JPH06216920A - Optical bypass switch control system - Google Patents

Abstract

PURPOSE:To prevent the occurrence of a part having a bad transmission quality in a network. CONSTITUTION:In this optical fiber switch control system, each of all nodes participating in an FDDI network recognizes the distances to adjacent nodes by setting these distances to data areas D1, D2, and D3 where cable length is preliminarily stored. When a node will secede from the network, this node discriminates whether the distance between nodes adjacent to this node is within an effective inter-node distance or not to control optical bypass switches. Thus, each node obtains the distance between adjacent nodes after secession of this node itself, and the node secedes from the network after operating optical bypass switches SWA to SWC to set the bypass state when this distance is within the effective inter-node distance, but the node does not operate optical bypass switches and secedes from the network without setting the bypass state when it is not within this distance.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a network data transmission device conforming to the FDDI standard.

[0002]

2. Description of the Related Art In a conventional optical bypass switch control system, an optical signal is bypassed regardless of the distance between adjacent nodes on both sides.

[0003]

In the conventional method, when the distance between the nodes on both sides adjacent to the node leaving the network is long, the distance between the nodes on both sides is increased because the leaving node bypasses the optical signal. Is FDDI
Since the standard exceeds 2 km and an unstable circuit state is created due to the loss of the optical signal level, there is a problem that sufficient transmission quality cannot be secured.

Therefore, it is an object of the present invention to realize an optical bypass switch control system which prevents a portion having poor transmission quality from occurring in a network.

[0005]

According to the optical bypass switch control method of the present invention, all the nodes participating in the FDDI network understand that the distances between the nodes adjacent to the own node are set when the network is constructed. When leaving the network, the optical bypass switch is controlled by determining whether the distance between the nodes on both sides of the own node is within the range of the effective node distance.

[0006]

In the optical bypass switch control system of the present invention, when a certain node leaves the network, it is calculated whether the distance between the nodes on both sides of the own node is within the range of the effective node distance, When it is determined that the signal is within the range, the optical bypass switch is operated to bypass the optical signal, and then the network is disconnected. When it is determined that the range is out of the range, the network is disconnected without operating the optical bypass switch. This prevents the presence of a portion with poor transmission quality in the network.

[0007]

The present invention will be described in detail below with reference to the embodiments shown in the drawings.

FIG. 1 shows an FDDI network as an embodiment of the optical bypass switch control system of the present invention. In the network shown in FIG. 1, the primary ring connected by the optical fiber cables C ₁ , C ₂ and C ₃ and C ₁ ′ C ₂ ′.
Standard FDD with secondary ring connected at C ₃ ′
It constitutes an I-ring topology. C _{1 to} C ₃ and C ₁ ′ to
C ₃ 'is an optical fiber cable of all of the same length.

The FDDI node A (NA), FDDI node B (NB), and FDDI node C (NC) are each F
A node that joins the DDI network.

Optical bypass switch A (SWA), optical bypass switch B (SWB), optical bypass switch C (S)
WC) is in a state where bypass is not performed in the normal state.

D ₁ is an optical fiber cable C ₁ (C ₁ ′)
Data area for storing the length of, D ₂ data area for storing the length of the optical fiber cable C ₂ (C ₂ ') data area that stores the length of the, D ₃ is an optical fiber cable C ₃ (C _3') Then, it was set when the network was constructed.

In one embodiment of the optical bypass switch control system of the present invention configured as described above, the operation will be described by taking as an example the case where the node NA of the network shown in FIG. 1 fails and leaves the network.

At this time, if the length of all the optical fiber cables is 800 m, the sum of D ₁ and D ₂ is 1.6 km, and the distance from the node NB to the node NC via the cables C ₂ and C ₁ is reached. The distance is about 1.6 km, which is within the maximum FDDI standard inter-node distance of 2 km. Therefore, the node NA operates the optical bypass switch SWA to bypass the optical signal and then leaves the network. This state is shown in FIG.

Next, assuming that the length of all optical fiber cables is 1.5 km, the sum of D ₁ and D ₂ is 3 km,
The distance from the node NB to the node NC via the cables C ₂ and C ₁ is about 3 km, and the maximum internode distance is 2 k.
It will exceed m. Therefore, the node NA leaves the network without operating the optical bypass switch SWA. Although the physical state of the time the network is not changed, because the node NA is not running, actually the folded configuration of the node NB~ cable C ₃ ~ node NC.

As described above, by calculating the distance between the node NB and the node NC when the node NA puts the optical bypass switch SWA into the bypass state, it is possible to prevent the occurrence of a network state with poor transmission quality. You can

[0016]

As described above in detail, according to the present invention, F
All nodes participating in the DDI network are aware that the distance from the node adjacent to the own node is set when the network is constructed, and when leaving the network, the distance between the nodes on both sides of the own node is the effective node. By implementing an optical bypass switch control method that controls the optical bypass switch by judging whether it is within the range of the inter-distance, any node can be Calculate the distance.If this distance is within the range of the effective node distance, operate the optical bypass switch to put it in the bypass state and then leave the network.If it is out of the range, bypass without operating the optical bypass switch. Will leave the network in a state where it is not in use, resulting in poor transmission quality in the network. It is possible to prevent that.

[Brief description of drawings]

FIG. 1 is a diagram showing an FDDI network as an embodiment of an optical bypass switch control system of the present invention.

FIG. 2 is a diagram showing a case where a node A in FIG. 1 puts an optical bypass switch SWA into a bypass state.

[Explanation of symbols]

NA ... FDDI node A NB ... FDDI node B NC ... FDDI node C SWA ... Optical bypass switch A SWB ... Optical bypass switch B SWC ... Optical bypass switch C C ₁ ... Optical fiber cable C ₁ ′ ... Optical fiber cable C ₂ ... Optical fiber cable C the length of the ₂ '... optical fiber cable C ₃ ... optical fiber cable C _3' ... optical fiber cable D ₁ ... cable C ₁ (C ₁ ') to store the length of the data area D ₂ ... cable C ₂ (C _2') Data area to store D ₃ ... Data area to store length of cable C ₃ (C ₃ ′)

Claims (1)

[Claims] 1. All the nodes participating in the FDDI network are aware that the distances between the nodes adjacent to the own node are set when the network is constructed, and when leaving the network, the nodes on both sides of the own node are understood. An optical bypass switch control method characterized by controlling an optical bypass switch by determining whether or not the inter-distance is within the range of the effective inter-node distance.