JP2003143142A - Method and system for remote control and monitoring - Google Patents

Abstract

PROBLEM TO BE SOLVED: To perform economical remote control between transmitters used for a fast digital network by avoiding dependence on the circuit arrangement and by effectively using a band. SOLUTION: When remote-controlling and monitoring one transmitter from another transmitter in a system for transmitting and receiving data between the transmitters through the fast digital network, the remote-controlling and monitoring method comprises a step for inserting a set control signal like a burst to main signal data formed to be a short packet and transmitted and received between the transmitters and sending the resultant signal to the fast digital network, a step for detecting the short packet included in the main signal data received from the fast digital network, and a step for controlling and monitoring control information included in the detected short packet according to analysis.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention depends on the line configuration of a line carrier that provides a line by using a short packet of burst data in remote control / monitoring of a transmission device used for a high-speed digital line. Nothing, but for those that perform end-to-end remote control and monitoring.

[0002]

2. Description of the Related Art FIG. 3 shows a network configuration for communication between devices using a high speed digital line provided by a line carrier. In FIG. 3, 31
The transmission device A of 33 and the transmission device B of 33 are high-speed digital circuits.
Communicate with each other via 32. And, for example,
With the transmission device A side as a master (control side) and the transmission device B as a slave (controlled side), the transmission device A sends a transmission device B a control item such as a remote loop or band setting,
Remote control / monitoring was performed, including setting items such as operation modes, and the reading of operating conditions on the slave side such as alarms.

Conventionally, such remote control / monitoring is
As a remote control / monitoring method in a transmission device used for a high-speed digital line (HSD), an overhead bit allocated on a frame is set from a control console of a dedicated line node device of a line carrier who provides a line. Remote control / monitoring such as loopback for maintenance / operation was performed.

In a system in which a carrier providing a service by renting a leased line from a line carrier performs remote control / monitoring, one time slot in main signal data is used for remote control / monitoring. Therefore, in this method, one time slot in the main signal data is always occupied for remote control / monitoring, so that there is a problem that the band cannot be effectively used and it is uneconomical.

FIG. 2 is a block diagram showing the configuration of a conventional device for executing remote control / monitoring. In FIG. 2, 1
In the case of FIG. 3, a transmission unit A is a master (control side) from a transmission device A, which is a master (control side), to a transmission device B of an opposite side slave (controlled side) via a high-speed digital line.
To send. Reference numeral 2 denotes a receiver, which is a downlink transmitted from the transmission device B, which is a slave (controlled side) in the case of FIG. 3, to the master (control side) transmission device A on the opposite side via a high-speed digital line. Receive main signal 11A.

Reference numeral 3 denotes a frame generator, which is provided for the upstream main signal 10A transmitted from the transmitter 1 to the high speed digital line.
Insert overhead bits allocated on the frame. Reference numeral 4 denotes a frame terminating unit which detects an overhead bit from the downlink main signal 11A received via the high speed digital line.

Reference numeral 7 denotes an operation section for setting remote control / monitoring. Reference numeral 8 denotes a control unit, which creates control information according to an instruction from the operation unit and transfers the control information to a control channel inserting unit 13 described later, or a control channel detecting unit 8 described later according to an output of a control channel detecting unit described later. Fold-back selection signal for the folding section 9
Send 12

Reference numeral 13 is a control channel insertion unit, which controls the control information created by the control unit 8 in accordance with the settings made by the operation unit 7 in the time slot designated by the upstream main signal data 10B from the transmission apparatus A side. Insert information. Further, 14 is a control channel detection unit, which detects control channel information from the time slot designated by the downlink main signal data 11B from the transmission apparatus B side. The reference numeral 9 is a loopback section that loops back a signal in response to a control signal such as a remote loop.

Next, the operation of the configuration shown in FIG. 2 will be described.
The selection information set by the operation unit 7 is transferred to the control unit 8, and the control unit 8 uses the information to select the corresponding remote control / control.
The control information for monitoring is created and transferred to the control channel insertion unit 13. The control channel insertion unit 13 inserts the control channel information into the designated time slot of the upstream main signal data 10B from the transmission device A side, and the frame generation unit 3 adds the frame synchronization pattern and the overhead bit of the status information. Then, the transmission unit 1 transmits the upstream main signal data 10A to the high-speed digital line side. The upstream main signal data 10A in which the control channel is inserted is sent to the opposite transmission device B via the high-speed digital line.
Transmitted as A.

Further, the downlink main signal data 11A is received by the receiving section 2, the overhead bit is detected by the frame terminating section 4, and the frame synchronization pattern and the status information are detected. The control channel detector 14 detects the control channel allocated to one of the time slots (8 bits) of the main signal data. The control information of the control channel is the control unit 8
Then, the control corresponding to the control information is performed. For example, if the content is loopback information, the loopback selection signal 12 is passed to the loopback unit 9. In that case, the downlink main signal data 11A is returned by the return unit 9, the control channel is inserted by the control channel insertion unit 13, the frame synchronization pattern and the overhead bit of the status information are added by the frame generation unit 3, and the transmission unit 1 Is transmitted to the transmission path as the upstream main signal data 10A.

[0011]

As described above, in the conventional remote control / monitoring system, one time slot in the main signal is always used, so that the band cannot be effectively utilized, which is uneconomical. . An object (object) of the present invention is to provide a line business by transmitting control information using short packets of burst data when performing remote control / monitoring of a transmission device used for a high-speed digital line. It is to execute remote control / monitoring end-to-end, without depending on the person's line configuration.

[0012]

In order to solve the above-mentioned problems, in a system for transmitting and receiving data between transmission devices via a high-speed digital line, a remote control from one transmission device to another transmission device is performed. When performing monitoring, a step of forming a set control signal into short packets, inserting it in bursts into the main signal data transmitted and received between transmission devices, and transmitting it to the high-speed digital line; and receiving from the high-speed digital line. The remote control / monitoring is performed by the step of detecting the short packet included in the main signal data and the step of controlling / monitoring the control information included in the detected short packet according to the analysis. (Claim 1) By adopting the above configuration, the remote control of the present invention
In the monitoring method, by using a short packet of burst data, the band is used only when remote control / monitoring is performed, so that economical remote control can be performed by effectively using the band.

Before sending the main signal data in which the short packet is inserted to the high-speed digital line, a step of forming a frame structure including overhead bits corresponding to the high-speed digital line, and receiving from the high-speed digital line Before detecting the short packet included in the main signal data, the step of detecting the overhead bit included in the main signal data is included. (Claim 2) Further, the overhead bit is related to a frame synchronization pattern and status information. (Claim 3)

Further, it is set in a system for transmitting / receiving data between transmission devices via a high-speed digital line, in a remote control / monitoring system for performing remote control / monitoring from one transmission device to another transmission device. Means for forming a control signal into a short packet and inserting it in bursts into the main signal data transmitted and received between the transmission devices, and inserting an overhead packet into the main signal data into which the short packet has been inserted to achieve high speed A frame generating means for forming a frame corresponding to a digital line, a frame terminating means for detecting an overhead bit from the received main signal data from the high speed digital line, and a short packet included in the main signal data received from the high speed digital line. Show to detect and packet detection means, and detected short Distant control and monitoring system and a control means for controlling and monitoring in accordance with the control information to the analysis, provided the respective transmission device included in the packet. (Claim 4) Further, the overhead bit is related to the frame synchronization pattern and the status information. (Claim 5)

Further, means for burst-inserting the set control signal into main signal data transmitted and received between transmission devices by forming a short packet, and an overhead for the main signal data in which the short packet is inserted. Frame generating means for inserting a packet into a frame corresponding to a high-speed digital line, frame terminating means for detecting an overhead bit from main signal data received from the high-speed digital line, and main signal received from the high-speed digital line A distant control / monitoring device is configured by a show that detects a short packet included in data, a packet detection unit, and a control unit that controls / monitors the control information included in the detected short packet according to an analysis. (Claim 6)

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing the configuration of an apparatus for executing remote control / monitoring according to the present invention. In FIG. 1, reference numeral 1 denotes a transmitting unit, which in the case of FIG. 3 is transmitted from a transmission device A, which is a master (control side), to a transmission device B of a slave (controlled side) on the opposite side via a high-speed digital line. Send 10A. Reference numeral 2 denotes a receiver, which is a master (control side) on the opposite side via a high-speed digital line from the transmission device B which is a slave (controlled side) in the case of FIG.
The downlink main signal 11A transmitted to the transmission device A is received.

Reference numeral 3 denotes a frame generator, which is used for the upstream main signal 10A transmitted from the transmitter 1 to the high speed digital line.
Insert overhead bits allocated on the frame. Reference numeral 4 denotes a frame terminating unit which detects an overhead bit from the downlink main signal 11A received via the high speed digital line.

Reference numeral 7 denotes an operation unit for setting remote control / monitoring. Reference numeral 8 denotes a control unit, which creates control information according to an instruction from the operation unit and transfers the control information to a short packet insertion unit 5 described later, or according to an output of a short packet detection unit 6 described later, which will be described later. A return return selection signal 12 is sent to the folding unit 9.

A short packet inserting unit 5 inserts a short packet into the upstream main signal data 10B from the transmission device A based on the control information created by the control unit 8 according to the setting made by the operating unit 7. A short packet detector 6 detects a short packet inserted in the downlink main signal data 11B from the transmission device B side. Also,
Reference numeral 9 is a loopback section that loops back a signal according to a control signal such as a remote loop.

Next, the operation of the configuration of FIG. 1 will be described.
The selection information set by the operation unit 7 is transferred to the control unit 8, and the control unit 8 uses the information to select the corresponding remote control / control.
The control information for monitoring is created and transferred to the short packet inserting unit 5. In the short packet insertion unit 5, the transmission device A
A short packet containing control information is burst-inserted into the upstream main signal data 10B from the side, the frame synchronization pattern and the overhead bit of the status information are added in the frame generation unit 3, and the upstream main signal data from the transmission unit 1 is added.
It is sent to the high-speed digital line side as 10A. The upstream main signal data 10A in which the short packet is inserted is transmitted as the downstream main signal data 11A to the opposite transmission device B via the high speed digital line.

Further, the downlink main signal data 11A is received by the receiving section 2, the overhead bit is detected by the frame terminating section 4, and the frame synchronization pattern and the status information are detected. The short packet detector 6 detects a short packet inserted in the received main signal data 11B. The control information included in the short packet is analyzed by the control unit 8 and the control corresponding to the control information is performed. For example, if the content is loopback information, the loopback selection signal 12 is passed to the loopback unit 9. In that case, the downlink main signal data 11A is returned by the return unit 9, the control channel is inserted by the control channel insertion unit 13, the frame synchronization pattern and the overhead bit of the status information are added by the frame generation unit 3, and the transmission unit 1 Is transmitted to the transmission path as the upstream main signal data 10A.

As described above, in the remote control / monitoring method of the present invention, the control information created by the control unit is converted into a short packet, and the short packet insertion unit 5 outputs the upstream main signal data 10B from the transmission device A side. Since they are inserted in bursts, one time slot in the main signal data is not always occupied. Therefore, it is possible to effectively utilize the band, which is economical, and enables remote control and monitoring from end to end without depending on the line configuration of the line provider that provides the line.

[0023]

According to the invention described in claim 1, in a system for transmitting and receiving data between transmission devices via a high-speed digital line, remote control / monitoring is performed from one transmission device to the other transmission device. At this time, the step of forming the set control signal into short packets, inserting it in bursts into the main signal data transmitted and received between the transmission devices and transmitting it to the high-speed digital line, and the main signal received from the high-speed digital line By adopting a configuration of performing remote control / monitoring by a step of detecting a short packet included in data and a step of controlling / monitoring the control information included in the detected short packet according to an analysis, the present invention In the remote control / monitoring method of, remote control / monitoring is performed by using short packets of burst data. To use the Yellow Sea band, it is possible to perform an economic remote control by effective use of bandwidth.

Further, in the invention described in claims 2 and 3,
Before sending the main signal data in which the short packet is inserted to the high-speed digital line, forming a frame structure corresponding to the high-speed digital line and including frame synchronization patterns and status information as overhead bits; By detecting the overhead bit included in the main signal data before detecting the short packet included in the main signal data received from the remote control which does not depend on the line configuration of the line carrier. It can be carried out.

In the inventions according to claims 4 and 5,
In a system that transmits and receives data between transmission devices via a high-speed digital line, in a remote control and monitoring system that performs remote control and monitoring from one transmission device to the other, Means for burst insertion into main signal data formed into short packets and transmitted / received between transmission devices, and an overhead packet inserted into the main signal data in which the short packets have been inserted to support a high-speed digital line. Frame generating means for forming a frame, frame terminating means for detecting overhead bits from the received main signal data from the high-speed digital line, and show and packet for detecting short packets included in the main signal data received from the high-speed digital line Detecting means and included in detected short packet The control means for controlling / monitoring the control information according to the analysis is a distant control / monitoring system provided in each transmission device, and the overhead bits are related to the frame synchronization pattern and the status information. Since short packets are used depending on the data, the band is used only when performing remote control / monitoring, so that economical remote control can be performed by effectively using the band.

Further, in the invention described in claim 6, means for forming the set control signal into a short packet and inserting the control signal in burst into main signal data transmitted and received between the transmission devices, and the short packet. Frame generating means for inserting an overhead packet into the inserted main signal data to form a frame corresponding to the high speed digital line, and frame terminating means for detecting the overhead bit from the received main signal data from the high speed digital line. , Show and packet detecting means for detecting short packets included in main signal data received from a high-speed digital line, and control means for controlling / monitoring control information included in the detected short packets according to the analysis. Configure a control / monitoring device to connect between transmission devices via a high-speed digital line. Available to the system for transmitting and receiving over data.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of an apparatus that executes remote control / monitoring according to the present invention.

FIG. 2 is a block diagram showing a configuration of a conventional device that executes remote control / monitoring.

FIG. 3 is a diagram showing a network configuration when communication is performed between devices using a high-speed digital line provided by a line carrier.

[Explanation of symbols]

1 transmitter 2 Receiver 3 frame generator 4 frame end 5 Short packet insertion part 6 Short packet detector 7 Operation part 8 control unit 9 Folding part 10A, 10B upstream main signal data 11A, 11B Downlink main signal data 12 Return selection signal 13 Control channel inserter 14 Control channel detector

Claims (6)

[Claims] 1. A system for transmitting / receiving data between transmission devices via a high-speed digital line, wherein when a remote control / monitoring is performed from one transmission device to another transmission device, a set control signal is transmitted. Inserting in a burst into main signal data that is formed into short packets and sent and received between transmission devices, and sending to a high-speed digital line, and detecting short packets included in the main signal data received from the high-speed digital line A remote control / monitoring method comprising: a step; and a step of controlling / monitoring the control information contained in the detected short packet according to an analysis. 2. A step of forming a frame structure including overhead bits corresponding to the high-speed digital line before transmitting the main signal data in which the short packet is inserted to the high-speed digital line, and receiving from the high-speed digital line. The method according to claim 1, further comprising: detecting an overhead bit included in the main signal data before detecting a short packet included in the main signal data. 3. The remote control / monitoring method according to claim 2, wherein the overhead bit relates to a frame synchronization pattern and status information. 4. A system for transmitting / receiving data between transmission devices via a high-speed digital line, set in a remote control / monitoring system for remote control / monitoring from one transmission device to another transmission device. A control signal formed into a short packet and burst-inserted into main signal data transmitted / received between transmission devices; and an overhead packet is inserted into the main signal data into which the short packet is inserted for high-speed operation. Frame generating means for forming a frame corresponding to the digital line, frame terminating means for detecting overhead bits from the received main signal data from the high-speed digital line, and short packet included in the main signal data received from the high-speed digital line. Show to detect and packet detection means, and the detected short packet Distant control and monitoring system characterized by Tsu and control means for controlling and monitoring the control information according to the analysis contained in the bets, provided in each of the transmission devices. 5. The remote control / monitoring system according to claim 4, wherein the overhead bit relates to a frame synchronization pattern and status information. 6. The main signal data transmitted / received between transmission devices by forming a set control signal into a short packet,
Burst inserting means, frame generating means for inserting an overhead packet into the main signal data in which the short packet is inserted to form a frame corresponding to a high speed digital line, and a received main signal from the high speed digital line Frame termination means for detecting overhead bits from the data, show and packet detection means for detecting short packets included in the main signal data received from the high-speed digital line, and control information included in the detected short packets are analyzed. A remote control / monitoring device comprising: a control means for performing the above-mentioned control / monitoring.