JPH022245A - Terminal operating information management system - Google Patents

Abstract

PURPOSE:To efficiently inform information to all terminal equipments connected to other node in one frame by using a simultaneous multiple address specified by the IEEE802.4 and IEEE802.2 so as to send the operating information of a terminal equipment starting its operation and stop information of a terminal equipment to be stopped. CONSTITUTION:When the operation of a terminal equipment 3a connecting to a node 2a is started, the terminal equipment 3a requests the transmission of the operating information to the node 2a. The terminal equipment 3a sets a destination logical link control layer (LLC layer) service access point (LASP) and a medium access control layer (MAC layer) address. The MAC layer and the LLC layer generate a frame and send it accordingly to the request. The frame is received by nodes 2b, 2c and after the processing of the MAC layer and the LLC layer of each node is received, the result is given to all connected terminal equipments (3d-3i) and the operating state of the terminal equipment 3a is informed.

Description

[Detailed Description of the Invention] [Industrial Application Field 1] The present invention relates to a management method for each node in an information network, and particularly to a suitable method for managing all nodes connected to each terminal in an information network. This relates to a terminal operation information management method.

[Prior Art] FIG. 1 shows a plurality of terminals 3a to 3c, 3d to
3 shows a network constituted by nodes 2a, 2b, and 2c to which f3g to f3i are connected. Here, each node 2a to 2c in FIG.
The lower half of the second layer in the 3I (Open System Interconnection) seven-layer model, that is, the medium access control layer (MAC layer), uses an IEEE, 802° 4-token passing bus, and the upper half of the second layer! r minutes, i.e. the theoretical link control layer (LL
It is assumed that IEEE802.2 logical link control is used in the C layer. This node uses R3-232, a protocol different from that of the token bus network.
It has a boat such as C, and is configured to allow connection of multiple terminals.

Conventionally, in such a network, each node 2a
~2c can grasp the addresses of the next node and previous node of the logical ring 5 defined in the IEEE 802.4 token passing bus, and can determine whether the node is in operation.

[Problems to be Solved by the Invention] However, in the above-mentioned conventional technology, although it is possible to recognize whether or not other nodes are in operation, it is possible to recognize whether or not the terminals connected to each node shown in FIG. 1 are in operation. I can't figure it out. On the other hand, since each M (i-tree can only grasp information such as the type and address of terminals connected to other nodes), according to the initial information, There is also the possibility that data will be sent to a terminal that is not compatible with the above, which is extremely wasteful.

An object of the present invention is to eliminate the above-mentioned problems of the prior art and to enable one terminal to grasp operating information of all terminals connected to a song node.

[Means for solving the problem] The terminal operation information management method of the present invention uses IEEE
In a network where multiple terminals are connected to a node that uses an 802.4 token passing bus and uses EEE802.2 for the theoretical link control layer in the upper half of the second layer, a terminal connected to a certain node operates. In order for all terminals connected to other nodes to recognize whether the node is in operation, each terminal transmits its start information to all other terminals at the time of starting operation, and also transmits the start information to all other terminals at the time of termination of operation. Similarly, it is a method of transmitting and notifying the end/tiY information.

[Effect 1 When the terminal connected to the node enters the operating state, the IF
, by effectively using the broadcast address specified in EE802.11 and IEEE'802.2, to send the operation start information to all terminals connected to other nodes, and also to stop the operation. In this case, similar processing is performed, and all terminals grasp the operating status of other terminals. This eliminates unnecessary data transmission from a working terminal to a stopped terminal and improves data transmission efficiency.6 [Embodiment 1] An embodiment of the present invention will be described below with reference to FIG. do.

FIG. 1 shows a network +5 configuration showing one embodiment of the present invention. In the figure, 1 indicates a terminal performance information frame transmitted by the present invention, 2a to 2c are nodes, 3a to 3j are terminals, 4 is a bus on which data is transmitted, and 5 is a logical ring.

Each node in Figure 1 corresponds to the second node of the OS T7 hierarchical model.
The lower half of the layer (A4 A CIΔ) is IP, EE802.4
Token passing bus, also 21st-upper half (LL
C layer) is IFFF802.2 logical link control (LLC)
shall be compliant with each.

Here, FIG. 1 shows a case where the terminal 3a connected to the node 2a starts operating. In this case, the terminal 3a requests the node 2a to transmit operating information. Within the node, data is transferred between LLC layer software and M
Processed by AC layer software. Therefore, the terminal 3a making the transmission request specifies the destination Li, C layer service access point (LSAP) address and MAC layer address.

In this case, since the LSAP address is transmitted to all terminals within the destination node, the address is set as FF in hexadecimal as specified in IEEE802.2. Also, as the destination MAC address, bus 4
The address is set as specified in IEEE802.4 so that all nodes 2a to 2c connected to the address can receive the data. The MAC layer and LLC layer create and transmit frames according to the request.

This frame is received by nodes 2b and 2c, processed by the MAC layer and LLC layer of each node, and then passed to all connected terminals (3d to 3i), and terminal 3a is in operation. You will be notified.

After transmitting the above frame, the node 2a checks whether the terminal 3a is in operation at regular intervals, and if there is no response, it determines that the terminal 3a has stopped, and uses that information to determine if the terminal 3a is in operation. - All terminals 3d to 3f, 3g to 31 connected to other nodes (2b and 2c) are notified that the terminal 3a has stopped, using the same process as when transmitting the h1 report.

According to this embodiment, a process in which a terminal connected to each node transmits its operating information to all terminals connected to other nodes when it starts operating, and performs the same process when it stops. By newly setting up the song, all terminals <3d
~3i) can grasp the status of 3a that sent the operating information, and eliminates the need to perform the sophisticated process of sending data to a terminal that is stopped. be able to.

[Effects of the Invention] As described above, according to the present invention, it is possible to grasp the operating status of all terminals connected to other nodes, and it is possible to eliminate useless data transmission to stopped terminals. There is an effect. Also, IEEE802.4 and IEEE802
．． By effectively using the broadcast address specified in 2, to send the operation/[I″r report of the ni trees that have started operating, and the stop/(+1 report) of the stopped terminals, it is possible to transmit in one frame. All devices connected to the song's notes will be
fiYx also has an advantage over previous technologies in that it can notify 111 reports efficiently.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing the composition of a network 1 work showing an embodiment of the present invention.6 In the figure, ■ indicates the terminal operation (fh information frame) transmitted by the present invention, 2 a to 2 c are notes, and 3 a ~31 is n
1 tree, 4 a bus through which data is transmitted, and 5 a logical link. Patent applicant: Hitachi Cable, Ltd. t1 Representative patent attorney: Nobuo Kinutani

Claims (1)

[Claims] 1. In the OSI 7-layer model, an IEEE 802.4 token passing bus is used in the medium access control layer in the lower half of the second layer, and an IEEE 802.4 token passing bus is used in the theoretical link control layer in the upper half of the second layer.
In a network where multiple terminals are connected to a node using E802.2, all terminals connected to other nodes can recognize whether the terminal connected to a certain node is in operation. , a terminal operation information management method characterized in that each terminal transmits start information to all other terminals at the time of starting operation, and similarly transmits and notifies end information at the time of ending operation.