KR100272876B1 - System for tracking and controlling upword noises in catv - Google Patents

Abstract

An uplink noise tracking / control system is disclosed that eliminates uplink noise by tracking and quickly blocking a CATV line that generates uplink noise. The uplink noise tracking / control system of the present invention includes a return path analyzer coupled to an uplink channel for monitoring an uplink signal and emitting an alarm signal when the uplink signal is noisy; A return path controller for receiving an alarm signal from the return path analyzer and interlocking a return path answerer, a tap-off answerer, and the return path analyzer to control an uplink noise tracking / control system; A return path switch for performing switching according to the cells according to the instructions of the return path analyzer; And an expert system coupled to the return path controller for instructing the processing sequence for the alarm signal from the return path analyzer, wherein the return path controller is configured when the return path analyzer monitoring the upstream channel issues a primary alarm. The return path switch causes the return path transmitter and the tap-off transceiver to switch out from an upstream channel in the tap-off direction on the subscriber side, and the return path controller returns the return path when the return path analyzer issues a negative alarm. The path switch causes only the tap-off transceiver to switch out.

Description

Upward Noise Tracking / Control System in CATV Transmission Network

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for tracking / controlling uplink noise in a CATV transmission network, and more particularly, to an uplink noise tracking / control system for eliminating uplink noise by tracking a CATV line in which uplink noise occurs and quickly blocking it.

As the number of additional services using CATV networks increases, the importance of uplink noise control is increasing. In the conventional CATV network, unlike a pair of wires forming a single channel like a telephone line, the CATV network has a branched configuration from a head end side to a plurality of subscriber sides in a tree shape, and thus from a subscriber side to a head end side. The transmitting signal, i.e. the uplink signal, continues to couple as it approaches the head end. Accordingly, there is a problem in that the entire system becomes unstable when a signal failure occurs in a specific transmission path during transmission of an uplink signal.

An object of the present invention is to provide an uplink noise tracking / control system in a CATV network that can improve the transmission quality of a CATV network and maintain the high quality by quickly blocking the uplink noise generating line of the CATV network.

In order to achieve the above object, an uplink noise tracking / control system in a CATV network of the present invention is coupled to an uplink channel to monitor an uplink signal and a return path analyzer for generating an alarm signal when the uplink signal is noisy. Analyzer: RPA); Receives an alarm signal from the return path analyzer and operates a return path transponder (RPT), a tap off transponder (TOT), and the return path analyzer to control an uplink noise tracking / control system. A return path controller (RPC); A return path switch (RPS) for performing cell-to-cell switching according to the instruction of the return path analyzer; And an expert system coupled to the return path controller for instructing the processing sequence for the alarm signal from the return path analyzer, wherein the return path analyzer monitoring the upstream channel issues a major alarm when the return path analyzer issues a major alarm. The return path controller causes the return path switch to alternate between the return path transceiver and the tapoff transceiver in the tap-off direction of the subscriber from an upstream channel, and when the return path analyzer issues a minor alarm. The return path controller causes the return path switch to alternate only the tap-off transceiver.

The return path controller sends data and noise measurement commands for the transfer point to the return path analyzer, the data measured by the return path analyzer is sent to the expert system via the return path controller, and the expert system has its own built-in upwards. The data is processed by a noise tracking / control algorithm to track / control the upstream noise at the alert point.

1 is a schematic diagram illustrating an uplink noise tracking / control system in a CATV transmission network according to the present invention;

2 is a flowchart illustrating a sequence of tracking / controlling up noise in a system according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: return path controller

12: return path analyzer

14: return path switch

16: expert system

18: return path answering machine

20: tap off answering machine

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 is a diagram showing the configuration of a system for tracking / controlling uplink noise in a CATV transmission network according to the present invention.

Referring to FIG. 1, the uplink noise tracking / control system of the present invention is composed of a return path controller (RPC) 10, a return path analyzer (RPA) 12, a return path switch (RPS) 14, and an expert system 16. It is.

The return path controller 10 receives the alarm signal from the return path analyzer or the command signal of the operator and returns to the subscriber's return path answerer (RPT) 18, the tap-off answerer (TOT) 20 and the return path analyzer ( 12) to interlock to control the entire upstream noise tracking / control system. The controller 10 is instructed by the expert system 16 to indicate an alarm processing sequence when an event for operating the controller 10 is an alarm signal.

The return path analyzer 12 is coupled to an uplink channel to monitor an uplink signal, and measures the RF power over the uplink full band by switching the return path switch 14 cell by cell, and sets a predetermined alarm table when there is noise in the uplink signal. Raise an alarm event based on In addition, the analyzer 12 operates according to the instruction of the RPC 10 until receiving the processing completion message for the alarm event from the RPC 10, and returns to the RF power measurement state after receiving the processing completion message. Goes.

The return path switch (RPS) 14 is coupled to the RPA 12 via, for example, an RS485 interface and performs a cell-to-cell switching operation as instructed by the RPA 12.

Expert system 16 is coupled to return path controller 10 to direct the processing sequence for the alarm signal from return path analyzer 12. The expert system 16 is configured to automatically track and control the upstream noise by formulating computer algorithms with experience and knowledge of the upstream noise tracking and control of experts and operators. For example, by varying the processing method for the case where the alarm from the RPA 12 is the primary alarm and the secondary alarm, the CATV transmission network can be more efficiently maintained and managed.

Now, the uplink noise tracking / control operation of the system according to the present invention will be described.

2 is a flowchart illustrating operation of an uplink noise tracking / control system according to the present invention. Referring to Fig. 2, an operation flowchart of the present system is composed of two routines, namely, a main alarm routine and a sub alarm routine. The main alarm routine is a routine that is processed by the system when a main alarm indicating a serious noise is transmitted to the RPC 10 by the RPA 12 monitoring the upstream channel. The sequence is as follows.

First, the RPA 12 continuously monitors the entire upstream band. At this time, if the RPA 12 is out of the normal state based on its alarm table, the RPA 12 sends data for the alarm event and the generating cell to the RPC 10 (step S1). The RPC 10 determines the severity of the alarm event (step S2), and if the alarm is determined to be serious, performs the main alarm routine. The RPC 10 analyzes the alarm (step S3), instructs the transfer order to the RPT 18 located in the cell in turn, and issues the transfer command to the TOT 20 (step S4). At this time, the RPC 10 issues a measurement command to the RPA 12 together with data on the transfer point. The measured data is compared with its own alarm table in the RPA 12 and sends only a signal to the RPC 10 whether it is still in an alarm state or returned to a normal state (S5). RPC 10 sends the data to expert system 16. Expert system 16 processes the data using an upward noise tracking / control algorithm to track / control the point of occurrence of an alert on the transmission path.

On the other hand, the sub path routine is performed when it is determined in step S2 that the upward noise level is increased by about 3 dB from the normal noise level, and the order is as follows.

If the upward noise level rises 3 dB or more above normal noise, the RPA 12 sends data to the RPC 10 along with the negative alarm event signaling to the originating cell (step S2). In the RPC 10, the negative alarm is analyzed by comparing the measured RF power value with the existing RF power value (step S3 '). The RPC 10 issues a sweep command in order to the RPT 18 located in the corresponding cell, receives a confirmation signal, and issues a transfer command to the TOT 20 (step S4 '). The RPC 10 issues a measurement command to the RPA 12 together with the data for the transfer point, and determines whether the measured data has returned to the state before the alarm (step S5 '). In the case of the TOT 20, the transfer confirmation signal is analyzed (the transfer confirmation signal is used instead of the sweep signal). The RPC 10 sends the analysis data to the expert system 16, which processes the data using an uplink noise tracking / control algorithm to track / control the point of occurrence of an alert on the transmission path.

According to the present invention, it is possible to shorten the maintenance time of the CATV transmission network and to ensure a high quality transmission path suitable for communication at all times. Accordingly, the CATV transmission network can be used as a partial national backbone network until the optical communication network is established. It also promotes the development of new technologies in related fields such as digital interactive TV, VOD, home shopping and the like.

Claims (2)

A system for tracking / controlling up noise in a CATV network, A Return Path Analyzer (RPA) coupled to an uplink channel to monitor an uplink signal and to issue an alarm signal when there is noise in the uplink signal; Receives an alarm signal from the return path analyzer and operates a return path transponder (RPT), a tap off transponder (TOT), and the return path analyzer to control an uplink noise tracking / control system. A return path controller (RPC); A return path switch (RPS) for performing cell-to-cell switching according to the instruction of the return path analyzer; And Expert system coupled to the return path controller to direct the processing sequence for the alarm signal from the return path analyzer Including; When the return path analyzer monitoring an uplink channel issues a major alarm, the return path controller indicates that the return path switch is configured to return the return path transceiver and the tapoff transceiver from the upstream channel to the subscriber side in the tapoff direction. And if the return path analyzer issues a minor alarm, the return path controller causes the return path switch to alternate only the tap-off transmitter. / Control system. 2. The uplink noise tracking / control system of claim 1 wherein the secondary alarm is issued when the uplink noise is at least 3 dB above the normal noise level.