JP3042433B2 - Line switching system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a line switching system for a high-frequency radio line such as a microwave band, and more particularly to a line switching system for N (here, an integer of 2 or more) working lines. In addition, the present invention relates to a line switching system that performs N-to-1 switching and uses a standby channel to standby-operate a data signal sequence of the standby system.

[0002]

2. Description of the Related Art Conventionally, as this kind of N-to-1 line switching system, for example, Japanese Patent Publication No. 7-48715 and Japanese Patent Application Laid-Open No. 63-169130 are known. FIG. 2 is a block diagram illustrating a configuration of a conventional line switching system. In FIG. 2, N active systems 100-1 to 100-
N is an input data signal sequence 10-1 to 10-N, respectively.
Is input to the transmitting-end working signal switching circuits 1-1 to 1-N and the transmitting circuits 3-1 to 3-N in each working system.

[0003] Here, transmission circuits 3-1 to 3-N add data and the like for detecting the line quality, and transmit the current radio lines 8-1 to 8-8.
After transmitting the data signal sequence to the receiving end via -N, the receiving end standby signal switching circuit 9-1 via the receiving circuits 5-1 to 5-N.
To 9-N.

Further, control signal generation circuits 7-1 to 7-N
Receives the information of the output line quality detection signals 52-1 to 52-N of the receiving circuits 5-1 to 5-N, determines the line quality state, and receives the receiving end spare signal control information 72-1. ~ 72-
N and the transmission end control information 73-1 to 73-N are generated.

In the transmission-end working signal switching circuits 1-1 to 1-N, based on the transmission-end spare signal control signals 41-1 to 41-N detected by the control signal detection circuits 4-1 to 4-N, the current working signal switching circuits 1-1 to 1-N are used. The data signal sequence of the system and the data signal sequence from the lower system are switched, and the upper system sending end switching information 12-1 to 1-1
The transmission-end data signal sequence 11-1 to 11-N is output to the host system together with 2-N. Receiving-end preliminary signal switching circuit 9-1
9-N, based on receiving-end spare signal control information 72-1 to 72-N of the control signal generating circuits 7-1 to 7-N, receive data signal trains 51-1 to 51- transmitted on the working line. N and the receiving-end spare data signal sequence 121 transmitted on the spare line are switched and output.

On the other hand, in the protection system 200, the transmission-end protection line switching circuit 21 converts the input data signal sequence 20 of the protection system and the transmission-end data signal sequence 11-1 from the active system 100-1 into the upper system transmission-end switching signal. Based on 12-1, the data is selected and transmitted via the protection circuit 28 via the transmission circuit 23.

On the receiving end side, the output received data signal sequence 50 of the receiving circuit 25 is input to the receiving end switching circuit 26 and output to either the standby system or the lower working system.

A description will be given of a conventional line switching operation based on the above configuration. First, when no failure has occurred in all the working lines, the data signal strings 10-1 to 10-N of each working system are transmitted to the transmission circuit 3 of each working line.
-1 to 3-N, data signals transmitted via the receiving lines 5-1 to 5-N, and after selecting a data signal sequence via the working line in the receiving end spare signal switching circuits 9-1 to 9-N, the working system It is output as an output data signal sequence 90-1 to 90-N. Further, in the standby system, the input data signal sequence 20 of the standby system is transmitted through the standby line 28 via the transmitting end standby line switching circuit 21, the transmitting circuit 23 and the receiving end circuit 25, and is transmitted to the standby system by the receiving end switching circuit 26. By outputting the data signal sequence 180 to the preparatory operation, the data signal sequence is transmitted.

Next, the operation in the case where the working line is deteriorated will be described. For example, when the working wireless line 8-2 is deteriorated due to fading of the wireless line or the like, a line quality detection signal 52-2 generated by detecting the parity signal or the like inserted on the transmitting side by the receiving circuit 5-2. 2, the control signal generation circuit detects the deterioration of the working radio line 8-2, and receives the receiving end spare signal control information 72-2 and the sending end control information 73-2.
Is output. On the sending end side, the control signal detection circuit 4-2 detects the information generated by the control signal generation circuit 7-2 and outputs the information as sending end preliminary signal control information 41-2. In the transmitting end working signal switching circuit 4-2, the control signal detecting circuit 4-2
, Sends the input data signal sequence 10-2 of the active system to the upper system and outputs the upper system transmission terminal switching information 12-2 at the same time.

Now, since the number of the working system in which the deterioration has occurred is 2, the transmitting end working signal switching circuit 1-2 of the working system 2 is used.
Then, the input data signal sequence is selected, and the transmitting end data signal sequence 1 is selected.
The information is output to the upper system together with the upper system sending end switching information 12-2 as 1-2. Next, the sending end working signal switching circuit 1-1 of the working system 1 sends the sending end data signal sequence 11
-2, and outputs the sending end data signal sequence 11-1 together with the upper system sending end switching information 12-1. In addition, the transmission-end protection line switching circuit 21 of the protection system selects the transmission-end data signal sequence 11-1 based on the upper system transmission-end switching information 12-1 from the working system 1, thereby providing the active working line in which the fault has occurred. The input data signal sequence of the system is transmitted on the protection line. On the receiving side, the data signal sequence transmitted on the protection line is sent out to the lower working system as the receiving end spare data signal sequence 121 by the receiving end switching circuit 26, and the receiving end standby signal switching circuit is In 9-2, the working line is rescued by selecting and outputting the receiving end spare data signal sequence 121.

At this time, since the data signal sequence of the active system in which the fault has occurred is transmitted to the protection line, the input data signal sequence 20 of the protection system is not transmitted to the protection line and the protection operation is interrupted. Will be.

[0012]

The prior art described above has the following problems.

First, the first problem is that if a protection line is used due to deterioration of a working line, no data signal sequence of the protection system can be transmitted at all.

This is because the protection line shares the repair of the working system and the transmission of the data signal sequence of the protection system, and has a structure that gives priority to the repair of the working system.

A second problem is that as the number of active systems increases, the probability of transmitting a data signal sequence of the standby system decreases.

This is because there is one protection line for a plurality of working systems, and as the number of working systems increases, the probability of using the protection line due to deterioration of the working lines increases.

An object of the present invention is to improve the transmission efficiency of the entire apparatus by transmitting a data signal sequence of a standby system other than the active system using a standby line.

Another object of the present invention is to provide a data line for a protection system on a working line, even if the protection line is used to rescue the working system, if the quality of the working line can be secured to a certain level or more. Is to improve the operation efficiency of the data signal sequence transmitted by the standby system.

[0019]

SUMMARY OF THE INVENTION A line switching system according to the present invention comprises a plurality of working systems each transmitting a plurality of working data signals using a plurality of working wireless lines, and a protection system using one protection wireless line. In a line switching system for switching between a standby system for transmitting a data signal and the one of the working wireless lines, when one of the working wireless lines is abnormal, the work data signal transmitted by the working wireless line is transmitted by bypassing the protection wireless line, Line switching is performed so that the spare data signal is transmitted by bypassing the working wireless line.

Further, the abnormality of the working radio line is such that the bit error rate of the working radio line is larger than the limit bit error rate obtained in normal reception and smaller than the limit bit error rate which guarantees the line quality. It is characterized by the case.

Further, the present invention provides one-to-one communication system composed of N (N is a natural number of 1 or more) active radio lines.
A protection system comprising a backup wireless line, and when a failure occurs in the working line, a data signal sequence of the working system is transmitted on the protection line, and the working line is switched by a receiving end. In the line switching system performing the remedy, the working system includes a transmitting end spare signal switching circuit for switching between an input data signal sequence of the working system and an input data signal sequence from the protection system and outputting to the transmission circuit of the working radio line. Circuit for switching the output data signal sequence of the receiving circuit of the working system and the receiving data signal sequence from the lower system, and outputting the receiving data signal sequence and the upper system receiving end switching information to the upper system. A signal switching circuit for switching a received data signal sequence from the receiving circuit of the standby radio line and a receiving data signal sequence from the working system to switch the standby system. And having a receiving end protection channel switching circuit for outputting a beam output data signal sequence.

The working system further includes a transmission circuit for adding a signal for detecting the line quality at the receiving end, and a line quality detection signal inserted by the transmission circuit for detecting the line quality. A receiving circuit for outputting as a signal,
Based on the line quality detection signal, detects that the line quality has degraded below the first threshold and that the line quality has been maintained above the second threshold, and outputs it as quality deterioration information and quality assurance information. A circuit quality detection circuit is provided.

The working system further generates control information for selecting a data signal sequence to be transmitted on the working radio line and the protection radio line from output quality deterioration information and quality assurance information of the line quality detection circuit. And a control signal detecting circuit for detecting a control signal generated by the control signal generating circuit and used at the transmitting end, and outputting it as transmitting end preliminary signal control information and transmitting end working signal control information. It is characterized by.

The first threshold value is a normally obtained bit error rate, and the second threshold value is a limit bit error rate at which quality can be guaranteed.

The line switching system of the present invention detects two line quality states from the data signal sequence received by the receiving circuit and generates a control signal for selecting a data signal sequence to be transmitted on the working line and the protection line. . More specifically, the line quality detecting means for detecting that the quality of the working line has deteriorated below the first threshold, the quality of the working line being equal to or higher than the second threshold, and the line quality detecting means Control signal generating means for determining a data signal sequence to be selected by each of the switching circuits on the sending end side and the receiving end side based on the detection result.

The transmission of the data signal sequence of the standby system through the working line is another feature. More specifically, the transmitting end spare signal switching means for switching between the data signal sequence of the protection system and the data signal sequence of the working system, and switching between the receiving data signal sequence of the working line and the receiving data signal sequence from the lower system. The receiving-end working signal switching means for sending to the host system together with the control signal is included.

Further, the present invention is characterized in that a data signal sequence via the working line is output to the standby system. Specifically, it includes a receiving-end protection line switching means for switching and outputting a data signal sequence via the protection line and a data signal sequence via the working line.

Since the two quality states of the quality deterioration information and the quality assurance information are detected by using the line quality detecting means, when a failure occurs in the working line, the same quality as the conventional line switching device is obtained by using the quality deterioration information. Switching can be performed to save the working line.

When the protection line is in use for the purpose of repairing the working line, the data of the protection system is provided by providing the transmission-end protection signal switching means, the reception-end working signal switching means, and the reception-end protection line switching means. The signal train can be transmitted.

Further, since the data signal sequence of the backup system transmitted on the working line can detect the quality assurance information using the line quality detecting means, it is possible to secure a certain level of line quality. The transmission efficiency of the signal sequence can be improved.

[0031]

Embodiments of the present invention will now be described with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of the invention in the line switching system of the present invention.

In FIG. 1, similarly to FIG. 3, the input data signal sequence 10n of the working system n (n is an arbitrary number from 1 to N) is composed of the sending end working signal switching circuit 1-k and the sending end spare signal. Input to the switching circuit 2-k. In the sending end working signal switching circuit 1, the sending end data signal sequence 11-
(N-1) and the input data signal sequence 10-n are selected based on the transmission-end working signal control information 42-n and the upper system transmission-end switching information 12- (n-1).
1-n and upper system sending end switching information 12-n are sent to the upper system. In the sending-end preliminary signal switching circuit 2,
The input data signal sequence 100 from the standby system and the input data signal sequence 10n are sent to the sending-end standby signal control information 41-n.
, And outputs it to the transmission circuit 3 as a transmission data signal sequence 22. The transmission circuit 5 adds a parity bit or the like for detecting line quality and sends a data signal sequence to the working line. The receiving circuit 5 receives the data signal sequence transmitted on the working line, sends the received data signal sequence 51-n to the receiving-end working signal switching circuit 8 and the receiving-end standby signal switching circuit 9, and inserts it on the transmitting side. Detected parity signal etc.
It is output as a line quality detection signal 52. In the line quality detection circuit 6, based on the output line quality detection signal 52 of the reception circuit 5, the quality deterioration information 61 as a result of detecting that the quality of the working line is equal to or less than the first set threshold value, A quality assurance signal 62, which is a result of detecting that the quality is equal to or higher than the second set threshold, is generated. The control signal generation circuit 7-n includes receiving-end working signal control information 71 for determining a data signal sequence to be transmitted on the working line and the protection line according to the quality deterioration information 61 and the quality assurance signal 62, and receiving-end backup signal control. Information 72 and sending end control information 73 are generated and output. The receiving end working signal switching circuit 8-n converts the output received data signal sequence 51-n of the receiving circuit 5-n and the receiving end data signal sequence 82- (n + 1) from the lower system into the receiving end working signal control information. 71, the receiving end data signal sequence 82-n and the upper system receiving end switching information 83-n.
To the host system. The receiving end spare signal switching circuit 9-n selects the received data signal sequence 50 from the standby system and the output received data signal sequence 51-n of the receiving circuit 5-n based on the receiving end spare signal control information 72, and The system output data signal sequence 90-n is output.

Further, in the protection system, the protection system input data signal train 20
And the transmitting end data signal sequence 11-1 from the active system is switched based on the upper system transmitting end switching information 12-1 and transmitted via the transmitting circuit 23 via the protection line. Receiving circuit 2
5 is received by the receiving-end protection line switching circuit 26 and the receiving-end protection signal switching circuit 9-1 of each working system.
To 9-N. The receiving end protection line switching circuit 26 switches the receiving end data signal sequence 82-1 from the working system and the reception data signal sequence 50 of the protection line based on the upper system receiving end switching information 83 from the working system,
It is output as a spare system output data signal sequence 180.

Next, the operation of the block diagram of FIG. 1 will be described. First, when all the working lines are normal, the input data signal sequence 10-n of the working system is transmitted on the working line via the transmitting end spare signal switching circuit 2 and the transmitting circuit 3, and is received by the receiving circuit 5 and the receiving end standby line. The signal is output as an output data signal sequence 90-n via the signal switching circuit 9. Similarly, since the data signal trains of all the working systems are transmitted using the respective working lines, there are no data signal trains of the working system transmitted through the protection lines. Therefore, the input data signal sequence of the standby system is transmitted to the sending-end standby line switching circuit 21 and the transmitting circuit 2.
3 and the protection system output data signal sequence 180 is output via the receiving circuit 25 and the receiving-end protection line switching circuit 26 to establish the protection operation state.

Next, a case where the working line is deteriorated due to fading or the like will be described. Normally, in a system using a line switching device such as the present invention, a data signal sequence transmitted on a working line often cannot be retransmitted or the like and needs to be kept high in quality. It is configured to switch to the protection line immediately. On the other hand, the data signal sequence transmitted by the standby system is based on the premise that data transmission cannot be performed unless the standby operation state is established. It is often transmitted, and there is no problem even if the quality is lower than the quality of the data signal sequence transmitted in the working system.

In the block diagram of FIG. 1, the line quality detecting circuits 6-1 to 6-N detect a line quality detecting signal 52 in which the receiving circuits 5-1 to 5-N detect the parity or the like inserted at the transmitting end. The quality degradation information 61 indicating that the line quality has fallen below the first threshold by detecting the line quality state of the working line based on the quality assurance that the line quality is equal to or higher than the second threshold. The information 62 is generated. For the sake of simplicity, the description will be made assuming that the bit error rate threshold of the quality deterioration information 61 is 1 × 10 −7 and the bit error rate threshold of the quality assurance information 62 is 1 × 10 −4. That is, the first threshold is the limit bit error rate obtained during normal reception, and the second threshold means the limit bit error rate at which quality assurance is obtained.

Assuming that the error rate of the working line of the working system 2 has been reduced to 1 × 10 -5,
-2, the output line quality detection signal 5 of the receiving circuit 5-2
2-2 to detect that the line quality has deteriorated from the bit error rate threshold value of 1 × 10 −7 of the quality deterioration information 61-2, and to set the bit error rate threshold value of the quality assurance information 62-2 at the same time. It also detects that the line quality is better than 1 × 10 −4. The control signal generation circuit 7-2 transmits the data signal sequence of the active system on the protection line based on the output quality deterioration information 61-2 and the quality assurance information 62-2 of the line quality detection circuit 6-2. Of the receiving-end working signal control information 71-
2. The receiving end preliminary signal control information 72-2 and the sending end control information 73-2 are generated. First, considering the input data signal sequence 10-2 of the working system, the transmitting end working signal switching circuit 1
In -2, the input data signal sequence 10-2 of the active system 2 is transmitted to the active system 1 based on the transmission-end active signal control information 42-2 detected by the control signal detection circuit 4-2 from the transmission-end control information 73-2. The information is output as a transmission end data signal sequence 11-2 and the upper system transmission end switching information 12-2 is transmitted to the active system 1. The sending end working signal switching circuit 1-1 of the working system 1 uses the upper system sending end switching information 12
-2, the transmission-end data signal sequence 11-2 is selected based on the transmission-end data signal sequence 11-1 and the upper system transmission-end switching information 12
-1 to the standby system. In the protection system, the transmission-end protection line switching circuit 21 selects the transmission-end data signal sequence 11-1 from the working system and transmits it to the receiving side via the transmission circuit 23 of the protection line. The output received data signal sequence 50 of the protection circuit receiving circuit 25 is received by the receiving-end protection line switching circuit 26.
And receiving end spare signal switching circuits 9-1 to 9-9 of each working system
-N. In the receiving end spare signal switching circuit 9-2 of the working system 2, based on the output receiving end spare signal control information 72-2 of the control signal generating circuit 7-2, the output reception data signal sequence of the receiving circuit 25 of the protection line is provided. 50 is selected and an output data signal sequence 90-2 is transmitted. Next, consider the input data signal sequence 20 of the backup system. As mentioned above,
Since the data line of the active system 2 is transmitted on the protection line, the data line of the protection system cannot be transmitted. However, since the working line of the working system 2 is not used, the sending-end spare signal switching circuit 2-2 of the working system 2 uses the sending-end spare signal control information detected by the control signal detecting circuit 4-2, After selecting the input data signal sequence 20 distributed from the backup system, the transmission data signal sequence 22-2 is output. The data signal sequence of the backup system transmitted via the transmitting circuit 3-2 and the working line is input from the receiving circuit 5-2 to the receiving end working signal switching circuit 8-2, and the receiving end working signal control information 71- is received. 2 is output to the active system 1 as the receiving end data signal sequence 82-2 together with the upper system receiving end switching information 83-2. Further, the receiving end working signal switching circuit 8-1 of the working system 1 selects the receiving end data signal sequence 82-2 according to the upper system receiving end switching information 83-2 and sends the receiving end data signal sequence 8 to the standby system.
2-1 and the host system receiving end switching information 83-1 are output. The receiving end protection line switching circuit 26 receives the receiving end data signal sequence 82-1 according to the upper system receiving end switching information 83-1.
And outputs a data signal sequence 180 of the standby system. As described above, when the working line is deteriorated, the data signal sequence of the working system is transmitted on the protection line, and the data signal sequence of the protection system is transmitted on the working line. However, it is possible to perform transmission that guarantees a certain level of line quality.

Next, the significance of transmitting the data signal sequence of the backup system through the deteriorated working line will be described with reference to the drawings. FIG. 3 is a frame configuration diagram showing a data signal sequence transmitted by the line switching system of the present invention. As shown in FIG. 3, it is assumed that the number of bits in one slot is 1000 bits, the slot of one frame is 10 slots, and the time of one frame is 100 μSec. That is, the transmission speed of the data signal sequence is 100 Mbps. At this time, if the bit error rate of the working line is degraded to 1 × 10 −5, one frame is 10,000 bits, so one bit error occurs in ten frames. Assuming that bit errors occur on average, an error occurs in one slot in one frame in which the error occurs. Therefore, although an error occurs in the data signal sequence of one slot in ten frames, a data signal sequence of a slot in which no error occurs can be transmitted correctly.
Even if the data signal sequence of the erroneous slot cannot be transmitted at all, 100 Mbps- (100 Mbps ×
It is possible to transmit a data signal sequence of (1 × 10−5 × 1000 bits) = 99 Mbps. In the line switching system of the present invention, since the data signal sequence of the backup system is transmitted using the working line having the above-mentioned line quality, transmission efficiency can be improved. Since it is assumed that the data signal sequence transmitted by the backup system is generally disconnected in some cases, there is no problem if the above-described transmission capacity can be secured.

Further, if the threshold of the quality deterioration information and the threshold of the quality assurance information detected by the line quality detection circuit are changed,
It is clear that a line switching system can be realized according to the characteristics of the data signal sequence transmitted by the backup system.

[0040]

As described above, the present invention has the following effects.

The first effect is that the transmission efficiency of the data signal sequence of the backup system can be improved.

The reason is that, when the protection line is being used for repairing the working line, the data signal train of the protection system is transmitted using the working line, and the data signal train from the working system is transmitted at the receiving end. Can be switched to the data signal train of the standby system and output.

The second effect is that the quality of the data signal of the backup system via the working line can be maintained at a certain level or more.

The reason is that the quality of the data signal sequence of the backup system transmitted on the working line is detected and guaranteed by detecting the quality assurance information by the line quality detecting circuit.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention in a line switching system of the present invention.

FIG. 2 is a block diagram showing a conventional line switching system.

FIG. 3 is a waveform diagram showing a frame configuration in a data signal sequence transmitted by the line switching system of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Sending-end working signal switching circuit 2 Sending-end spare signal switching circuit 3 Sending circuit 4 Control signal detecting circuit 5 Receiving circuit 6 Line quality detecting circuit 7 Control signal generating circuit 8 Receiving-end working signal switching circuit 9 Receiving-end spare signal switching circuit 21 Sending end protection line switching circuit 26 Receiving end protection line switching circuit 23 Protection line sending circuit 25 Protection line receiving circuit 11 Sending end data signal sequence to upper system 12 Upper system sending end switching information 22 Transmission data signal sequence 41 Sending end standby signal Control information 42 Sending end working signal control information 50 Received data signal sequence of standby system 51 Received data signal sequence 52 Signal quality detection signal 61 Quality deterioration information 62 Quality assurance information 71 Receiving end working signal control information 72 Receiving end standby signal control information 73 Sending end control information 82 Receiving end data signal sequence to upper system 83 Upper system receiving end switching information 20 Spare system Temu input data signal sequence 10 active system input data signal sequence 121 receiving end spare data signal sequence 180 spare system output data signal sequence 90 active system output data signal sequence

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04B ^7/ 24-7/26 102 H04Q 7/00-7/38 H04L 1/22 H04B 1/74

Claims (6)

(57) [Claims] 1. Line switching for switching between a plurality of working systems each transmitting a plurality of working data signals using a plurality of working radio lines and a protection system transmitting a protection data signal using one protection wireless line. In the system, when one of the working wireless lines is abnormal, the working data signal transmitted by the working wireless line is transmitted by bypassing the protection wireless line, and the protection data signal is bypassed by the working wireless line. A line switching system characterized by performing line switching so as to perform transmission. 2. The abnormality of the working radio line is such that the bit error rate of the working radio line is larger than the limit bit error rate obtained in normal reception and smaller than the limit bit error rate that guarantees the line quality. 2. The line switching system according to claim 1, wherein: 3. A protection system comprising one protection radio line with respect to a working system comprising N (N is a natural number of 1 or more) working radio lines, and when a failure occurs in said working line. Is a line switching system for transmitting the data signal sequence of the working system on the protection line and switching over at the receiving end to rescue the working line, wherein the working system includes an input data signal sequence of the working system. A sending end spare signal switching circuit for switching the input data signal sequence from the standby system and outputting the same to the transmitting circuit of the working radio line, an output received data signal sequence of the receiving end circuit of the working system, and a receiving end from the lower system. A receiving-end working signal switching circuit for switching a data signal sequence and outputting a receiving-end data signal sequence and higher-level system receiving-end switching information to a higher-level system; A line switching system comprising: a receiving end protection line switching circuit for switching between a reception data signal sequence from a circuit and a reception end data signal sequence from an active system and outputting it as a protection system output data signal sequence. 4. The working system further includes a transmitting circuit for adding a signal for detecting line quality at a receiving end, and a line quality detecting signal inserted by the transmitting circuit for detecting a line quality. A receiving circuit that outputs as a signal, based on the line quality detection signal, that the line quality has degraded below the first threshold, and that the line quality is maintained at or above the second threshold is detected. 4. The line switching system according to claim 3, further comprising a line quality detection circuit that outputs the information as deterioration information and quality assurance information. 5. The working system further comprises: output quality deterioration information and quality assurance information of the line quality detection circuit;
A control signal generation circuit that generates control information for selecting a data signal sequence to be transmitted on the working radio line and the protection radio line, and a control signal generated by the control signal generation circuit and used on the transmission end side is detected. 5. The line switching system according to claim 3, further comprising a control signal detection circuit that outputs the control signal for the transmission-end preliminary signal and the control signal for the current transmission-end signal. 6. The line according to claim 4, wherein the first threshold is a normally obtained bit error rate, and the second threshold is a limit bit error rate at which quality can be guaranteed. Switching system.