1) is shown from each communication control device. The survival signal 6 is transmitted periodically via the terminal. That is, the survival signal 6 of the communication control device 1 is transmitted to the communication control devices 2 and 4 via the line 5-1 that is simulated, and the live signal 6 of the communication control device 2 is simulated by the line 5-5.
1 and the survival signal 6 of the communication control device 4 is transmitted to the communication control devices 1 and 2 via the simulated line 5-1. Each of the communication control devices 1, 2, and 4 receives the survival signal 6 of the communication control device transmitted periodically, and stores the number of survival signals that can be captured for each node in a table (not shown). Each of the communication control devices 1, 2, 4 grasps the number of communication control devices connected on the network transmission line 5 based on the number of survival signals stored in the table. In this state, there are three units including the own communication control device.

Here, when the communication control device 1 performs the 1: 2 acknowledgment process, the communication control device 1 transmits the inquiry signal 7 on the network transmission line 5 (simulated as line 5-2). The two communication control devices 2 and 4 transmit a response message 8 to the inquiry signal 7 of the communication control device 1.
Is transmitted via the network transmission line 5 (simulated as the line 5-3), and the communication control device 1 receives the response signals 8 for the two communication control devices 2 and 4. When the communication control device 1 receives the response signals 8 for the two communication control devices 2 and 4, the 1: 2 delivery confirmation processing is completed.

Next, a case where the communication control device 3 is newly connected (entry) to the network transmission line 5 will be described. On the network transmission line 5, four nodes 1,
2, 3, and 4 are connected. After the communication control device 3 is added on the network transmission line 5, the communication control devices 1, 2, 3, and 4 are periodically transmitted from the communication control devices 1, 2, and 4 via the network transmission line 5 (simulated as line 5-1). A survival signal 6 is transmitted. That is, the live signal 6 of the communication control device 1 is transmitted to the communication control devices 2, 3, and 4 via the line 5-1 that is simulated, and the live signal 6 of the communication control device 2 is simulated by the line 5--5. 1, communication control devices 1, 3,
4 to the communication control devices 1, 2, 4 via the line 5-1 in which the survival signal 6 of the communication control device 3 is simulated.
Line 5 simulated by the survival signal 6 of the communication control device 4
-1 is transmitted to the communication control devices 1, 2, and 3. Each of the communication control devices 1, 2, 3, and 4 receives the survival signal 6 of each communication control device transmitted periodically, and stores the number of survival signals that can be captured for each node in a table (not shown). . Each of the communication control devices 1, 2, 3, and 4 communicates with the network transmission path 5 based on the number of survival signals stored in the table.
Determine the number of communication control devices connected above. In this state, there are four devices including the own communication control device. As described above, in the present embodiment, a live signal is transmitted / received between the communication control devices without resetting / restarting the system and making an inquiry to the monitoring device as in the conventional example. The number of nodes can be automatically grasped.

Here, when the communication control device 1 performs a 1: 3 delivery confirmation process including the added communication control device 3,
The communication control device 1 transmits an inquiry signal 7 on a network transmission line 5 (simulated as line 5-2),
The other communication control devices 2, 3, and 4 transmit a response message 8 to the inquiry signal 7 of the communication control device 1 via the network transmission line 5 (simulated as line 5-3), and perform communication. The control device 1 receives the response signals 8 for the three communication control devices 2, 3, and 4. When the communication control device 1 receives the response signals 8 for the three communication control devices 2, 3, and 4, the 1: 3 delivery confirmation process including the added communication control device 3 is completed. As described above, in the present embodiment, by automatically grasping the number of communication control devices which each communication control device expects to transmit and receive a survival signal and return a response message connected to the network, 1 :
(3) The delivery confirmation processing can be performed efficiently and at low cost. In addition, the communication control device 3
Similarly, the number of communication control devices connected to the network transmission line 5 can be automatically grasped even when the communication control device is disconnected (disconnected). Also, the 1: 2 delivery confirmation processing excluding the separated communication control device 3 can be performed efficiently and at low cost.

[0011]

As described above, in the 1: N communication, each communication control device transmits and receives a survival signal.
The number of communication control devices expected to return a response message connected to the network can be automatically grasped, and the 1: N delivery confirmation processing can be performed efficiently and at low cost. Further, the number of nodes on the network transmission line can be automatically grasped by using the survival signal periodically transmitted and received between the respective communication control devices connected to the network transmission line.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a 1: N delivery confirmation processing scheme according to an embodiment of the present invention.

[Explanation of symbols]

1, 2, 3, 4 ... communication control device 5 ... network transmission line 6 ... survival signal 7 ... inquiry signal 8 ... response signal

Claims (2)

[Claims] When a plurality of communication control devices are connected to a network transmission path and 1: N delivery confirmation processing is performed, all of the plurality of communication control devices transmit a survival signal indicating that each of the plurality of communication control devices is operating normally. The communication control device transmits the number of communication control devices connected to the network transmission path based on the received number of alive signals. 1: N delivery confirmation processing method. 2. The communication control device according to claim 1, wherein any one of the communication control devices transmits an inquiry signal to the network transmission line, and another communication control device connected to the network transmission line responds to the inquiry signal. A response signal is returned,
When the communication control devices receive this response signal,
Completing N delivery confirmation: 1: N delivery confirmation processing method.