JPH09116555A - Circuit switching device for communication system having automatic circuit switching function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To merge the circuit switching control with the automatic protection switching control. SOLUTION: A switching factor detection means 1 usually monitors the circuit state via an automatic circuit switching function and then outputs a detection signal to a circuit switching means 2 when a prescribed circuit switching factor is produced to perform the circuit switching. Based on the detection signal, the means 2 performs the circuit switching against its counter station (inter-office transmission line processor 5). Then a host management device 3 individually outputs a circuit switching command. Receiving the switching command from the device 3, a switching factor generation means 4 compulsively produces a prescribed circuit switching factor and instructs the means 1 to output a detection signal.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a line switching device for a communication system having an automatic line switching function, and more particularly to a host management device for controlling switching between a working line and a protection line according to a system state. Also, the present invention relates to a line switching device of a communication system having an automatic line switching function that operates according to a predetermined line switching factor.

The commercialization of wideband ISDN has started, and along with it, ATM switches are also in the stage of commercial development. In addition, SDH (Synchron
ous Digital Hierarch) has been standardized, in order to automatically switch between the working line and the protection line,
APS (Automatic Prot
ection Switching) Bytes are provided.

[0003]

2. Description of the Related Art FIG. 13 shows the configuration of a broadband ISDN system.
Shown in That is, the system is composed of switching stations 101 to 103 having an ATM switching function and a concentrating station 104 having a function of concentrating subscribers.
A subscriber line is connected to 03, and the concentrating station 104 performs a multiplexing / demultiplexing process between the subscriber line and the exchange 103.

FIG. 14 shows the internal structure of the exchanges 101 to 103.
Shown in In the figure, an ATM switch 105 performs ATM exchange, an inter-station transmission line processing device 106 controls transmission of an inter-station transmission line with another exchange, and a subscriber line control device 107.
Controls the transmission of the subscriber line. Inter-station transmission path processing device 1
06 is divided into a common unit 106a and an individual unit 106b, and the individual unit 106b interfaces with an inter-station transmission path,
The common unit 106a controls the operation of the individual unit 106b.
The subscriber line control device 107 also includes the common unit 107a and the individual unit 1.
07b, the individual unit 107b interfaces with the subscriber line, and the common unit 107a controls the operation of the individual unit 107b. The intra-station signal line processing unit 108 processes various control signals transmitted through the intra-station signal line. The operation system (OS) 109 performs overall control within the station. Each device except the operation system 109 has a dual structure.

FIG. 15 shows an inter-station transmission path processing device 106. The individual unit 106b is individually configured according to the interface specification of each inter-station transmission path, and terminates the line. The common unit 106a controls each individual unit in common, and interfaces with the ATM switch 105.

There are the following five functions of the individual unit 106b. (1) Physical interface function (2) ATM layer interface function (3) UPC / NPC function (4) Billing measurement function (5) Maintenance / test function The UPC / NPC function allows cells (violating cells) of a predetermined band or more It is a function to prevent inflow to the exchange, the billing measurement function is a function to measure the passing cell amount to perform billing on a cell-by-cell basis, and the maintenance / testing function is to check that the individual unit itself is normal. This is a function to insert a test cell into the user cell for confirmation.

Since the transmission lines between the exchanges are particularly important, they are generally duplicated. The line switching is performed according to the APS specified in Bellcore's recommendation TR-NWT-000253. In the APS, the inter-station transmission path processing device 106 performing the line operation processing detects the line failure and, at the same time as the inter-station transmission line processing device of the opposite exchange, without the intervention of the operation system 109, the AP.
This is a method of autonomously switching lines by exchanging S bytes. Since APS is autonomous switching, the time required from failure detection to completion of switching is short (50 ms or less)
There is a feature. The APS also defines a line switching function by a command sent from the operation system 109. Predetermined factors are defined in advance as line switching factors such as line faults and commands, and priority levels are set for these factors.

Between the inter-station transmission path processing device 106 and the inter-station transmission path processing device of the opposite exchange station, an APS byte (K1,
K2 byte) is used to exchange protocols,
This realizes line switching. The APS byte is
A signal handled by SONET (Synchronous Optical Nerwork) has a frame structure, and is a control byte included in the overhead. That is, as shown in FIG. 16, on the transmitting side, the common unit 106a normally sends the same signal to the individual units 106b and 106c, and the receiving side selects one of them. I am trying. That is, on the receiving side,
g) When switching from the line to the protection line,
By exchanging the protocols, the common unit 106a switches the connection so that the signal received from the individual unit 106b is received from the individual unit 106c.

[0009]

However, the APS is a system for autonomously performing processing, and basically operates without the intervention of the operation system 109, which is an upper layer device, so that the APS and the upper layer device are operated together. There is a difference in recognition of the line status, and abnormal line switching occurs.

The following are three examples of such abnormal line switching. FIG. 17 shows the first case. That is, A
The PS can deal with the failures in the functions (1) and (2) of the above-mentioned five functions of the individual units 106b and 106c, but can handle the failures in the functions (3) to (5). Cannot handle. Furthermore, the APS cannot cope with a failure in the confounding portion between the individual units 106b and 106c and the common unit 106a, disconnection of the intra-office link, and the like. For such a failure that cannot be handled by the APS, the host device 109
Corresponds.

Therefore, when a failure that cannot be handled by APS occurs in the individual unit 106b, the upper device 109 detects the failure, and as a result, OUS (Out-of-Out-of- However, the line switching by the APS does not occur, and the individual unit 106b holds the active (ACT) state. Even if there is no failure in the individual unit 106b, the situation in which the individual unit holding the active state is OUS-ized is the case where the host device 109 performs the OUS process of the individual unit 106b for maintenance management of the individual unit 106b. Also occurs.

18 and 19 are sequence diagrams showing a second case. FIG. 18 shows the first half, and FIG. 19 shows the second half.
In the figure, “own station” indicates an exchange station (for example, 103 in FIG. 13), and “opposite station” indicates an opposite exchange station (for example, 101 in FIG. 13) connected to the own station. The “upper device” is the own station 103
1 shows an operating system 109 for managing the. Hereinafter, description will be given along the step numbers shown in the drawing.

[S1] Transmission line failure S in the individual unit 106b
Upon detection of F (Signal Failure), the individual unit 106b notifies the common unit 106a to that effect. “SF = 1” indicates detection of SF. At this stage, in the APS, the individual unit 106b is selected as the working side, and in the host device 109, the individual unit 106b is operating as the working device, that is, in the INS (In-Service) state.

[S2] The common unit 106a is the host device 109.
Is notified to the individual unit 106b. [S3] The common unit 106a sends S to the individual unit 106b.
Because of F, the opposite station 101 is instructed to switch to the protection line side (K1CH = 1) and the own station 103 to remain on the working line side (K2CH = 0). In addition, "K1
“CH” always indicates the other party's line, “K2CH” always indicates the own line, “CH = 0” indicates the working line, and “C”
"H = 1" indicates a protection line.

[S4] The individual unit 106b switches the opposite station 101 to the protection line side because of SF (K
1CH = 1) Communicate. At this stage, the APS enters the switching control state.

[S5] The opposite station 101 informs the individual unit 106b to switch the individual unit 106b to the protection line side (K1CH = 1). [S6] The opposite station 101 notifies the individual unit 106b that the switching has been completed (K2CH = 1) on the protection line side.

[S7] The individual unit 106b is the common unit 106a.
, The information sent from the opposite station 101 is transferred (K1CH = 1 / K2CH = 1). [S8] The common unit 106a switches the individual unit 106b to the opposite station 101 on the protection line side (K1CH = 1)
Therefore, the own station 103 should also switch to the protection line side (K
2CH = 1) Instruct.

[S9] The individual unit 106b notifies the opposite station 101 that the individual unit 106b has also been switched to the protection line side (K2CH = 1). As a result, in the APS, the individual unit 106c is in the state of being selected on the working side.

[S10] The host device 109 executes step S
According to the failure notification in 2, the individual unit 106b is set to O
US processing is performed to bring the individual unit 106b into a state in which it does not operate as an active device, that is, an OUS state. Host device 109
The processing time is relatively long because it is processed by software.

[S11] When the failure occurring in the individual unit 106b is recovered, the individual unit 106b changes to the common unit 106a.
You will be notified to that effect. “SF = 0” indicates that the SF has disappeared.

[S12] The common unit 106a is the host device 10
9 is notified that the failure that occurred in the individual unit 106b has been recovered. [S13] The failure that occurred in the individual unit 106b has been recovered, but both the individual unit 106b and the opposite station 101 retain the state of the protection line side (K1CH = 1 / K2CH = 1).
Then, the common unit 106a instructs the individual unit 106b.

[S14] The individual unit 106b is the opposite station 101.
, The information sent from the common unit 106a is transferred (K1CH = 1). [S15] Here, it is assumed that a switch command called a manual switching MS (Manual Switch) requesting switching back from the protection line side to the working line side is added to the opposite station 101.
The opposite station 101 transmits an MS command for switching back to the working line side to the individual unit 106b (K1CH
= 0).

[S16] The individual section 106b is the common section 106
Notify a that the opposite station 101 is still on the protection line side (K2CH = 1), but is requested to switch to the working line side (K1CH = 0).

[S17] As the APS control, it is possible to switch the individual unit 106b back to the working line side at this stage when the failure is recovered. Therefore, the common unit 106a instructs the individual unit 106b to switch the opposite station 101 to the working line side (K1CH = 0) and to switch the own station 103 to the working line side (K2CH = 0). Therefore, the APS enters the switching control state at this stage.

[S18] The individual unit 106b is the opposite station 101.
However, to switch to the working line side (K1CH =
0) Tell. [S19] The individual unit 106b switches the local station 103 to the working line side with respect to the opposite station 101 (K2CH = 0).
Tell the effect.

[S20] The opposite station 101 has the individual unit 106b.
In response, the own station 101 was switched to the working line side (K
2CH = 0) is transmitted. [S21] The individual unit 106b is different from the common unit 106a in that
The information (K2CH = 0) sent from the opposite station 101 is transferred and the fact that the own station 103 has switched to the working line side (K2CH = 0) is transmitted. At this stage in APS,
The individual unit 106b is in the state of being selected on the working side.

[S22] The higher-level device 109 executes step S
According to the restoration notification by 12, the initial setting of the individual unit 106b is started. That is, the initialization setting for UPC / NPC and billing is executed. This is an operation by software, and is after the end of step S21.

As described above, when the manual switching MS command is input after the failure of the individual unit 106b is recovered, the individual unit 106b is controlled by the APS control before the initialization of the individual unit 106b by the host device 109 is completed. An abnormal state occurs in which the line is switched back to the working line side. For this reason, the individual unit 106b for which link establishment or initial setting has not been performed is connected to the working line side in terms of hardware, resulting in a situation in which the system function cannot be satisfied.

In order to prevent such a problem, an operator's operation (input of a switchback prohibition command and IN
It is effective to input the release command when converted to S.
The system operation becomes complicated, and there is a possibility of human error.

20 and 21 are sequence diagrams showing a third case. FIG. 20 shows the first half, and FIG. 21 shows the latter half.
In the sequence diagram showing the third case, steps having the same contents as the steps in the sequence diagram showing the second case (FIGS. 18 and 19) are designated by the same step numbers, and the description thereof will be omitted. Hereinafter, description will be given along the step numbers shown in the drawing.

[S31] In the third case, the individual section 106b is used.
When the failure of is not recovered, the forced switching FS (Forced
This is the case where a switch command called “Switch” is added to the opposite station 101.

The opposite station 101 is
The FS command for switching back to the working line side is transmitted (K1CH = 0). [S32] The individual unit 106b is different from the common unit 106a in that
The opposite station 101 is still on the protection line side (K2CH =
1), so that this will switch to the working line side (K1C
H = 0) Notify that it is required.

[S33] The FS command has a high request priority, and therefore the APS control is performed by the individual unit 106b.
Even if the failure of No. has not been recovered, the individual unit 106b is switched to the working line side. Therefore, the common unit 106a instructs the individual unit 106b to switch the opposite station 101 to the working line side (K1CH = 0) and to switch the own station 103 to the working line side (K2CH = 0). Therefore, the APS enters the switching control state at this stage.

[S34] The individual unit 106b is the opposite station 101.
However, to switch to the working line side (K1CH =
0) Tell. [S35] The individual unit 106b switches the local station 103 to the working line side with respect to the opposite station 101 (K2CH = 0).
Tell the effect.

[S36] The opposite station 101 has the individual unit 106b.
In response, the own station 101 was switched to the working line side (K
2CH = 0) is transmitted. [S37] The individual unit 106b is different from the common unit 106a in that
The information (K2CH = 0) sent from the opposite station 101 is transferred and the fact that the own station 103 has switched to the working line side (K2CH = 0) is transmitted. At this stage in APS,
The individual unit 106b is in the state of being selected on the working side.

As described above, when the forced switching FS command is input at the time of failure of the individual unit 106b, the individual unit 106b
Although the management state of the host device 109 for b is OUS, the individual unit 106b is switched back to the working line side by the APS control, resulting in an abnormal state. Therefore, the individual unit 10 for which link establishment and initial setting have not been performed.
Since 6b is connected to the working line side in terms of hardware, a state in which the system function cannot be satisfied occurs.

The present invention has been made in view of the above circumstances, and aims to combine the line switching control and the APS control by the host device and to complete the link establishment and the initial setting by the host device for the individual units. , APS is intended to provide a line switching device of a communication system having an automatic line switching function for performing line switching.

[0038]

In order to achieve the above object, the present invention monitors the line status as shown in FIG.
Switching factor detection means 1 for detecting the occurrence of a predetermined line switching factor for line switching and outputting a detection signal, line switching means 2 for switching the line based on this detection signal, and a host When a command to switch the line is received from the management device 3, a switching factor generating unit 4 for forcibly generating the predetermined line switching factor and outputting a detection signal to the switching factor detecting unit 1 is provided. A line switching device of a communication system having a characteristic automatic line switching function is provided.

In the above configuration, the switching factor detecting means 1 normally monitors the line state by the automatic line switching function and outputs a detection signal when a predetermined line switching factor for switching the line occurs. Output to the line switching means 2. On the basis of this detection signal, the line switching means 2 performs line switching with the opposite station (inter-station transmission path processing device 5).

On the other hand, the upper management device 3 independently outputs the line switching command, but when the switching factor generating means 4 receives the line switching command from the higher management device 3, the predetermined circuit switching factor is forced. And cause the switching factor detection means 1 to output a detection signal.

Therefore, the automatic line switching function is also activated in response to the line switching command from the upper management device 3, and the line switching control and the automatic line switching control by the upper management device 3 are integrated.

Further, two inter-station transmission path processing devices 5 and 6 and two inter-station transmission path processing device 5 which are provided with a working line and a protection line between them and perform line switching using the APS byte. , 6 provided to correspond to one of the devices 6, and provided to the one device 6 and the upper management device 3 for setting the working line to the state in which the working line can be restored when the failure of the working line is recovered. When the other device 5 of the two inter-station transmission path processing devices 5, 6 requests the line switching so as to restore the working line to the working line, the upper management device 3 can restore the working line to the working line. The confirmation means 7 for confirming that the setting to the state is completed, and the working line provided in the one device 6 and obtained from the other device 5 according to the confirmation result by the confirmation device 7. Control whether execution of the current recovery of And control means 8, line switching apparatus of a communication system with a APS characterized by having is provided.

In the above configuration, the automatic line switching control is performed between the two inter-station transmission path processing devices 5 and 6 using the APS byte. By the way, when a failure has occurred in the working line, but when the failure is recovered, the upper management apparatus 3 performs a predetermined initialization process on the corresponding inter-station transmission path processing apparatus 6, and this working Set the line so that it can be restored to the current state.

APS control needs to be performed after the completion of this initialization processing. For this reason, when one of the inter-station transmission path processing devices 5, 6 requests switching of the line so as to restore the working line to the working line, the confirming means 7 causes the upper management device 3 to use the working line. Make sure that you have completed setting the line to a working-ready state. According to the confirmation result by the confirmation means 7, the execution control means 8
Controls whether or not the working recovery of the working line obtained from the other device 5 can be performed. That is, when the confirmation means 7 does not confirm the completion of the setting, the working return of the working line is prohibited.

Therefore, the APS control is carried out after waiting for the completion of the initialization processing by the upper management apparatus 3.
The line switching control and the APS control by the higher-level management device 3 are integrated. That is, the line switching by the APS function is performed at the stage when the link establishment and the initial setting by the upper management apparatus 3 are completed.

[0046]

Embodiments of the present invention will be described below with reference to the drawings. First, the principle configuration of this embodiment will be described with reference to FIG. Embodiments of the present invention
A switching factor detecting means 1 for monitoring the line state and detecting that a predetermined line switching factor for switching the line is generated and outputting a detection signal, and a line for switching the line based on the detection signal. When the switching unit 2 and the upper management apparatus 3 receive a command to switch the line, the predetermined line switching factor is compulsorily generated, and the switching factor detection unit 1
Switching factor generating means 4 for outputting a detection signal.

Further, in the embodiment of the present invention, two inter-station transmission path processing devices 5, 6 are provided which have a working line and a protection line between them and perform line switching using APS bytes.
And a higher-level management device 3 which is provided corresponding to one of the two inter-station transmission path processing devices 5 and 6 and which sets the working line to the working resumable state when the working line is recovered from the failure. When the line switching is requested from the other device 5 of the two inter-station transmission path processing devices 5 and 6 to restore the working line to the working state, the upper management is performed. The confirmation means 7 for confirming that the device 3 completes setting the working line to the working recovery state, and the device 6 provided on the one side of the device 6, according to the confirmation result by the confirmation means 7, And an execution control means 8 for controlling whether or not to carry out the working recovery of the working line obtained from the other device 5.

The detailed structure of the embodiment of the present invention will be described below with reference to FIGS. Note that FIG.
~ Correspondence between the configuration shown in Fig. 8 and the principle configuration shown in Fig. 1 will be described at the stage where the detailed configuration has been described.

FIG. 2 is a block diagram showing the internal configuration of the inter-station transmission path processing device. In the figure, thick arrows show the flow of line signals, double arrows show the flow of main signals, and thin arrows show the flow of control signals. It should be noted that the inter-station transmission path processing device is provided with two common parts having the same configuration, but in FIG. 2, only one is shown to avoid complication of the drawing. Details of the configuration associated with the two common parts are shown in FIGS.

First, from the common unit 30a to the individual units 10a, 1
To explain along the flow of signals to 0b, the common unit 30a
Is the transmission unit 11a, 11 of the two individual units 10a, 10b.
The same main signal is sent to b. Also, the common unit 30a
The control signal from the APS control unit 32a of
via the K1K2 control units 15a and 15b of a and 10b,
It is sent to the K1K2 insertion parts 12a and 12b, respectively. K
The 1K2 inserting units 12a and 12b insert (multiplex) each sent signal into the K1 / K2 byte of the SONET overhead of each main signal. Then, the transmission units 11a and 11b
It is sent as a line signal to each individual unit of the inter-station transmission path processing device of another exchange.

Next, from the individual unit 10a to the common unit 30a,
Describing along the flow of signals to 30b, the receiving units 13a and 13b of the two individual units 10a and 10b receive the respective line signals from the individual units of the inter-station transmission path processing device of the other exchange. , And sends each main signal to the selector 34a of the common unit 30a. Under the control of the APS controller 32a, the selector 34a selects the main signal on the working side at that time and sends it to the ATM switch. The K1K2 separation units 14a and 14b of the individual units 10a and 10b separate the K1 / K2 byte signals from the respective main signals and send them to the APS control unit 32a of the common unit 30a via the K1K2 control units 15a and 15b. Note that AP
The in-station control signal processing unit 31a and the state table 33a are connected to the S control unit 32a, and the in-station control signal processing unit 31a transmits and receives control signals to and from the operating system, and sends and receives APS commands to and from the APS control unit 32a. And exchange messages. The status table 33a stores information indicating the APS control status, that is, information indicating that the line is in use, that switching processing is in progress, or that switching is prohibited.

In FIG. 3, the main signals are the common parts 30a and 30b.
It is a figure which shows a mode that it is transmitted from each to the individual parts 10a and 10b. The selectors 16a and 1 are provided in the individual units 10a and 10b, respectively.
6b is provided, and these selectors 16a and 16b are
The main signals sent from the two common units 30a and 30b are selected and output to the transmission units 11a and 11b.
The selectors 16a and 16b are A of the common parts 30a and 30b.
It operates by a control signal from the CT control units 35a and 35b, and selects the main signal sent from one of the two common units 30a and 30b. The common parts 30a and 30b themselves also
Under the control of the ACT control units 35a and 35b, only one of them is in a working state and operates.

In FIG. 4, the control signals are common to the common sections 30a and 30.
It is a figure which shows a mode that it is transmitted from b to the individual parts 10a and 10b. Here, as in the case of the main signal, the selector 1
6a and 16b respectively select the control signals sent from the two common units 30a and 30b and output them to the K1K2 control units 15a and 15b.

In FIG. 5, each main signal has individual parts 10a and 10b.
It is a figure which shows a mode that it is transmitted to the common part 30a, 30b from. The same main signal is sent from the individual unit 10a to the common unit 30a,
30b, and the same main signal is also sent from the individual unit 10b to the common units 30a and 30b.

In FIG. 6, each control signal is transmitted to the individual units 10a and 10b.
It is a figure which shows a mode that it is transmitted from b to the common parts 30a and 30b. The same control signal is sent from the individual unit 10a to the common unit 30.
a, 30b, and the same control signal is sent from the individual unit 10b to the common units 30a, 30b. APS control unit 3
In 2a and 32b, only the control signal on the working side is selected.

7 and 8 are diagrams showing the detailed internal structures of the common portion 30a and the individual portion 10a. Common part 30b
The individual part 10b and the common part 30a and the individual part 10
Each has exactly the same configuration as a. Although illustration of the common unit 30b and the individual unit 10b is omitted, in the common unit 30b and the individual unit 10b, the common unit 30a and the individual unit 10 are included.
Portions having the same internal configuration as a are denoted by reference numerals in which “a” is replaced with “b”, and they are also used in FIGS. 7 and 8.

As shown in FIG. 7, the common unit 30a further includes a demultiplexing unit (DMUX) 36a and a multiplexing unit (MUX) 3
7a, various device failure monitoring unit 38a, control INF unit 39a
Is provided. The demultiplexing unit 36a demultiplexes the control signal multiplexed into the main signal and outputs the demultiplexed control signal to the intra-station control signal processing unit 31a. This main signal is sent from the operating system via the ATM switch. The multiplexing unit 37a is for multiplexing the main signal with the control signal from the intra-station control signal processing unit 31a and sending it to the operation system via the ATM switch. The various device failure monitoring unit 38a monitors the various devices in the common unit 30a for failures and informs the APS control unit 32a that there is an abnormality. The control INF unit 39a is for interfacing with the individual units 10a and 10b.

Further, as shown in FIG. 8, the individual unit 10a is further provided with various device failure monitoring units 17a and a control INF unit 18a. The various device failure monitoring unit 17a monitors various devices in the individual unit 10a for failures and notifies the K1K2 control unit 15a that there is an abnormality.
The F section 18a is for interfacing with the common sections 30a and 30b.

The switching factor detecting means 1 shown in FIG.
Corresponding to the various device fault monitoring units 38a and 38b of FIG. 7 and the various device fault monitoring units 17a and 17b of FIG. 8, the line switching means 2 of FIG. 1 corresponds to the selectors 34a and 34b of FIG. The management device 3 corresponds to the operation system, the switching factor generation means 4 in FIG. 1 corresponds to the intra-station control signal processing units 31a and 31b in FIG. 7, and the inter-station transmission path processing devices 5 and 6 in FIG. 1 corresponds to the APS control units 32a and 32b and the state tables 33a and 33b in FIG. 7, and the execution control unit 8 in FIG. 1 corresponds to the APS control unit in FIG. It corresponds to 32a and 32b.

In the configuration of this embodiment, for example, when the individual unit 10a is in the active state, the operation system (upper device) to the intra-station control signal processing unit 31a via the separation unit 36a of the common unit 30a, Individual part 1
It is assumed that an instruction to make 0a OUS is issued. Upon receiving this instruction, the in-station control signal processing unit 31a receives the APS control unit 3
2a, control INF section 39a, control INF of individual section 10a
The reset signal is sent to the transmitting unit 11a and the receiving unit 13a of the individual unit 10a via the unit 18a. The reset signal resets the physical interface functions of the transmitter 11a and the receiver 13a, whereby the transmitter 11a and the receiver 13 are reset.
The signal output from a is disconnected, and the various device failure monitoring unit 17a detects the transmission line failure SF. Therefore, K1
The K2 control unit 15a performs APS control, and the individual unit 10a is switched from the working state to the standby state.

Further, instead of the generation of such a reset signal, a pseudo fault may be generated. That is, from the operation system (upper device) to the individual unit 1
When an instruction to make 0a OUS is issued, the in-station control signal processing section 31a receives this instruction and sends a pseudo failure instruction that a failure has occurred in the individual section 10a to the various device failure monitoring section 38a. The APS control unit 32a performs APS control upon receiving a report from the various device failure monitoring unit 38a that a failure has occurred in the individual unit 10a, and the individual unit 10a is switched from the working state to the standby state.

In this way, the APS control is activated in response to the line switching command sent from the host device, and the line switching control and the APS control by the host device are integrated. A solution for the first case is made.

Next, the control procedure of line switching by the state tables 33a and 33b and the APS control units 32a and 32b will be described with reference to FIGS. 9 and 10
FIG. 9 is a sequence diagram showing a control procedure which is a solution to the above-mentioned second conventional case, FIG. 9 shows the first half thereof, and FIG. 10 shows the latter half thereof. 11 and 12 are sequence diagrams showing a control procedure as a solution to the above-mentioned third conventional case, FIG. 11 showing the first half thereof, and FIG. 12 showing the latter half thereof.

First, the control procedure for line switching will be described with reference to the sequence diagrams shown in FIGS. In this sequence, it is assumed that the same steps as steps S1 to S10 shown in FIG. In this sequence, it is assumed that a failure has occurred in the individual section 10a and the failure has been recovered, and the common section 30
The description will proceed assuming that a is in the active state. Hereinafter, description will be given along step numbers in the drawing.

[S41] When the failure that has occurred in the individual unit 10a is recovered, the individual unit 10a notifies the common unit 30a to that effect. [S42] The common unit 30a notifies the higher-level device (operation system) that the failure that has occurred in the individual unit 10a has been recovered.

[S43] Status table 3 of common unit 30a
3a to the K1CH and K from the APS controller 32a.
The line status represented by 2CH is sent to the status table 33.
It is stored in the APS state table in a.

This APS status table is OU for each individual unit.
It is composed of an S state table and an INS state table, and the line state of each individual unit is stored according to the OUS state and the INS state set by the host device. That is, when the INS state is set from the host device, the current K1CH and K2CH are stored in the INS state table,
In this case, the conventional AP according to Bellcore's recommendation
S control is performed. On the other hand, when the OUS state is set by the host device, the K1CH and K2CH stored in the INS state table immediately before that are copied to the OUS state table as they are, and the K
The line states represented by 1CH and K2CH are fixed.

At the stage before this step S41, the OU
In the S state table, "K1CH = 1" and "K2CH =
1 ”is written. When the APS control unit 32a of the common unit 30a is notified of the failure recovery, the status table 33a
See As a result, “K1C
Recognize that "H = 1" and "K2CH = 1" are written. Then, although the failure that occurred in the individual unit 10a has been recovered, since it is still in the OUS state, both the individual unit 10a and the opposite station retain the state on the protection line side as SF (K1CH = 1 / K2CH = 1), and the common unit 30a instructs the individual unit 10a.

[S44] The individual unit 10a transfers the information sent from the common unit 30a to the opposite station (K1C).
H = 1). [S45] Here, it is assumed that a switch command called a manual switch MS (Manual Switch) for switching back from the protection line side to the working line side is added to the opposite station. The opposite station notifies the individual unit 10a of an MS command for switching back to the working line side (K1CH = 0).

[S46] The individual unit 10a has the opposite station on the protection line side with respect to the common unit 30a (K2CH =
1) Notify that the individual unit 10a is required to switch to the working line side (K1CH = 0).

[S47] The APS control unit 32a of the common unit 30a responds to this MS command by the status table 33a.
See As a result, “K1C
Since "H = 1" and "K2CH = 1" have been written, the state is still in the OUS state, so that the individual unit 10a and the opposite station maintain the state on the protection line side as SF (K1CH = 1 / K2CH = 1) and common part 3
0a instructs the individual unit 10a.

[S48] The individual unit 10a transfers the information sent from the common unit 30a to the opposite station (K1C).
H = 1). As described above, in the conventional case, there is a disadvantage that the individual unit 10a is restored to the current state in response to the MS command even though the individual unit 10a is in the OUS state.
If the individual unit 10a is in the OUS state, the MS command can be rejected.

[S49] The host device starts the initial setting of the individual unit 10a in accordance with the restoration notification in step S42. That is, the initialization setting for UPC / NPC and billing is executed.

[S50] When the initial setting is completed, the common unit 30a sends an acknowledgment (ACK) to the host device.
As a result, the management state of the individual unit 10a by the host device becomes the INS state.

However, the individual portion 10a is still in the OUS state. Therefore, even if the MS command is input at this stage, it is rejected. That is, steps S51-
The step S54 has exactly the same contents as the steps S45 to S48. Because of the same contents, step S
The description of 51 to step S54 is omitted. [S55] The individual unit 10a is converted to INS by the higher-level device. When this INS conversion is completed, the current KS state table is displayed in the INS state table of the state table 33a of the common unit 30a.
“1CH = 1 / K2CH = 1” is stored, and the conventional APS control according to Bellcore's recommendation can be performed.

[S56] Until the switching instruction is issued, the common unit 30a instructs the individual unit 10a so that both the individual unit 10a and the opposite station maintain the state of the protection line side (K1CH = 1 / K2CH = 1). To do.

[S57] The individual unit 10a transfers the information sent from the common unit 30a to the opposite station (K1C).
H = 1). [S58] Here, it is assumed that a manual switching MS command for switching back from the protection line side to the working line side is added to the opposite station. The opposite station notifies the individual unit 10a of an MS command requesting switching back to the working line side (K1
CH = 0).

[S59] The individual unit 10a has the opposite station on the protection line side with respect to the common unit 30a (K2CH =
1) Notify that the individual unit 10a is required to switch to the working line side (K1CH = 0).

[S60] The APS control unit 32a of the common unit 30a responds to this MS command by the status table 33a.
See As a result, "K1C" is displayed in the INS status table.
Since "H = 1" and "K2CH = 1" are written, it is recognized that the conventional APS control according to the recommendation of Bellcore can be performed. Therefore, the common unit 30a instructs the individual unit 10a to switch the opposite station to the working line side (K1CH = 0) and to switch the individual unit 10a to the working line side (K2CH = 0). Therefore, the APS enters the switching control state at this stage.

[S61] The individual unit 10a notifies the opposite station to switch to the working line side (K1CH = 0). [S62] The individual unit 10a sends the
Notify that a has switched to the working line side (K2CH = 0).

[S63] The opposite station has switched to the working line side with respect to the individual unit 10a (K2CH =
0) Communicate to the effect. [S64] The individual unit 10a transfers the information (K2CH = 0) sent from the opposite station to the common unit 30a, and the individual unit 10a is switched to the working line side (K2C).
H = 0) Thus, in APS, individual unit 1
0a is selected as the active side.

As described above, even after the manual switching MS command is input after the failure of the individual unit 10a is recovered and before the initialization of the individual unit 10a by the higher-level device is not completed, the individual unit is not controlled by the APS control. The problem that 10a is switched back to the working line side does not occur. When the manual switching MS command is input after the subsequent link establishment and initial setting for the individual unit 10a are completed, the individual unit 10a is switched back to the working line side in the APS control. In this way, APS control is performed after waiting for the completion of the initialization process by the host device.
The line switching control and the APS control by the host device are integrated.

Next, a line switching control procedure will be described based on the sequence diagrams shown in FIGS. 11 and 12. Since this sequence includes the same steps as steps S1 to S10 shown in FIG. 20, the same step numbers are given to them and the description thereof will be omitted. The description will proceed assuming that a failure has occurred in the individual unit 10a and the common unit 30a is in the active state. Hereinafter, description will be given along step numbers in the drawing.

[S71] If the forced switching FS command requesting to switch from the protection line side to the working line side is added to the opposite station when the failure of the individual section 10a is not recovered, the opposite station operates as the individual section 10a. The FS command requesting to switch back to the working line side (K1C
H = 0).

[S72] The individual unit 10a has the opposite station on the protection line side with respect to the common unit 30a (K2CH =
1) Notify that the individual unit 10a is required to switch to the working line side (K1CH = 0).

[S73] In response to this FS command, the APS control unit 32a of the common unit 30a makes the status table 33a.
See As a result, “K1C
Since "H = 1" and "K2CH = 1" have been written, the state is still in the OUS state, so that the individual unit 10a and the opposite station maintain the state on the protection line side as SF (K1CH = 1 / K2CH = 1) and common part 3
0a instructs the individual unit 10a.

[S74] The individual unit 10a transfers the information sent from the common unit 30a to the opposite station (K1C).
H = 1). As described above, in the conventional case, there is a problem that the individual unit 10a returns to the working state in response to the FS command even though the individual unit 10a is in the OUS state.
If a is in the OUS state, it can reject the FS command.

While the individual unit 10a is in the OUS state, the FS command is continuously rejected as shown in steps S75 to S78. Since the contents of steps S75 to S78 are the same as the contents of steps S71 to S74, the description thereof will be omitted.

[S79] When the failure occurring in the individual unit 10a is recovered, the individual unit 10a notifies the common unit 30a to that effect. [S80] A series of processes following failure recovery is completed, and the individual unit 10a is converted to INS by the host device. This IN
When S conversion is completed, the state table 33a of the common unit 30a
In the INS status table of “K1CH = 1 / K
2CH = 1 ”is stored, and the conventional APS control in accordance with Bellcore's recommendation can be performed.

[S81] Here, it is assumed that a forced switching FS command requesting switching back from the protection line side to the working line side is added to the opposite station. The opposite station notifies the individual unit 10a of an FS command requesting switching back to the working line side (K1CH = 0).

[S82] The individual unit 10a has the opposite station on the protection line side with respect to the common unit 30a (K2CH =
1) Notify that the individual unit 10a is required to switch to the working line side (K1CH = 0).

[S83] In response to this FS command, the APS control unit 32a of the common unit 30a causes the status table 33a.
See As a result, "K1C" is displayed in the INS status table.
Since "H = 1" and "K2CH = 1" are written, it is recognized that the conventional APS control according to the recommendation of Bellcore can be performed. Therefore, the common unit 30a instructs the individual unit 10a to switch the opposite station to the working line side (K1CH = 0) and to switch the individual unit 10a to the working line side (K2CH = 0). Therefore, the APS enters the switching control state at this stage.

[S84] The individual unit 10a notifies the opposite station to switch to the working line side (K1CH = 0). [S85] The individual unit 10a sends the other unit 10a
Notify that a has switched to the working line side (K2CH = 0).

[S86] The opposite station has switched to the working line side of the individual unit 10a (K2CH =
0) Communicate to the effect. [S87] The individual unit 10a transfers the information (K2CH = 0) sent from the opposite station to the common unit 30a, and the individual unit 10a switches to the working line side (K2C).
H = 0)

Thus, in the APS, the individual unit 10a is in the state of being selected on the working side. As described above, the individual unit 1
Even after the forced switching FS command is input after the failure of 0a and before the initialization of the individual unit 10a by the host device is completed, the individual unit 10a is switched back to the working line side in the APS control. The problem of being lost will not occur. When the forced switching FS command is input after the subsequent link establishment and initial setting for the individual unit 10a are completed, the individual unit 10a is controlled in the APS control.
Is switched back to the working line side. In this way, APS control is performed after waiting for the completion of the initialization processing by the host device, and the line switching control and the APS control by the host device are integrated.

[0096]

As described above, in the present invention, when a command to switch the line is received from the upper management device, a predetermined line switching factor for switching the line is forcibly generated to detect the line switching factor. I tried to output a signal.
As a result, the automatic line switching function is also activated in response to the line switching command from the host management device, and the line switching control and the automatic line switching control by the host management device are integrated.

Also, although a failure has occurred in the working line,
When the failure is recovered, the upper management device performs predetermined initialization processing on the corresponding inter-station transmission path processing device,
This working line is set to a state in which it can be restored to working. APS control needs to be performed after waiting for the completion of this initialization processing. For this reason, when the other of the inter-station transmission path processing devices is requested to switch the line so as to restore the working line to the working state, the upper management device sets the working line to the working resumable state. After confirming that this has been completed, the working return of the working line is executed. Therefore, wait for the completion of the initialization process by the host management device.
PS control will be performed, and the line switching control and APS control by the upper management apparatus can be integrated. That is, the line switching by the APS function is performed at the stage when the link establishment and the initial setting by the upper management device are completed.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating the principle of the present invention.

FIG. 2 is a block diagram showing an internal configuration of an inter-station transmission path processing device.

FIG. 3 is a diagram showing how each main signal is transmitted from a common unit to an individual unit.

FIG. 4 is a diagram showing how control signals are transmitted from a common unit to individual units.

FIG. 5 is a diagram showing how each main signal is transmitted from an individual unit to a common unit.

FIG. 6 is a diagram showing how each control signal is transmitted from an individual unit to a common unit.

FIG. 7 is a diagram showing a detailed internal configuration of a common section.

FIG. 8 is a diagram showing a detailed internal configuration of an individual unit.

FIG. 9 is a sequence diagram showing a control procedure as a solution to the second case, showing the first half thereof.

FIG. 10 is a sequence diagram showing a control procedure as a solution to the second case, showing the latter half thereof.

FIG. 11 is a sequence diagram showing a control procedure as a solution to the third case, showing the first half thereof.

FIG. 12 is a sequence diagram showing a control procedure as a solution to the third case, showing the latter half thereof.

FIG. 13 is a block diagram of a conventional wideband ISDN system.

FIG. 14 is an internal configuration diagram of a switching center.

FIG. 15 is a configuration diagram showing an inter-station transmission path processing device.

FIG. 16 is a diagram illustrating line switching.

FIG. 17 is a diagram illustrating a first case of a line switching failure.

FIG. 18 is a sequence diagram for explaining the second case of the line switching problem, showing the first half thereof.

FIG. 19 is a sequence diagram for explaining the second case of the line switching problem, showing the latter half thereof.

FIG. 20 is a sequence diagram illustrating a third case of a line switching failure, showing the first half thereof.

FIG. 21 is a sequence diagram illustrating a third case of a line switching failure, and shows the latter half thereof.

[Explanation of symbols]

 1 switching factor detecting means 2 line switching means 3 upper management device 4 switching factor generating means 5 inter-station transmission path processing device 6 inter-station transmission path processing device 7 confirmation means 8 execution control means

Claims (6)

[Claims] 1. A line of a communication system including a host management device for controlling switching between a working line and a protection line according to a system state, and having an automatic line switching function which operates according to a predetermined line switching factor. In the switching device, a switching factor detection means for monitoring the line status and detecting that a predetermined line switching factor for switching the line is generated and outputting a detection signal, and switching the line based on the detection signal. Upon receiving a command from the upper level management device to perform line switching, and the line switching means to be implemented, the predetermined line switching factor is forcibly generated,
A switching factor generating means for causing the switching factor detecting means to output the detection signal, and a line switching device of a communication system having an automatic line switching function. 2. When the switching factor generating means receives a command from the upper management apparatus to switch the line, the switching factor resetting means resets the physical interface function to forcibly generate the predetermined switching factor. A line switching device for a communication system having an automatic line switching function according to claim 1. 3. A line of a communication system including a host management device for controlling switching between a working line and a protection line according to a system state, and having an automatic line switching function which operates according to a predetermined line switching factor. In the switching device, a switching factor detection means for monitoring the line status and detecting that a predetermined line switching factor for switching the line is generated and outputting a detection signal, and switching the line based on the detection signal. An automatic line, comprising: a line switching unit to be implemented; and a detection signal output unit that causes the switching factor detection unit to output the detection signal when a command to switch the line is received from the upper management apparatus. A line switching device of a communication system having a switching function. 4. An APS (Auto) which is provided with a host management device for controlling switching between a working line and a protection line according to a system state, and which operates according to a predetermined line switching factor.
In a line switching device of a communication system including matic protection switching, two inter-station transmission line processing devices that include a working line and a protection line between them and perform line switching using an APS byte, An upper management apparatus that is provided corresponding to one of the two inter-station transmission path processing devices and that sets the working line to a state in which the working line can be restored when the failure of the working line is recovered; Then, when the other of the two inter-station transmission path processing devices is requested to switch the line so as to restore the working line to the working state, the upper management device can return the working line to the working state. Confirming means for confirming that the setting of the working line has been completed, and the current line of the working line obtained from the other device according to the confirmation result provided by the one confirming device. Line switching apparatus of a communication system with a APS characterized by having a execution control means for controlling whether to execute restoration. 5. The confirmation means further comprises a status table which is provided in the one device and indicates that the upper level management device has completed setting the working line to a working resumable state. 5. The APS according to claim 4, wherein when the other device requests line switching so as to restore the working line to the working line, the completion confirmation is performed by referring to the status table. Line switching device for communication systems. 6. The execution control means prohibits the working recovery of the working line obtained from the other device by fixing the description content of the APS byte when the setting completion is not confirmed by the confirmation means. A line switching device for a communication system comprising the APS according to claim 4.