JPH03239036A - Communication system - Google Patents

Abstract

PURPOSE:To send a data to a destination node even when system information representing the position of the destination node does not exist by regenerating a slot not received at a slot generator when the slot reaching a terminal is not received and sending the slot to a bus. CONSTITUTION:An available idle slot is detected, a data is written in the slot, a busy bit in the slot is brought into '1' and transferred to a destination node 7a. A terminal A5 decides it that the slot is not received depending that a received bit in the slot just after the unreceived slot is logical 0. After a request bit in the slot is set to logical 0, the slot is sent to a bus B2. The destination node 7a receives the slot through the bus B2 according to the DQDB system.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an improvement in a transmission medium access method used for data transfer between a plurality of nodes connected to a transmission medium.

[Prior art] DQ, which is one of the transmission medium access methods according to the prior art
The DB method will be explained.

Figure 4 shows rPROPO8ED 5TANDARD D
ISTRIBUTED QUEUE DUAL Bus (
DQDB) METROPLITAN AREA NE
TWORK(MAN): P2O3,13/DB -
88/105 J (the In5t1tuteo
f Electrical & Electronic
Engineer, Inc.

DQD shown in F1gure2.2 of document)
This shows the topology of method B. In the figure, (
1) Bus A is a medium for transmitting data and control information.
1 or (2) is also a bus B, (3) is a slot generator A that continuously generates slots as a unit of data transfer on a bus A, (4) is a slot generator B, and (5) is a slot generator B. Terminal A, (6), which discards the slot generated by slot generator A (3), similarly operates terminal B, (7a), (7b), (7c).
are nodes that transfer slots to each other via buses (1) and (2) using the slots generated by the slot generator (4).

Further, FIG. 3 shows the architecture of bus access and transfer control at each node shown in Pigere 2.1 of the above-mentioned document. In the figure, (8) is bus A
(1) and bus B (2) and an access transfer control circuit that controls access and data transfer to bus A (1);
), (10) is a receiving circuit that receives signals on bus A (1
) transmitting circuit that transmits data on bus B (11)
) is a receiving circuit that receives the above signal, and (12) is a transmitting circuit that transmits data over the bus.

In addition, Figure 5 shows the ptgures and F of the above materials.
This figure shows the configuration of the slot shown in 1gure5.2. In the figure, (13) is a slot, (1
4) is an access control field collecting information for access to slot (13), and (15) is an access control field for node (7).
(16) is a busy bit indicating that slot (13) is already being used by a node (7), (17) is a type bit indicating the type of slot, (18) ) are unused bits, and (19) are request bits that exist for each of the four priority levels. Note that the other bits are not related to the present invention and will not be described.

Next, the operation will be explained. In the DQDB system, two directional buses, bus A (1) and bus B (2), are used as transmission media. The directions of bus A (1) and bus B (2) are opposite. Each node (7) has its own bus (1)
, (2), and performs full-duplex communication between nodes (7).

The unit of communication is a slot (13), and the slot (
13) is generated by the slot generators (3) and (4) located most upstream of each bus (1) and (2), and transmitted in the downstream direction. Here, upstream is the direction in which the slot generators (3) and (4) exist in each bus (1) and (2), and downstream is the opposite direction.

The node (7b) that has the slot (13) to transmit is
When an empty slot (13) is detected, that slot (1
3), sets the busy bit (16) in that slot (13) to 1, and transfers it to the destination node (7a). A slot (13) with a busy bit (16) of 0 and a type bit (17) of O is replaced with an empty slot (
13).

Both the slots (13) used for data transmission and the slots (13) not used disappear when they reach the terminals (5) and (6), which are the most downstream of the buses (1) and (2).

[Problems to be Solved by the Invention] Since the conventional DQDB system is configured as described above, each node selects the destination node to transfer the slot to in order to decide which of buses A and B to send the slot to. It was necessary to know in advance as system information which bus exists downstream from the point of view of the own node.

This invention was made to solve the above-mentioned problems, and its purpose is to make it possible to transfer slots to a destination node even if the location of the destination node is not known in advance as system information. This is what I did.

[Means for Solving the Problems] In the slot according to the present invention, unused bits in the access control field are used as received bits.

If the received bit is 1, it indicates that the slot immediately preceding the slot containing that bit has already been received by the destination node. A value of 0 indicates that this is not the case.

In the slot generator according to the present invention, the received bit is set to O to generate a slot. Then, if slot generator B and terminal A are implemented in the same device, and it is detected that the received bit of the slot that has reached terminal A is O, the slot generator B is generated immediately before the slot, and the request bit of the own slot is generated. After setting 0 to 0, the slot is sent to bus B.

In a node according to the present invention, a slot is generated by setting a bit to 0, and at the same time, the node changes the received bit in the slot following the slot from 0 to 1.

[Operation] By the means described above, a slot is transmitted to bus A when the location of the destination node is unknown. If there is a destination node downstream of bus A, the slot is received at the destination node and disappears at terminal A. On the other hand, if there is a destination node upstream of bus A or downstream of bus B, it is detected that the slot corresponding to the destination has not been received at terminal A, and is reproduced and transmitted on bus B by slot generator B. .

[Example] Hereinafter, an example of the present invention will be described with reference to the drawings. 1st
In the figure, (1) is bus A, (2) is bus B, (3)
is slot generator A, (4) is slot generator B, (5) is terminal A, (6) is terminal B
, (7a), (7b).

(7C) is the node, (20) is the slot generator B
(4) and a controller that controls terminal A (5), and (21) is a terminal device that includes slot generator B (4), terminal A (5), and controller (20).

In addition, in FIG. 2, (13) is a slot, (23)
is an access control field collecting information for access to slot (13), (15) is a segment, (1
6) is the busy bit, (17) is the type bit, (22
) is a received bit, and (19) is a request bit. Note that the other bits are not related to the present invention and will not be described.

Next, the operation will be explained. Directional bus A (1
) and B(2) are the transmission media. Bus A
(1) and bus B (2) are opposite in direction. Each node (
7) has a transmitting/receiving circuit for each bus (1) and (2), and performs full-duplex communication between nodes (7). The unit of communication is a slot (13), and the slot (13)
is generated by the slot generators (3) and (4) located at the most upstream position of each bus (1) and (2), and transmitted in the downstream direction.

First, a case where the destination node (7) is located downstream of the bus A (1) from the own node (7) will be described.

The node (7b) that has the slot (13) to transmit is
Based on system information held in advance, it is determined to which bus (1) or (2) the slot (13) should be transmitted to the destination node (7C). If the information on the destination node (7C) is not included in the system information, it is sent to bus A. The transmission procedure is to first detect an available empty slot (13) according to the DQDB method, write data to that slot (13), and write data to that slot (13).
The busy bit (16) in 13) is set to 1 and the data is transferred to the destination node (7C).

The destination node (7C) receives the data according to the DQDB method. Then, the received bit (22) in the immediately following slot (13) is set to 1. Received slot (13)
disappears at terminal A (5).

Next, a case where the destination node (7) is located downstream of the bus B (2) from the own node (7) will be described.

The node (7b) that has the slot (13) to transmit is
Based on system information held in advance, it is determined to which bus (1) or (2) the slot (13) should be transmitted to the destination node (7a). If the system information does not contain information about the destination node (7a), it is transmitted to bus A (1). As for the transmission procedure, first, DQD
Detects an available empty slot (13) according to method B, writes data to that slot (13), sets the busy bit (16) in that slot (13) to 1, and transfers it to the destination node (7a). .

Terminal A (5) confirms that the slot (13) is unreceived and that the slot (13) immediately after the slot (13) is unreceived.
This is determined from the fact that the received bit (22) in 13) is 0. Then, after setting the request bit (19) of the slot (13) to 0, the slot is transmitted to the bus B (2).

At the destination node (7a), bus B (
2) receives its slot (13).

[Effects of the Invention] As described above, according to the present invention, it is determined whether a slot that has arrived at terminal A has been received or not, and if it has not been received, the slot is reproduced in slot generator B, and the slot is It was configured to transmit to B. This makes it possible to transmit to the destination node even when there is no system information indicating the location of the destination node.

Further, according to the present invention, a vacant bit in the access control field of a conventional slot is used as a received bit, and whether or not a slot has been received is confirmed by the received bit immediately after the slot. With this configuration, the slots conventionally used in the DQDB system can be used as they are.

[Brief explanation of drawings]

Fig. 1 is a diagram showing the topology of a network according to an embodiment of the present invention, Fig. 2 is a diagram showing the configuration of slots according to an embodiment of the invention, and Fig. 3 is a diagram showing the architecture of bus access and transfer control at each node. FIG. 4 is a diagram showing the topology of the DQDB system, and FIG. 5 is a diagram showing the slot configuration of the DQDB system. In the figure, (1) is bus A, (2) is bus B1 (3)
is slot generator A, (4) is slot generator B, (5) is terminal A1, (6) is terminal B,
(7a), (7b). (7c) is a node, (13) is a slot, (14) is an access control field that collects information for accessing slot (13), (20) is slot generator B (4) and terminal A (5) (21) is a device including slot generator B (4), terminal A, and controller (20); (23) is an access control field that collects information for accessing slot (13); (22) is a received bit. In addition, in the figures, the same reference numerals indicate the same or corresponding parts.

Claims (1)

[Claims] Bus A and bus B that have directionality and are opposite in direction.
The two buses are used as transmission media, and the slot generator located at the most upstream side of each bus generates slots that are the unit of data transfer between nodes connected to both buses, and the terminal located at the most downstream In a communication system that performs full-duplex communication between nodes by absorbing slots, a received bit is set in an access control field in the slot, and a slot generator sets the received bit to 0 to generate a slot. A node that receives a slot addressed to its own node changes the received bit in the slot immediately after the slot from 0 to 1, associates the slot generator of bus B with the terminal of bus A, and transfers the slot generator of bus A to the terminal of bus A. A communication system characterized in that when it is detected that a received bit of a slot that has reached 0 is 0, a slot that was received immediately before the slot is reproduced and the slot is transmitted to a bus B.