JP2000151490A - Transmission burst reception monitor circuit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a transmission burst reception monitor circuit that can quickly and easily detect presence of a fault in a transmission system of its own station without revising the circuit configuration. SOLUTION: Only when a reception circuit of a satellite communication unit 100a of an earth station receives health check data of a CSC outgoing channel sent from a center station 200 through a satellite station 300, a frequency of a reception frequency synthesizer of the satellite communication unit 100a of the earth station is changed to a frequency of a down link of a CSC incoming channel by a delay time in the satellite station 300 and the reception circuit of the satellite communication unit 100a of the earth station receives a reply burst signal sent by the satellite communication unit 100a of the earth station. Then the received data are compared with the data of the reply burst signal sent by the satellite communication unit 100a of the earth station and when both the data are coincident, it is discriminated that the satellite communication unit 100a of the earth station is not faulty and when dissident, it is discriminated that the transmission system is faulty.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transmission burst receiving apparatus which can monitor whether a transmission response burst of a satellite communication earth station using a DAMA system can be received normally and can know it. It relates to a monitor circuit.

[0002]

2. Description of the Related Art DAMA (Demand Assignment)
In a multiple-access (ment multiple access) system, a satellite communication device of an earth station controlled by a DAMA control device installed in a center station returns a response to the center station in synchronization with a frame transmitted from the center station. The satellite communication device of the earth station detects the synchronization word from the received signal, synchronizes the frame, generates a slot pulse for returning a response to the center station in synchronization with the frame pulse, and according to the data from the center station. A response is transmitted based on the slot pulse.

[0003] The center station monitors the state of the satellite communication device of each earth station based on whether or not a response burst signal has been received. FIG. 3 is a block diagram showing a basic configuration of a satellite communication system using a conventional DAMA system. The satellite communication system shown in FIG. 3 includes a plurality of earth station satellite communication devices 510a to 510n, a center station 520, and a satellite station 530.

The operation of monitoring the state of the satellite communication device of each earth station by the conventional center station using the satellite communication system shown in FIG. 3 will be described below. First, the satellite station 53 is transmitted from the center station 520 to the satellite communication devices 510a to 510n of each earth station.
0, the status monitoring data is transmitted, and the transmitted status monitoring data is received by the satellite communication devices 510a to 510n of each earth station. As a result, the satellite communication devices 510a to 510n of the respective earth stations detect a synchronization word as an identifier of the data from the received state monitoring data, and perform frame synchronization by the detected synchronization word.

Thereafter, the center station 5 is synchronized with the frame.
20. A slot pulse for returning response data to 20 is generated, and response data is returned based on the slot pulse in accordance with data from center station 520. In the conventional satellite communication earth station monitoring system, in the above operation, the center station 520 receives response data to the monitoring data from the satellite communication devices 510a to 510n of each earth station, and fetches the contents thereof. The operation status of the satellite communication devices 510a to 510n of the earth station is monitored.

[0006]

Since the state monitoring of the satellite communication device of the earth station by the DAMA system is based only on the reception of response data from the satellite communication device of the earth station, the center station responds from the satellite communication device of the earth station. When the data cannot be received, whether the center station cannot receive the response data from the satellite communication device of the corresponding earth station, or the satellite communication device of the corresponding earth station transmits the response data. The satellite communication device of the relevant earth station cannot receive the status monitoring data from the center station, or the satellite communication device of the relevant earth station There is a problem that it is impossible to determine whether the center station cannot receive the response data even though the response data is transmitted.

[0007] Also, among the faults, the cause is often the individual earth station, and especially when there is a problem in the transmission system,
It is necessary to investigate between the relevant earth station and the center station, and it is difficult to determine the cause. Normally, when monitoring a receiving carrier, it is necessary to add only a receiving circuit.

As described above, if a failure in the transmission system occurs in the satellite communication device of the earth station, it cannot be received by the center station, so that the failure status of the satellite communication device of the earth station cannot be known. In addition, the satellite communication device of the earth station normally receives,
If a response to this is transmitted from the satellite communication device of the earth station to the center station, and the data does not reach the center station, the satellite communication device of the earth station is in a state where it is not known whether there is any fault.

Regarding satellite communication technology, Japanese Patent Laid-Open No. Sho 62
JP-A-82730 ("Satellite communication control system") discloses that a plurality of slave stations independently check the line status at a fixed cycle, independently of the master station, stop transmission of the own station when an abnormality occurs, and The redundant bit length of the control signal to be transmitted is changed according to the line state, and if there is a response from all the slave stations after transmitting the control signal to each slave station, switching is performed at the designated time, and when all the responses are not collected, It is disclosed that control at that time is continued.

Japanese Patent Laid-Open Publication No. Sho 60-84029 (“Meeting line device in satellite communication earth station”) describes:
It is disclosed that two or more speech path modulators and demodulators can be used for a meeting line. Further, Japanese Patent Application Laid-Open No. Sho 62-77724 ("Method of restoring the line of a satellite communication demand assigning device") describes that the network control processor management table or the earth station management table is used when normal operation is restored after a system error occurs. It is disclosed that information on the allocated state of the communication line immediately before the occurrence of the system abnormality is collected and the communication line with the earth station is reset based on the collected information. However, none of these publications mentions measures for solving the above-mentioned problems.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problem. By monitoring the transmission burst of the local station by a simple setting change by a receiving synthesizer in the satellite communication device of the earth station, When an error occurs in the transmission system of a satellite communication device, it can detect the error without spending a lot of time. If this is not possible, early detection of the need to perform retransmission is possible, and even if line quality is degraded due to rain attenuation, transmission burst control that can be handled by controlling transmission power when retransmission does not improve An object of the present invention is to provide a reception monitor circuit.

[0012]

In order to achieve the above object, a transmission burst reception monitor circuit according to the present invention comprises a satellite station, a center station, and CSC downlink health check data transmitted from the center station. The reception frequency synthesizer frequency is changed to the downlink frequency of the CSC uplink only for the delay time of the CSC downlink health check data via the satellite station when receiving via the station, and the CSC downlink health check data is supported. By transmitting a response burst signal to the center station, the reception burst signal transmitted by the receiving circuit can be received, and when the response burst signal matches or does not match the response burst signal transmitted by the own station, A satellite communication device of an earth station for determining whether the transmission system of the station is successful.

According to the present invention, when the CSC downlink health check data transmitted from the center station is received by the earth station's satellite communication apparatus via the satellite station, the earth station's satellite communication apparatus transmits the data via the satellite station. The frequency of the reception frequency synthesizer is changed to the downlink frequency of the CSC uplink only for the delay time of the CSC downlink health check data, and a response burst signal corresponding to the CSC downlink health check data is transmitted to the center station. By transmitting the response burst signal via the satellite station, the center station can receive the response burst signal transmitted by its own station by the satellite communication device of the earth station, and receive the received response burst signal and the transmitted response burst signal. The presence or absence of the coincidence with the burst signal is determined, and if the coincidence is found, the satellite communication device of the earth station can determine that the transmission system of the own station is normal.

Therefore, according to the present invention, when an abnormality occurs in the transmission system of the satellite communication device of the earth station, the abnormality can be quickly detected, and the failure of the own station or the collision of the burst causes the burst in the own station. By enabling early detection of the need to perform retransmission when a signal cannot be received normally, and by controlling transmission power when retransmission does not improve even when the line quality is degraded due to rain attenuation, , Can treat.

[0015]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an embodiment of a transmission burst receiving circuit according to the present invention. First, an outline of the present invention will be described. Normally, the health check data of the CSC downlink is received, and the corresponding satellite communication device of the earth station transmits response data such as a health check to the CSC uplink. At this time, by changing the reception frequency from the downlink to the uplink by the delay time of the satellite station, the setting is changed so that the satellite communication device of the earth station can receive the response data transmitted by the own station. Thus, after the delay time of the satellite station, if the transmission system of the satellite communication device of the earth station is normal, the response data transmitted by the own station is received.

Conventionally, data transmitted by the own station is not received when an abnormality occurs. In the case of a sequence having a response from the center station, the normal response is received immediately after, but in the abnormal case, only the response cannot be received. On the other hand, according to the present invention, if it is determined whether the burst signal of the own station can be received or not, it is possible to determine whether there is a problem on the own station side.

The first embodiment according to the present invention having such features will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing a basic configuration of a first embodiment of a transmission burst reception monitor circuit according to the present invention applied to a satellite communication system of an earth station using a DAMA system.
In the first embodiment shown in FIG. 1, satellite communication devices 100a to 100n of a plurality of earth stations, a center station 200,
And a satellite station 300.

FIG. 2 is a block diagram showing the internal configuration of the satellite communication device 100a of the earth station shown in FIG. In addition,
In FIG. 2, the satellite communication device 1 of the earth station shown in FIG.
Although the configuration of 100a is representatively shown among 00a to 100n, the satellite communication devices 100b to 100b of other earth stations are shown.
The same applies to the configuration of n.

In FIG. 2, a satellite communication device 100a of the earth station includes a receiving circuit 110a for receiving CSC downlink health check data from the center station 200.
A reception frequency synthesizer 120a for setting a reception frequency in the CSC downlink, a transmission frequency synthesizer 130a for setting a transmission frequency in the response burst signal for the CSC uplink, and a transmission circuit 140a for transmitting response data to the CSC uplink. A CPU 150a for controlling the frequency setting of the transmission / reception synthesizer, and a comparison circuit 160 for comparing the transmission response data with the data received by returning the own station
a.

Next, the operation of the first embodiment configured as described above will be described. First, in FIG. 2, in the satellite communication device 100a of the earth station, the CPU 150
is received by the receiving frequency synthesizer 120a to receive the CSC downlink transmitted from the center station 200.
The downlink frequency of the SC downlink is set, and the uplink frequency of the CSC uplink is set in the transmission frequency synthesizer 130a in order to transmit response data to the center station 200.

The satellite communication device 100a of the earth station receives the data of the CSC downlink transmitted from the center station 200 via the satellite station 300 in the receiving circuit 110a in the satellite communication device 100a of the earth station. The transmission timing is adjusted only when the health check data of the own station is received from the CSC data, and the transmission timing is adjusted from the transmission circuit 140a to the center station 2.
The response data is transmitted to 00. If the satellite communication device 100a of the earth station is normal, the satellite communication device 10 of the earth station
The transmission data of 0a is received by the center station 200.

However, this transmission data is transmitted to the center station 200.
In the center station 200, since the satellite communication device 100a of the earth station does not return a response of the health check data, the center station 200 has a failure in the satellite communication device 100a of the earth station. You can see that. When the satellite communication device 100a of the earth station normally receives the health check data and transmits the transmission data of the response, the center station 200 has an abnormality in its own station, that is, the satellite communication device 100a of the earth station. I don't know.

At the time of start-up, the center station 200 confirms that the satellite communication device 100a of the earth station has started up normally.
When you send the initialization data to inform,
In response to this transmission data, the response data
Is returned on the CSC downlink. The earth station's satellite communication device 100a receives this response data. Even when the satellite communication device 100a of the earth station ends the call, the center station 200 notifies that the communication is ended by the satellite communication device 100a of the earth station.
In this case, the transmission data of the call termination recovery signal is transmitted to the center station 200.

However, the satellite communication device 10 of the earth station
0a transmits a response burst signal, the CPU 150
a changes the setting of the frequency of the reception frequency synthesizer 120a to the frequency of the downlink of the CSC uplink only for the delay time of the satellite station 300, so that the reception circuit 110
a at its own station (that is, the satellite communication device 100a of the earth station)
To receive the transmitted response burst signal.
The data of the received response burst signal is compared with the comparison circuit 160a.
And compares whether the received data matches the data of the response burst signal transmitted by the own station or not.

If the data match, the comparison circuit 1
By transmitting the coincidence signal to the CPU 60a, the signal can be normally received, and it can be understood that the transmission system of the satellite communication device 100a of the earth station is normal. If the comparison result by the comparison circuit 160a shows that the data does not match, the comparison circuit 1
Since no coincidence signal is output from 60a to CPU 150a, it can be seen that the transmission system of satellite communication device 100a of the earth station is abnormal. After the receiving circuit 110a of the earth station's satellite communication device 100a receives its own burst signal, the receiving frequency synthesizer 120a outputs the original frequency, that is,
Return to the downlink frequency of the CSC downlink.

Thus, the satellite communication device 1 of the earth station
After transmitting the response burst signal from the transmission circuit 140a of the local station, that is, the satellite communication device 10 of its own station, that is, the earth station.
By receiving the signal at the receiving circuit 110a of 0a, it is possible to confirm whether or not the response burst signal has been transmitted normally, so that it is possible to easily check whether or not the transmission system of the own station has a failure. Therefore, if it is used as a constant monitor circuit, if the own station cannot normally receive a burst due to a failure of the own station or collision of a burst signal, retransmission may be necessary because the burst may not reach the center station 200. Can be known earlier and resent quickly.

If the line quality is deteriorated due to rain attenuation, the response burst signal may be retransmitted many times from the satellite communication device 100a of the earth station and may not reach the center station 200. When the condition is not improved, a measure can be taken by controlling the transmission power in the transmission circuit 140a of the satellite communication device 100a of the earth station. In addition, the failure is often caused by the satellite communication equipment of the earth station. In particular, if there is a problem in the transmission system, it is necessary to investigate between the satellite communication equipment of the earth station and the center station. Since the side receives many responses from the earth station, it is difficult to investigate only the satellite communication device of the earth station.

However, according to the present invention, it is possible to carry out the investigation only with the satellite communication device of the corresponding earth station, and it is possible to easily make the determination. For example, the satellite communication device 100a of the earth station, which is its own station, can monitor, but if it does not reach the center station 200, it may be a problem on the side of the center station 200 such that it cannot be received due to rain attenuation on the side of the center station 200. It is possible to determine that it is not a failure of its own satellite communication device.

[0029]

As described above, according to the transmission burst reception monitor circuit of the present invention, the transmission of the own station can be performed by changing the frequency of the reception synthesizer by the CPU without changing the circuit configuration of the satellite communication device of the earth station. It is possible to monitor the burst signal. In addition, since it is only necessary to monitor when transmitting the response transmission burst signal of the own station, it is possible to monitor the transmission system of the satellite communication device of the earth station without spending much time, and it becomes easy to detect abnormalities, After transmitting the response transmission burst signal, it is possible to confirm whether or not the transmission has been normally performed by the own station, so that it is possible to easily check whether or not the transmission system of the own station has a failure.

Therefore, when a burst cannot be normally received by the own station due to a failure of the own station or collision of a burst, it is possible to know earlier that retransmission is necessary.
It can be resent immediately. Also, when the line quality is degraded due to rain attenuation, when the transmission quality is not improved by retransmission, a measure can be taken by controlling the transmission power.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration in a case where a first embodiment of a transmission burst reception monitoring circuit according to the present invention is applied to a satellite communication system of an earth station using a DAMA system.

FIG. 2 is a block diagram illustrating an internal configuration of a satellite communication device of the earth station in FIG. 1;

FIG. 3 is a block diagram showing a basic configuration of a satellite communication system of an earth station using a conventional DAMA system.

[Explanation of symbols]

100a to 100n ... Earth station satellite communication device, 110
a receiving circuit, 120a receiving synthesizer, 13
0a transmission synthesizer, 140a transmission circuit, 1
50a CPU, 160a Comparison circuit, 200
Center station, 300 satellite station.

Claims (6)

[Claims] 1. A satellite station, a center station, and only a delay time of the CSC downlink health check data transmitted via the satellite station when receiving the CSC downlink health check data transmitted from the center station via the satellite station. The frequency of the reception frequency synthesizer is changed to the frequency of the downlink of the CSC uplink, and
By transmitting a response burst signal corresponding to the downlink health check data to the center station, it is possible to receive the response burst signal transmitted by the receiving circuit, and the response burst signal and the response burst signal transmitted by the own station are transmitted. And a satellite communication device of an earth station that determines the success or failure of the transmission system of the local station based on the coincidence and non-coincidence of the transmission burst reception monitor circuit. 2. When the satellite communication device of the earth station transmits initialization data for notifying the center station that it has started up normally at the time of startup, the center station transmits the initialization data to the center station in response to the initialization data. 2. The transmission burst reception monitor circuit according to claim 1, wherein response data returned on the CSC downlink is received. 3. When the satellite communication device of the earth station transmits transmission data of a call termination recovery signal for notifying the center station that the call has been terminated at the time of termination of the call, the satellite communication device of the earth station responds to the transmission data. 2. The transmission burst reception monitor circuit according to claim 1, wherein response data returned from the center station on a CSC downlink is received. 4. The transmission burst reception monitoring circuit according to claim 1, wherein a plurality of said earth station satellite communication devices are provided. 5. A satellite communication device for the earth station, comprising: a receiving circuit for receiving CSC downlink data from the center station; a reception frequency synthesizer for setting a reception frequency for the CSC downlink; A transmission frequency synthesizer for setting a transmission frequency to a burst signal;
A transmission circuit for transmitting a response burst signal to the C uplink;
A comparison circuit for comparing whether a response burst signal transmitted from the transmission circuit matches a signal received by the return of the local station received by the reception circuit, and a frequency of the transmission frequency synthesizer and a frequency of the reception frequency synthesizer; Performing setting control, changing the frequency of the reception frequency synthesizer to the downlink frequency of the CSC uplink only for the delay time of the satellite station when transmitting the response burst signal, and comparing the coincidence by the comparison circuit. And a CPU for judging that the satellite communication device of the earth station of the own station is normal at the time of inputting, and judging an abnormality of the transmission system of the satellite communication device of the earth station of the own station when there is a mismatch. Item 5. The transmission burst reception monitor circuit according to any one of Items 1 to 4. 6. The reception frequency synthesizer, after receiving the response burst signal transmitted from the satellite communication device of the earth station of the local station by the reception circuit, sets the CPU to the original downlink frequency of the CSC downlink. 6. The transmission burst reception monitor circuit according to claim 5, wherein the control is returned by the control of (1).