WO2017118147A1

WO2017118147A1 - Intelligent optical distribution network (odn) device management system and method applied to odn

Info

Publication number: WO2017118147A1
Application number: PCT/CN2016/102810
Authority: WO
Inventors: 朱丽丽; 肜云; 王欣; 李岱峰
Original assignee: 烽火通信科技股份有限公司
Priority date: 2016-01-06
Filing date: 2016-10-21
Publication date: 2017-07-13
Also published as: CN105634815A; CN105634815B

Abstract

Disclosed in the present invention are an intelligent optical distribution network (ODN) device management system and method applied to an ODN. The method comprises: formulate an overall optical fiber jumping plan to form a construction order, and set a path of an intelligent mobile terminal; download the construction order, convert the construction order into an operation instruction that can be identified by an intelligent ODN device, and deliver the operation instruction to the intelligent ODN device; the intelligent mobile terminal moves to the intelligent ODN device to perform an optical fiber jumping operation when an optical fiber port of the intelligent ODN device issues an operation guidance prompt; after completing the operation, the intelligent mobile terminal reports an operation result and warning information. By remotely controlling an intelligent mobile terminal to perform an optical fiber jumping operation on an intelligent ODN device, the present invention is simple, flexible, and low in costs, reduces the transition time and the labor intensity of personnel, and improves the working efficiency. Multi-angle monitoring is implemented by means of mobile monitoring. The intelligent mobile terminal does not need to rest when having sufficient power, and therefore is suitable for environments with high repeatability and can improve the accuracy of manual operations.

Description

Intelligent ODN equipment management system and method applied to optical fiber distribution network

Technical field

The present invention relates to the field of communication technologies, and in particular, to an intelligent ODN device management system and method applied to an optical fiber distribution network.

Background technique

In the intelligent fiber-optic distribution network, the current common method is that the construction personnel cooperate with the smart phone to perform the operation of inserting and removing the optical fiber in the field, and complete the port fiber jump operation of the ODN device, but in practical applications, the method has the following disadvantages. :

(1) The maintenance personnel or on-site construction personnel have a long time to run and have a high labor intensity, resulting in low work efficiency;

(2) The number of cameras installed in the security video system is small and the installation position is unreasonable, which cannot meet the requirements of remote monitoring. However, if the camera is installed in a large amount, the system is expensive and the maintenance cost is high;

(3) It requires manual operation, high human resource costs, and it is difficult to meet the needs of all-weather work;

(4) The computer room environment is relatively poor, such as large radiation, high noise, high ambient temperature, etc., and due to the high degree of repetitive work, it is easy to cause people to get bored, resulting in on-site operation work sometimes not in place, accuracy is reduced, dangerous work There may also be casualties.

In view of this, it is urgent to provide an intelligent ODN device management system and method for optical fiber distribution networks with high work efficiency, remote monitoring, low labor cost, and high accuracy.

Summary of the invention

The technical problem to be solved by the present invention is to provide an intelligent ODN equipment management system applied to an optical fiber distribution network with high work efficiency, remote monitoring, low labor cost and high accuracy. And methods.

In order to solve the above technical problem, the technical solution adopted by the present invention is to provide an intelligent ODN device management system applied to an optical fiber distribution network, including an intelligent ODN device management module, an intelligent ODN device, and an intelligent mobile terminal.

The smart ODN device management module communicates with the smart ODN device through an active cable, and transmits a control command to the smart mobile terminal through a wireless network by using a monitoring host and a video server, where the monitoring host and the video server receive and display the Location, live video and operational information of the intelligent mobile terminal;

The smart ODN device communicates with the smart mobile terminal through a wireless network, and is used for collecting, storing, and uploading optical fiber label information, monitoring fiber port status, and fiber port positioning guidance;

The smart mobile terminal parses the construction work order downloaded from the smart ODN device management module into an operation command identifiable by the smart ODN device, and sends the operation command to the smart ODN device according to the fiber port of the smart ODN device. The operation guide prompts that the operation is performed on the target intelligent ODN device to perform the fiber jump operation. After the fiber jump operation is completed, the smart ODN device management module performs a return receipt, and reports the operation result and the alarm information.

In the foregoing technical solution, the smart ODN device management module includes:

The device management unit directly manages the smart ODN device through an active cable, and indirectly manages the smart ODN device through a wireless network;

The work order management unit performs overall planning on the fiber jumper to form the construction work order for downloading by the smart mobile terminal;

An optical path management unit that manages a walking path of the smart mobile terminal;

The alarm management unit receives the alarm information and reports the alarm information to the intelligent ODN device management module;

The resource inspection unit receives processing data of the fiber jump operation uploaded by the smart mobile terminal;

a remote monitoring unit that utilizes the monitoring host and the video server to move the smart mobile Remote monitoring of terminal location, live video and operational information.

In the above technical solution, the smart mobile terminal includes:

a wireless communication unit that performs information interaction with a wireless communication network device;

a mobile station control unit, connected to the wireless communication unit, by which the walking route of the smart mobile terminal and the landmark point of the target intelligent ODN device can be preset;

a motion execution unit, configured to control the smart mobile terminal to perform movement, and perform a fiber jump operation on the target intelligent ODN device;

Navigating a positioning unit, processing the location and navigation information of the smart mobile terminal, and transmitting the processed data to the intelligent ODN device management module in real time;

a visual processing unit, connected to the mobile station control unit, for detecting a landmark point and an obstacle of the target intelligent ODN device;

The intelligent terminal management unit is configured to manage the smart ODN device, and upload the operation result and related alarm information to the smart ODN device management module.

In the above technical solution, the motion execution unit includes:

a program control subunit that sends the programmed program with parameters;

a motion control subunit receives a program sent by the program control subunit, and performs algorithm operation control on the path and the motor linkage;

a motor driving subunit, comprising a servo or stepping motor and a motor driver, for driving the smart mobile terminal to move to a designated position;

The field operation subunit receives an instruction sent by the intelligent terminal management unit, and performs an optical fiber jump operation between the smart ODN device in the rack or the rack according to the instruction.

In the above technical solution, the intelligent terminal management unit includes:

a work order management sub-unit, which converts the construction work order downloaded by the smart terminal management unit from the smart ODN device management module into an operation command that can be recognized by the smart ODN device, and sends the operation command to the smart ODN device;

a construction management subunit, after the operation execution unit completes the on-site operation, collecting the fiber port information of the smart ODN device and the corresponding fiber optic electronic tag information, and analyzing the result, and uploading the operation result to the intelligent ODN device management module;

The alarm management sub-unit reports the alarm information to the intelligent ODN device management module;

The camera processing sub-unit performs camera processing on the rack, sub-frame and port status of the smart ODN device, and uploads the status to the smart ODN device management module.

In the above technical solution, after completing the construction task, the smart mobile terminal returns to the charging station for charging.

In the above technical solution, the smart ODN device is an intelligent fiber distribution device, such as an intelligent fiber distribution frame, an intelligent optical cable transfer box, and an intelligent optical fiber cable dividing box.

In the above technical solution, the smart mobile terminal is an intelligent robot.

The invention also provides an intelligent ODN device management method applied to a fiber distribution network, comprising the following steps:

Overall planning of the fiber jumper, forming a construction work order, and setting the walking path of the intelligent mobile terminal;

The construction work order is downloaded, and the construction work order is converted into an operation command recognizable by the intelligent ODN device and sent to the intelligent ODN device;

When the optical port of the intelligent ODN device issues an operation guide prompt, the smart mobile terminal moves to the intelligent ODN device to perform a fiber jump operation;

After the fiber jumper operation is completed, the smart mobile terminal performs a return receipt and reports the operation result and the alarm information.

The invention controls the intelligent mobile terminal to perform the fiber jump operation on the intelligent ODN device by remotely, and has the advantages of simple, flexible and low cost, can meet the all-weather work requirement, and can reduce the transition time and labor of the maintenance personnel or the on-site construction personnel. Strength, improve work efficiency; The multi-angle monitoring is realized by the mobile monitoring of the intelligent mobile terminal, and the intelligent mobile terminal does not need to rest when the energy is sufficient, and is suitable for the environment with high repeatability, can improve the accuracy of the manual operation, and can return after the construction task is completed. Charge to the charging station.

DRAWINGS

1 is a schematic structural diagram of an intelligent ODN device management system applied to an optical fiber distribution network according to the present invention;

2 is a structural diagram of a smart ODN device management module provided by the present invention;

3 is a structural diagram of an intelligent mobile terminal provided by the present invention;

4 is a structural diagram of a motion execution unit provided by the present invention;

FIG. 5 is a structural diagram of a smart terminal management unit provided by the present invention; FIG.

FIG. 6 is a flowchart of a method for managing an intelligent ODN device applied to a fiber distribution network according to the present invention.

detailed description

The present invention will be described in detail below with reference to the drawings and specific embodiments.

An embodiment of the present invention provides an intelligent ODN device management system applied to a fiber distribution network, as shown in FIG. 1 , including an intelligent ODN device management module 1 , an intelligent ODN device 2 , and an intelligent mobile terminal 3 (an intelligent robot);

The intelligent ODN device management module 1 communicates with the intelligent ODN device 2 through an active cable, and the monitoring personnel use the monitoring host and the video server to transmit control commands to the smart mobile terminal 3 through the wireless network, and the monitoring host and the video server receive and display the smart mobile terminal 3. Location, live video and operational information;

The intelligent ODN device 2 communicates with the smart mobile terminal 3 through a wireless network, and is used for collecting, storing, and uploading optical fiber tag information, monitoring fiber port status, and fiber port positioning guidance;

The smart mobile terminal 3 parses the construction work order downloaded from the smart ODN device management module 1 into The intelligent ODN device 2 recognizes the operation command and sends it to the smart ODN device 2, and according to the operation guide issued by the fiber port of the smart ODN device 2, the smart mobile terminal 3 avoids the obstacle by navigation and moves to the target intelligent ODN device. 2, according to the requirements of the construction work order, the optical fiber jumper operation in the rack or the inter-rack, after the fiber jump operation is completed, the smart ODN equipment management module 1 is returned, the operation result and the alarm information are reported, and the intelligent mobile terminal 3 completes the construction task. After that, return to the charging station for charging.

The intelligent ODN device 2 is an intelligent fiber distribution device, such as an intelligent fiber distribution frame, a smart cable transfer box, and a smart fiber cable splitter box.

As shown in FIG. 2, the intelligent ODN device management module 1 includes:

The device management unit 10 directly manages the intelligent ODN device 2 through an active cable, and indirectly manages the intelligent ODN device 2 through the wireless network;

The work order management unit 11 performs overall planning on the fiber jumper to form a construction work order for the smart mobile terminal 3 to download;

The optical path management unit 12 manages the walking path of the smart mobile terminal 3;

The alarm management unit 13 receives the alarm information and reports it to the intelligent ODN device management module 1;

The resource inspection unit 14 receives the processing data of the fiber jump operation uploaded by the smart mobile terminal 3;

The remote monitoring unit 15 remotely monitors the location, live video, and operational information of the smart mobile terminal 3 by using the monitoring host and the video server.

As shown in FIG. 3, the smart mobile terminal 3 includes:

The wireless communication unit 31 performs information interaction with the wireless communication network device in the equipment room;

The mobile station control unit 32 is connected to the wireless communication unit 31, and the walking route of the smart mobile terminal 3 and the landmark point of the target intelligent ODN device 2 can be preset by the mobile station control unit 32;

a motion execution unit 33, configured to control the smart mobile terminal 3 to perform movement, and perform a fiber jump operation on the target smart ODN device 2;

The navigation and positioning unit 34 processes the location and navigation information of the intelligent mobile terminal 3, and transmits the processed data to the intelligent ODN device management module 1 in real time;

The visual processing unit 35 is connected to the mobile station control unit 32 for detecting the marker points and obstacles of the target intelligent ODN device 2;

The intelligent terminal management unit 36 is configured to manage the intelligent ODN device 2, and upload the operation result and related alarm information to the intelligent ODN device management module 1.

In order to facilitate the movement of the smart mobile terminal 3 without being restricted by the line, the data communication between the smart mobile terminal 3 and the intelligent ODN device management module 1 is usually established by using a wireless network, and the wireless network in the computer room is usually composed of multiple wireless communication network devices. Distributed in different locations in the equipment room, and then integrated into a whole through the cable, and finally the wireless signal is covered in the entire equipment room to form a wireless network with high-intensity signals.

As shown in FIG. 4, the motion execution unit 33 includes:

The program control sub-unit 331 sends the prepared program with parameters;

The motion control sub-unit 332 receives the program sent by the program control sub-unit 331 and performs algorithmic operation control on the path and the motor linkage;

The motor driving subunit 333 is composed of a servo or stepping motor and a motor driver for driving the smart mobile terminal 3 to move to a designated position;

The field operation sub-unit 334 receives the instruction issued by the intelligent terminal management unit 36, and performs an optical inter-rack or inter-rack fiber jump operation on the intelligent ODN device 2 according to the instruction.

As shown in FIG. 5, the smart terminal management unit 36 includes:

The work order management sub-unit 361, the construction work order downloaded from the intelligent ODN device management module 1 by the intelligent terminal management unit 36 is converted into an operation command that the intelligent ODN device 2 can recognize and sent to the intelligent ODN device 2;

After the construction operation sub-unit 362, the motion execution unit 33 completes the on-site operation, collects the fiber port information of the intelligent ODN device 2 and the corresponding fiber-optic electronic tag information and analyzes the result, and uploads the operation result to the intelligent ODN device management module 1;

The alarm management sub-unit 363 reports the alarm information to the intelligent ODN device management module 1;

The camera processing sub-unit 364 performs camera processing on the rack, sub-frame and port status of the smart ODN device 2, and uploads it to the intelligent ODN device management module 1.

The embodiment of the invention further provides a method for managing an intelligent ODN device applied to a fiber distribution network, as shown in FIG. 6, comprising the following steps:

Step 101: Perform overall planning on the fiber jumper, form a construction work order, and set a walking path of the intelligent mobile terminal.

Step 102: Download the construction work order, and convert the construction work order into an operation command identifiable by the intelligent ODN device and send it to the intelligent ODN device.

Step 103: When the optical port of the smart ODN device issues an operation guide prompt, the smart mobile terminal moves to the intelligent ODN device to perform a fiber jump operation.

Step 104: After the fiber jumper operation is completed, the smart mobile terminal performs a return order, and reports the operation result and the alarm information.

The present invention is not limited to the above-described preferred embodiments, and any one skilled in the art should be aware of the structural changes made in the light of the present invention. Any technical solutions having the same or similar to the present invention fall within the protection scope of the present invention.

Claims

An intelligent ODN device management system applied to a fiber distribution network, comprising: an intelligent ODN device management module, an intelligent ODN device, and an intelligent mobile terminal,

The smart ODN device management module communicates with the smart ODN device through an active cable, and transmits a control command to the smart mobile terminal through a wireless network by using a monitoring host and a video server, where the monitoring host and the video server receive and display the Location, live video and operational information of the intelligent mobile terminal;

The smart ODN device communicates with the smart mobile terminal through a wireless network, and is used for collecting, storing, and uploading optical fiber label information, monitoring fiber port status, and fiber port positioning guidance;

The smart mobile terminal parses the construction work order downloaded from the smart ODN device management module into an operation command identifiable by the smart ODN device, and sends the operation command to the smart ODN device according to the fiber port of the smart ODN device. The operation guide prompts that the operation is performed on the target intelligent ODN device to perform the fiber jump operation. After the fiber jump operation is completed, the smart ODN device management module performs a return receipt, and reports the operation result and the alarm information.
The system of claim 1 wherein the intelligent ODN device management module comprises:

The device management unit directly manages the smart ODN device through an active cable, and indirectly manages the smart ODN device through a wireless network;

The work order management unit performs overall planning on the fiber jumper to form the construction work order for downloading by the smart mobile terminal;

An optical path management unit that manages a walking path of the smart mobile terminal;

The alarm management unit receives the alarm information and reports the alarm information to the intelligent ODN device management module;

The resource inspection unit receives processing data of the fiber jump operation uploaded by the smart mobile terminal;

The remote monitoring unit remotely monitors the location, live video, and operation information of the smart mobile terminal by using the monitoring host and the video server.
The system of claim 1 wherein said smart mobile terminal comprises:

a wireless communication unit that performs information interaction with a wireless communication network device;

a mobile station control unit, connected to the wireless communication unit, by which the walking route of the smart mobile terminal and the landmark point of the target intelligent ODN device can be preset;

a motion execution unit, configured to control the smart mobile terminal to perform movement, and perform a fiber jump operation on the target intelligent ODN device;

Navigating a positioning unit, processing the location and navigation information of the smart mobile terminal, and transmitting the processed data to the intelligent ODN device management module in real time;

a visual processing unit, connected to the mobile station control unit, for detecting a landmark point and an obstacle of the target intelligent ODN device;

The intelligent terminal management unit is configured to manage the smart ODN device, and upload the operation result and related alarm information to the smart ODN device management module.
The system of claim 3 wherein said motion execution unit comprises:

a program control subunit that sends the programmed program with parameters;

a motion control subunit receives a program sent by the program control subunit, and performs algorithm operation control on the path and the motor linkage;

a motor driving subunit, comprising a servo or stepping motor and a motor driver, for driving the smart mobile terminal to move to a designated position;

The field operation subunit receives an instruction sent by the intelligent terminal management unit, and performs an optical fiber jump operation between the smart ODN device in the rack or the rack according to the instruction.
The system of claim 3, wherein the intelligent terminal management unit comprises:

a work order management sub-unit, which converts the construction work order downloaded by the smart terminal management unit from the smart ODN device management module into an operation command that can be recognized by the smart ODN device, and sends the operation command to the smart ODN device;

a construction management subunit, after the operation execution unit completes the on-site operation, collecting the fiber port information of the smart ODN device and the corresponding fiber optic electronic tag information, and analyzing the result, and uploading the operation result to the intelligent ODN device management module;

The alarm management sub-unit reports the alarm information to the intelligent ODN device management module;

The camera processing sub-unit performs camera processing on the rack, sub-frame and port status of the smart ODN device, and uploads the status to the smart ODN device management module.
The system of claim 1 wherein said smart mobile terminal returns to the charging station for charging after completing the construction task.
The system of claim 1 wherein said intelligent ODN device is an intelligent fiber optic distribution device, such as an intelligent fiber distribution frame, a smart fiber cable transfer box, and a smart fiber cable distribution box.
The system of claim 1 wherein said smart mobile terminal is an intelligent robot.
The intelligent ODN device management method applied to the optical fiber distribution network is characterized in that it comprises the following steps:

Overall planning of the fiber jumper, forming a construction work order, and setting the walking path of the intelligent mobile terminal;

The construction work order is downloaded, and the construction work order is converted into an operation command recognizable by the intelligent ODN device and sent to the intelligent ODN device;

When the optical port of the intelligent ODN device issues an operation guide prompt, the smart mobile terminal moves to the intelligent ODN device to perform a fiber jump operation;

After the fiber jumper operation is completed, the smart mobile terminal performs a return receipt and reports the operation result and the alarm information.
The method according to claim 8, wherein the smart mobile terminal returns to the charging station for charging after completing the construction task.