JP2570578B2 - Ring transmission line station equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention is used for a computer network. The present invention is suitable for use in a computer network having a ring transmission path. In particular, the present invention relates to a technique for securing an information path when a transmission path failure occurs.

[0002]

2. Description of the Related Art In a computer network having a ring transmission path, a central station controls the entire network, and a plurality of slave stations exchange information with the central station.
In a ring-shaped transmission line having such a configuration, a method is known in which, when a failure occurs in the transmission line, an information path is secured by returning a packet to be transmitted to the failed transmission line and transmitting the packet in the reverse direction.

At this time, the failure detection of the central office is performed based on the arrival of the packet from a direction other than the direction in which the packet should be originally received, the failure occurrence information included in the header information of the packet, and the like.

[0004] The central office sets a packet transfer direction suitable for the information path at the time of failure, switches to the transfer direction at the time of failure, and continues packet transfer (see Japanese Patent Application Laid-Open No. 62-42638).

[0005]

In such a system,
The shorter the time from when a failure occurs to when the central station actually detects the failure, the more the occurrence of accidents such as packet loss can be prevented.

However, the transmission speed of the packet transmitted between the slave stations is the same at the time of normal operation and at the time of the occurrence of a fault. Until the central station receives a packet that is looped back by the slave station adjacent to the location where the fault has occurred, The occurrence of the failure cannot be detected. The failure undetected time at the central station increases as the number of slave stations increases.

SUMMARY OF THE INVENTION The present invention has been made in view of such a background, and a ring transmission system capable of promptly detecting an occurrence of a failure in a ring transmission line so that an information path can be secured promptly. The purpose is to provide.

[0008]

SUMMARY OF THE INVENTION The present invention provides a downlink signal receiving terminal from which a downlink signal arrives, a downlink signal transmitting terminal from which a downlink signal is transmitted, an uplink signal receiving terminal from which an uplink signal arrives, and an uplink signal receiving terminal. An upstream signal transmission terminal to be transmitted,
Means for transmitting information by mounting information on a packet from the upstream signal transmission terminal (or the downstream signal transmission terminal) and receiving information mounted on a packet arriving from the upstream signal reception terminal (or the downstream signal reception terminal); This is a ring transmission line station device.

Here, a feature of the present invention is that when a packet does not arrive at the upstream signal receiving terminal or the downstream signal receiving terminal, it is determined that a failure of the transmission line has occurred in that direction. And an arc without other adjacent bits according to the determination result of the determination means.
A signal that generates fault notification information composed of a vertical bit and converts this fault notification information into a packet that is
And means for sending, when the fault notification information when it is not judged a fault in its own station arrives comprising means for immediately transferring in favor of the fault notification information to the packet, and determines a fault in its own station Sometimes there is a means for transmitting a packet from the station to a transmission line in a direction free from obstacles.

[0010] It is preferable that the transmitting unit includes a generating unit that generates failure notification information based on an output of the determining unit, and a transmitting unit that transmits the failure notification information to a transmission terminal in preference to a packet.

[0011] The transferring means detects a failure notification information arriving at a receiving terminal, and generates the failure notification information when there is a detection output from the detection section and no output from the determination means. It is desirable to include means for activating the generation unit.

[0012]

When the central station and the slave station determine a failure in the transmission line by not arriving, a failure notification information having an extremely short information amount (for example, 1 bit) is generated. At the same time as transmitting this failure notification information in the direction opposite to the direction in which no packet arrives, this station switches and sets the transmission path to the direction without failure.

When this failure notification information reaches a station whose own station has not determined a failure, this station instantly determines that this information is failure notification information and immediately transfers the information to the next station.
Since the failure notification information has very few bits without header information, it can be easily distinguished from a normal packet.

Thus, the central office can detect the occurrence of a failure extremely quickly as compared with the normal packet transmission speed. For example, when a normal packet is 80-bit information, the failure notification information is transmitted when there is no adjacent bit.
If it is composed of one bit of information,
Information is transmitted at a short time without packet reception processing at the slave station.
Is sent to the next slave station.
Central station with a shorter propagation delay than
You .

[0015] Thus, when a failure occurs in the ring-shaped transmission path, an information path can be promptly secured.
The transfer direction can be switched immediately in the event of a failure of the central office.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The construction of a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is an overall configuration diagram of the first embodiment of the present invention. FIG. 2 is a block diagram of a transfer control device included in the central station and the slave stations.

According to the present invention, one central office 30 and three slave stations 31 to 33 are connected in a ring shape by a bidirectional transmission line 40. This is a ring-type transmission system including means for transmitting and receiving packets to and from each other on the path 40 for communication.

Here, a feature of the present invention is that, when the bidirectional transmission line 40 is normal, the central office 30 transmits information to the packet in one direction from the central office 30 as a starting point. The transmitter 50 and the receiver 60 are provided as means for transmitting and transmitting information carried in a packet arriving from the opposite direction of the transmission direction. As means for determining that a failure has occurred in the bidirectional transmission path 40 in that direction when the signal is no longer present, the main signal failure detection units 1 and 11 shown in FIG. Ring alarm generation units 2 and 12 as means for generating a ring alarm, which is failure notification information having an extremely small number of bits, and transmitting the ring alarm in the direction opposite to the above direction. When the ring alarm arrives when the station has not determined a failure, the separation units 3 and 13 serve as means for immediately transferring the ring alarm. The transmission control units 6 and 16 and the direction switching units 20 and 21 are provided as means for transmitting a packet to the bidirectional transmission path 40. The ring alarm is configured to include one bit of information. The transfer control device shown in FIG. 2 includes similar devices in the central station 30 and the slave stations 31 to 33. The own station is stored in the communication mode storage units 5 and 15 as the central station 30.
Or the slave stations 31 to 33 are stored in advance, and the central station 30 or the slave stations 31 to 31
33 is a configuration for executing the operation.

In a normal state, the header information is extracted from the packet by the separation units 3 and 13. The packet is sent to the separation units 3, 1
3 to the reception control units 7 and 17 and the transfer control units 6 and 16. The header information is input to the communication line reception / transfer determination units 4 and 14, and the destination information is extracted. The address information of the own station is stored in the communication mode storage unit 5.

The packets are decrypted by the communication packet decryption transmission units 8 and 18 via the reception control unit 7, and necessary information is extracted. When there is information to be transmitted by the own station or information destined for another station, the information is loaded on the packet by the communication packet decoding and transmitting sections 8 and 18 and the multiplexing section 9 and
19 is input. The information output from the multiplexing units 9 and 19 is transferred via the direction switching units 20 and 21 in the direction opposite to the packet receiving direction.

When a fault occurs, the main signal fault detecting units 1 and 11
Detects a failure in the bidirectional transmission path 40, notifies the communication line reception / transfer determination units 4 and 14 thereof, and also notifies the ring alarm generation units 2 and 12. The communication line reception / transfer determination units 4 and 14 instruct the transfer control units 6 and 16 to switch the bidirectional transmission path 40. Further, the ring alarm generation units 2 and 12 generate ring alarms, and
9 and via the direction switching units 20 and 21.

Next, the operation of the first embodiment of the present invention will be described with reference to FIGS. FIG. 3 is a diagram showing the flow of information at the moment when a failure occurs. FIG. 4 is a diagram showing the flow of information after a failure has occurred. In a normal state, the packets are transferred in one direction by the transmission lines 42, 44, 46, and 48, as shown in FIG. Further, the transmission lines 41, 43, 45, 4
7 is inactive at normal times, but a test signal for fault detection is flowing between the central station 30 and the slave stations 31-33.

As shown in FIG. 3, when a failure occurs in the bidirectional transmission path 40 between the slave station 32 and the slave station 33, the slave station 3
No. 3 detects the occurrence of a failure since no packet arrives from the transmission line 46, and generates a ring alarm. This ring alarm is immediately transferred to the central office 30 via the transmission line 48.

The slave station 32 detects that a failure has occurred since no test signal arrives from the transmission line 45, and generates a ring alarm. This ring alarm is immediately
3 → slave station 31 → transferred to central station 30 via transmission line 41. Thereby, the central office 30 can detect the occurrence of the failure. This ring alarm is 1-bit information in the first embodiment of the present invention. A normal packet is about 80 bits of information including header information and data. On the other hand, there is no other bit in the vicinity and one bit of information
When a ring alarm which does not have the packet structure constituted by the following arrives, the central station 30 and the slave stations 31 to 33 identify this as a ring alarm. This ring alarm is
Normal packet processing since normal packet processing is not performed at the station
Arrives at the central station 30 with a shorter propagation delay.

The slave station 32 and the slave station 33 adjacent to the location where the failure occurs are connected to the transmission line 4 where the test signal does not arrive at the slave station 32.
5 is switched as the information path at the time of failure, and the slave station 33 does not receive any packet.
Switching is performed using the transmission path 48 in the direction opposite to the path 6 as an information path at the time of failure. These switching operations are performed by the transfer control unit 6 shown in FIG.
16 and the direction switching units 20 and 21.

As shown in FIG. 4, slave station 32 and slave station 3
When the switching of the information path is completed in 3 and the transmission and reception of packets are started in the central office 30 in both directions, a network at the time of failure is configured.

The transfer control device according to the first embodiment of the present invention is shown in FIG.
Although the same block configuration is provided in both directions as shown in (1), the communication mode storage units 5 and 15 may be configured as one and shared.

Next, a second embodiment of the present invention will be described with reference to FIG. FIG. 5 is a block diagram of a main part of a transfer control device according to a second embodiment of the present invention. FIG. 5 shows only a failure countermeasure part included in the transfer control device. The transfer control device according to the second embodiment of the present invention includes a downlink signal receiving terminal 71 from which a downlink signal arrives, and a downlink signal transmission terminal 82 from which a downlink signal is transmitted.
An uplink signal receiving terminal 81 from which an uplink signal arrives, and an uplink signal transmission terminal 72 from which an uplink signal is transmitted. In the second embodiment of the present invention, information is loaded from the uplink signal transmission terminal 72 into a packet. A receiver 73 and a transmitter 76 are provided as means for transmitting and receiving information carried in a packet arriving from the uplink signal receiving terminal 81.

The transfer control device includes a downstream signal receiving terminal 71,
The central station 30 or the slave stations 31 to 33 are connected by the upstream signal receiving terminal 81, the upstream signal transmitting terminal 72, and the downstream signal transmitting terminal 82.
Is connected to The data input to the receiving unit 73 is
The data is stored in the data memory 74 in the order of arrival, and the data is input to the transmission unit 76 according to the instruction of the address control memory 75. The transmitting unit 76 transmits data from the uplink signal transmitting terminal 72.

A main signal failure detection unit 77 is provided as means for determining that a failure has occurred in the bidirectional transmission line 40 in the direction when packets no longer arrive from the upstream signal reception terminal 81. The ring alarm generator 78 generates a ring alarm, which is failure notification information having an extremely small number of bits, according to the determination result of 77, and transmits the ring alarm in a direction opposite to the above direction.
When a ring alarm arrives when the own station has not determined a failure, the ring alarm detecting section 79 detects this and the own station immediately sends a ring alarm from the ring alarm generating section 78 via the upstream signal transmission terminal 72. Send to the next station. A direction switching unit 80 is provided as a means for transmitting a packet to a transmission line in a direction free from a fault with the local station as a starting point when a fault is determined in the own station. Downlink signal receiving terminal 7
1, a test signal from an adjacent station is flowing. The test signal is constantly received by the receiving unit 73, and when the test signal is interrupted, the occurrence of a failure in the bidirectional transmission path 40 in the down direction is detected. The transmitting unit 76 generates and sends a test signal to the downstream bidirectional transmission path 40 of the next station. The information path configuration procedure at the time of failure is the same as that of the first embodiment of the present invention.

[0031]

As described above, according to the present invention, the occurrence of a failure in the ring transmission path can be instantaneously detected to secure the information path.

[Brief description of the drawings]

FIG. 1 is an overall configuration diagram of a first embodiment of the present invention.

FIG. 2 is a block diagram of a transfer control device according to the first embodiment of the present invention.

FIG. 3 is a diagram showing a flow of information at a moment when a failure occurs.

FIG. 4 is a diagram showing a flow of information after a failure has occurred.

FIG. 5 is a block diagram of a main part of a transfer control device according to a second embodiment of the present invention.

[Explanation of symbols]

 1, 11, 77 Main signal failure detection unit 2, 12, 78 Ring alarm generation unit 3, 13 Separation unit 4, 14 Communication line reception / transfer determination unit 5, 15 Communication mode storage unit 6, 16 Transfer control unit 7, 17 Reception Control unit 8, 18 Communication packet decoding transmission unit 9, 19 Multiplexing unit 10 Test signal failure detection unit 20, 21, 80 Direction switching unit 30 Central station 31 to 33 Slave station 40 Bidirectional transmission path 41 to 49 Transmission path 50 Transmitter 60 Receiver 71 Downlink signal receiving terminal 72 Uplink signal transmitting terminal 73 Receiving unit 74 Data memory 75 Address control memory 76 Transmitting unit 79 Ring alarm detecting unit 81 Uplink signal receiving terminal 82 Downlink signal transmitting terminal

Continuation of the front page (56) References JP-A-4-172035 (JP, A) JP-A-4-3636 (JP, A) JP-B-4-1543 (JP, B2) WAYNE M. LOUCKS, V. CARL HAMACHER, BRUNOR. PREISS, LUKE WONG, "SHORT-PACKET RANSFER PERFORMANCE EIN LOCAL AREA RING G NETWORKS", IEEE TRANSACTION ON COMPUTERS, VOL C-34, NO. 1985, PP. 1006-1014

Claims (3)

(57) [Claims] 1. A downlink signal receiving terminal for receiving a downlink signal, a downlink signal transmitting terminal for transmitting a downlink signal, an uplink signal receiving terminal for receiving an uplink signal, and an uplink signal transmitting terminal for transmitting an uplink signal. And transmits information mounted on a packet from the upstream signal transmission terminal (or the downstream signal transmission terminal) and receives information mounted on the packet arriving from the upstream signal reception terminal (or the downstream signal reception terminal). A ring transmission path station device comprising: means for determining that a failure of the transmission path has occurred in the direction when a packet stops arriving at the upstream signal receiving terminal or the downstream signal receiving terminal. Other adjacent ones according to the judgment result of the judging means.
Generate a fault notification information configured with no isolated bit of the bit packets of the fault notification information in a direction opposite to the said direction
Means for transmitting a signal as an alternative to the signal, and means for immediately transferring the fault notification information in priority to the packet when the fault notification information arrives when the fault has not been determined by the own station. 2. The ring transmission line station device according to claim 1, further comprising: means for transmitting a packet to a transmission line in a direction free from a failure, starting from the station when the own station determines a failure. 2. The transmission unit includes a generation unit that generates failure notification information based on an output of the determination unit, and a transmission unit that transmits the failure notification information to a transmission terminal prior to a packet. 2. The ring transmission line station device according to 1. 3. The transfer means includes: a detection unit for detecting failure notification information arriving at a receiving terminal; and a detection unit for detecting the failure notification information when there is a detection output from the detection unit and no output from the determination unit. 3. The ring transmission line station device according to claim 2, further comprising: means for activating a generation unit that generates the signal.