阅读说明：本技术 闲置光纤资源在线监测系统 (Idle optical fiber resource on-line monitoring system ) 是由 翁德强 严成 陈建平 周振扬 岳志田 于 2020-07-23 设计创作，主要内容包括：本发明涉及光纤检测设备技术领域,特别地,涉及一种闲置光纤资源在线监测系统,包括检测通信分机、数据采集前置机、数据库服务器,以及WEB服务器；所述检测通信分机用于定时启动在线光纤检测和接收光纤检测数据并进行数据上报；所述数据采集前置机与检测通信分机连接,用以接收检测通信分机上报的数据；所述数据库服务器与数据采集前置机连接,用以将数据采集前置机接收的数据写入数据库服务器。所述WEB服务器与数据库服务器连接,供客户端查询访问。本发明可以通过检测通信分机定期的在线检测,对闲置光纤进行自动检测,并将检测数据写入数据库服务器,并且设置WEB服务器,如此后续只需操作客户端通过浏览器便可进行查询访问数据。(The invention relates to the technical field of optical fiber detection equipment, in particular to an idle optical fiber resource online monitoring system, which comprises a detection communication extension, a data acquisition front-end processor, a database server and a WEB server, wherein the detection communication extension is connected with the data acquisition front-end processor; the detection communication extension is used for starting online optical fiber detection at regular time, receiving optical fiber detection data and reporting the data; the data acquisition front-end processor is connected with the detection communication extension set and used for receiving data reported by the detection communication extension set; the database server is connected with the data acquisition front-end processor and used for writing the data received by the data acquisition front-end processor into the database server. And the WEB server is connected with the database server and is used for the client to inquire and access. The invention can automatically detect the idle optical fiber by detecting the regular online detection of the communication extension, write the detection data into the database server and set the WEB server, so that the data can be inquired and accessed by operating the client side through the browser.)

1. The idle optical fiber resource online monitoring system is characterized by comprising a detection communication extension, a data acquisition front-end processor, a database server and a WEB server;

the detection communication extension is used for starting online optical fiber detection at regular time, receiving optical fiber detection data and reporting the data;

the data acquisition front-end processor is connected with the detection communication extension set and used for receiving data reported by the detection communication extension set;

the database server is connected with the data acquisition front-end processor and used for writing the data received by the data acquisition front-end processor into the database server.

And the WEB server is connected with the database server and is used for the client to inquire and access.

2. The system for on-line monitoring of idle optical fiber resources as claimed in claim 1, wherein the detection communication extension comprises a power supply, an MCU, a data interface, a communication module, a power supply conversion and control circuit, and a clock chip;

the power supply is connected with the power supply conversion and control circuit to supply power to the detection communication extension set;

the data interface is connected with the MCU, and the MCU receives optical fiber detection data through the data interface;

the clock chip is connected with the MCU, and the MCU is awakened at regular time through the time set by the clock chip;

the MCU is connected with the communication module and reports the detection data through the communication module.

3. The system for on-line monitoring of idle optical fiber resources according to claim 2, wherein: the power source is a battery.

4. The system for on-line monitoring of idle optical fiber resources according to claim 2, wherein: the model of the clock chip is SD3078 chip.

5. The system for on-line monitoring of idle optical fiber resources according to claim 2, wherein: the detection communication extension set further comprises a dial configuration switch row, wherein the dial configuration switch row is connected with the MCU and used for carrying out function and parameter configuration on the detection communication extension set.

6. An idle fiber optic resource on-line monitoring system as claimed in any one of claims 2 to 5 wherein: the communication module comprises an internet of things module or an RJ45 interface, wherein the internet of things module comprises an NB-LoT module, a 4G module or a 5G module; the MCU is connected with the communication module through GPIOs;

the Internet of things module is connected with the data acquisition front-end processor through a mobile communication network;

and the RJ45 interface is connected with the data acquisition front-end processor.

Technical Field

The invention relates to the technical field of optical fiber detection equipment, in particular to an idle optical fiber resource online monitoring system.

Background

With the rapid development of optical fiber communication, the demand of optical fiber lines is increasing, and communication operators need to newly lay a large number of optical cables every year. Because the optical cable is laid in the earlier stage and the technology is limited and scientific optical fiber routing management is not realized, the optical fiber circuit routing is not clear enough, and many circuits can not be used due to inaccurate information, large-area idle optical fiber resources are accumulated in the day and the month, a huge optical cable 'dumb resource' network is formed, and great resource waste is caused.

At present, communication operators mainly rely on manual arrangement to reestablish manual accounts and update computer accounts according to a solution scheme of recycling large-area optical cable 'dumb resources', but data updating in real time cannot be achieved, the arrangement is repeated almost every year, a large amount of manpower and cost are consumed, and the working efficiency is very low. Manual troubleshooting is mainly performed by OTDR (optical time domain reflectometer) monitoring equipment, optical power meters, light sources, optical switches and other equipment by adopting a data detection method to perform troubleshooting confirmation, and the functions of automatic searching and dynamic monitoring of idle optical fibers cannot be realized.

The method for manually checking the idle optical fiber resources by adopting the OTDR monitoring equipment has the following defects: the method has the advantages of low labor and cost consumption, low working efficiency, manual error of resource information, incapability of timely updating information, high hidden danger of later maintenance, and incapability of realizing automatic detection, dynamic monitoring and information optimization. Aiming at the management of idle optical fibers, an intelligent optical fiber online monitoring system integrating automatic monitoring, resource management and data management is urgently needed.

Disclosure of Invention

In view of the above, the present invention provides an idle optical fiber resource online monitoring system.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the idle optical fiber resource online monitoring system comprises a detection communication extension, a data acquisition front-end processor, a database server and a WEB server;

the detection communication extension is used for starting online optical fiber detection at regular time, receiving optical fiber detection data and reporting the data;

the data acquisition front-end processor is connected with the detection communication extension set and used for receiving data reported by the detection communication extension set;

the database server is connected with the data acquisition front-end processor and used for writing the data received by the data acquisition front-end processor into the database server.

And the WEB server is connected with the database server and is used for the client to inquire and access.

Furthermore, the detection communication extension comprises a power supply, an MCU, a data interface, a communication module, a power supply conversion and control circuit and a clock chip;

the power supply is connected with the power supply conversion and control circuit to supply power to the detection communication extension set;

the data interface is connected with the MCU, and the MCU receives optical fiber detection data through the data interface;

the clock chip is connected with the MCU, and the MCU is awakened at regular time through the time set by the clock chip;

the MCU is connected with the communication module and reports the detection data through the communication module.

Further, the power supply is a battery or a solar battery;

further, the clock chip is an SD3078 chip;

furthermore, the detection communication extension also comprises a dial configuration switch bank, wherein the dial configuration switch bank is connected with the MCU and is used for configuring functions and parameters of the detection communication extension.

Further, the communication module comprises an internet of things module or an RJ45 interface, wherein the internet of things module comprises an NB-LoT module or a 4G module or a 5G module; the MCU is connected with the communication module through GPIOs;

the Internet of things module is connected with the data acquisition front-end processor through a mobile communication network;

and the RJ45 interface is connected with the data acquisition front-end processor.

Compared with the prior art, the invention has the advantages that:

the invention can automatically detect the idle optical fiber by detecting the regular online detection of the communication extension, write the detection data into the database server and set the WEB server, so that the data can be inquired and accessed by operating the client side through the browser.

Drawings

FIG. 1 is a block diagram of the present invention;

fig. 2 is a block diagram of a structure for detecting a communication extension.

Reference numerals: 1. a data interface; 2. and a communication module.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.