CN111856999B - Multi-terminal equipment management method and system based on intelligent optical network equipment - Google Patents

Abstract

The invention discloses a multi-terminal equipment management method and a multi-terminal equipment management system based on intelligent optical network equipment, which comprise the following steps: the intelligent optical network equipment respectively performs access authentication, negotiation of interface parameters and protocol contents and communication configuration with the server and the terminal equipment based on a preset protocol; the server sends a terminal equipment operation control instruction to the intelligent optical network equipment; the intelligent optical network equipment controls terminal equipment connected with the intelligent optical network equipment based on the received operation control instruction; the intelligent optical network equipment acquires the result of the execution of the operation control instruction transmitted by the terminal equipment, processes data based on the execution result and sends the data processing result to the server; the server manages the received data in a unified way, and the invention realizes a unified and comprehensive equipment management system through intelligent optical network equipment, so that the system integrates various identification functions and other intelligent functions.

Description

Multi-terminal equipment management method and system based on intelligent optical network equipment

Technical Field

The invention relates to the field of equipment management, in particular to a multi-terminal equipment management method and a multi-terminal equipment management system based on intelligent optical network equipment.

Background

At present, the market portrait recognition, the license plate recognition, the body temperature recognition and the high-altitude parabolic recognition are relatively mature products, but different products are provided with special controllers or servers, the system integration level is low, and the cost is high when the products are pieced together.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a multi-terminal equipment management method and a multi-terminal equipment management system based on intelligent optical network equipment.

The invention provides a multi-terminal equipment management method based on intelligent optical network equipment, which comprises the following steps:

the intelligent optical network equipment respectively performs access authentication, negotiation of interface parameters and protocol contents and communication configuration with the server and the terminal equipment based on a preset protocol;

the server sends a terminal equipment operation control instruction to the intelligent optical network equipment;

the intelligent optical network equipment controls terminal equipment connected with the intelligent optical network equipment based on the received operation control instruction;

the intelligent optical network equipment acquires the result of the execution of the operation control instruction transmitted by the terminal equipment, processes data based on the execution result and sends the data processing result to the server;

and the server performs unified management on the received data.

As a further optimization of the above scheme, the terminal device operation control instruction sent by the server to the intelligent optical network device includes a terminal device attribute information acquisition instruction, a terminal device start instruction, and a terminal device close instruction.

As a further optimization of the above scheme, when the terminal device operation control instruction sent by the server is a terminal device attribute information acquisition instruction, the method for managing the terminal device includes:

the server sends a terminal equipment attribute information acquisition instruction to all intelligent optical network equipment;

the intelligent optical network equipment acquires a stored interface management data table and sends the connected terminal equipment type and the connection port number to a server;

the server uniformly manages the attribute information of the terminal equipment based on the received terminal equipment category and the connection port number and the intelligent optical network equipment information for sending the information;

the terminal equipment attribute comprises the name and the address of the intelligent optical network equipment connected with the terminal equipment and port information connected with the intelligent optical network equipment.

As a further optimization of the above scheme, when the terminal device operation control instruction sent by the server is a terminal device start instruction, the method for managing the terminal device includes:

the method comprises the steps that a server sends a terminal device starting instruction to intelligent optical network equipment, wherein the terminal device starting instruction comprises terminal device attribute information to be started;

the intelligent optical network equipment controls the starting of the terminal equipment based on the acquired instruction;

starting to collect data after the terminal equipment is started, and sending the collected data to the intelligent optical network equipment;

the intelligent optical network equipment carries out identification processing based on the acquired data and sends the identification processing result to the server;

and the server identifies and processes the acquired data and then performs unified management and storage.

As a further optimization of the above scheme, when the terminal device operation control instruction sent by the server is a terminal device shutdown instruction, the method for managing the terminal device includes:

the method comprises the steps that a server sends a terminal equipment closing instruction to intelligent optical network equipment, wherein the terminal equipment closing instruction comprises terminal equipment attribute information to be closed;

the intelligent optical network equipment controls the closing of the terminal equipment based on the acquired instruction, and responds a closing instruction operation result to the server;

and the server uniformly manages the working states of all the devices based on the closing instruction operation result.

As a further optimization of the above scheme, the terminal device attribute information contained in the terminal device operation control instruction sent by the server is a port number or a device type, and the intelligent optical network device searches the interface management data table based on the obtained instruction, and obtains one or more terminal device execution operation control instructions matched with the port number or the device type.

As a further optimization of the scheme, the terminal equipment comprises face image acquisition equipment, license plate image acquisition equipment, body temperature data acquisition equipment and high-altitude parabolic video acquisition equipment.

The invention provides a multi-terminal equipment management system based on intelligent optical network equipment, which comprises a server, the intelligent optical network equipment and the terminal equipment,

the intelligent optical network equipment is used for respectively carrying out access authentication, negotiation of interface parameters and protocol contents and communication configuration with the server and the terminal equipment based on a preset protocol;

the server is used for sending a terminal equipment operation control instruction to the intelligent optical network equipment;

the intelligent optical network equipment is used for controlling terminal equipment connected with the intelligent optical network equipment based on the received operation control instruction;

the intelligent optical network unit is also used for acquiring the result of the execution of the operation control instruction transmitted by the terminal equipment, processing data based on the execution result and sending the data processing result to the server;

the server is also used for carrying out unified management on the received data.

As a further optimization of the above scheme, the terminal device operation control instruction sent by the server to the intelligent optical network device includes a terminal device attribute information acquisition instruction, a terminal device start instruction, and a terminal device close instruction.

As a further optimization of the above scheme, the intelligent optical network device includes:

the operation control instruction receiving unit is used for receiving a terminal equipment operation control instruction sent by the server;

an instruction execution unit for controlling the terminal device based on the received instruction;

the terminal equipment data acquisition unit is used for acquiring the attribute information, the acquired data and the working state of the terminal equipment;

the terminal equipment data processing unit is used for identifying and processing the acquired data;

and the operation control instruction execution result sending unit is used for sending the attribute information of the terminal equipment, the acquired data identification processing result and the working state data to the server.

The multi-terminal equipment management method and the system based on the intelligent optical network equipment have the following beneficial effects that: the invention establishes a communication channel between the server and the plurality of terminal devices based on the intelligent optical network device, realizes the receiving of the control operation instruction of the server to the terminal devices, controls the terminal devices based on the control operation instruction and identifies and processes the data collected by the terminal devices, and the intelligent optical network device realizes the connection of various terminal devices through a plurality of interface circuits, thereby realizing the integration of various identification functions of the system based on the intelligent optical network device, reducing the use of various identification module controllers and servers, reducing the purchase cost of the device, and simultaneously forming a set of unified and comprehensive management system by the server, the intelligent optical network device and the plurality of terminal devices, realizing the unified management of the plurality of terminal devices and reducing the workload of maintenance.

Drawings

Fig. 1 is an overall flow chart of a multi-terminal device management method based on an intelligent optical network device according to the present invention;

fig. 2 is a flow chart of a terminal device attribute management method of the multi-terminal device management method based on the intelligent optical network device according to the present invention;

fig. 3 is a flow chart of a method for uniformly managing and storing terminal device collected data according to the multi-terminal device management method based on intelligent optical network devices of the present invention;

fig. 4 is a block diagram of a multi-terminal device management system based on an intelligent optical network device according to the present invention.

Detailed Description

The technical solution of the present invention is further explained below with reference to the specific embodiments and the accompanying drawings.

The invention provides a multi-terminal equipment management method based on intelligent optical network equipment, which is applied to a hardware environment formed by a server, the intelligent optical network equipment and a plurality of pieces of terminal equipment connected with the intelligent optical network equipment, and comprises the following steps:

the intelligent optical network equipment respectively performs access authentication, negotiation of interface parameters and protocol contents and communication configuration with the server and the terminal equipment based on a preset protocol, so that legal, effective and unified management of the server access equipment is realized, communication connection is established between the server and the terminal equipment after the authentication is passed, communication port information and communication transmission content information are determined, and request and response data are packaged and analyzed by the preset protocol;

the preset protocol may adopt a subprotocol of a TCP/IP protocol cluster, and specifically, in this embodiment, the access authentication process of the intelligent optical network device and the server is as follows:

the intelligent optical network equipment encapsulates the self identification information by a preset protocol and sends the self identification information to the server, the server receives the protocol and analyzes the protocol, and judges whether the equipment is legal and effective equipment, and the message format for encapsulating the self identification information is as follows:

start field: for marking the protocol start (default 0xFE),

vendor field: for indicating vendor ID (default 0x680x730x64),

code domain: is used for marking the model of the equipment,

version field: for indicating the authentication protocol version (default 0x01),

level field: for indicating the level of authentication,

SN field: is used for marking the factory-leaving sequence of the equipment,

SNPW domain: used for marking the factory-leaving sequence secret key,

ID field: for identifying the firmware ID (the chip global unique number is not modifiable),

flag field: for indicating the result of the authentication,

ack domain: for the purpose of indicating the response signal,

a CS domain: for indicating the cumulative sum of values after the start field (automatic overflow of the excess),

an End domain: for marking protocol terminators (default 0x 16).

The server authenticates the identity information of the intelligent optical network equipment based on the SN domain and the SNPW domain data in the message, if the intelligent optical network equipment does not pass the authentication process, the server cannot communicate with the server, and authentication failure information is returned to the intelligent optical network equipment;

in this embodiment, the plurality of terminal devices are connected to the intelligent optical network device through different types of interfaces, including USB interfaces, RJ45, RS485 interfaces, and the intelligent optical network device performs data communication with the server through the optical network by using the optical module.

The intelligent optical network device of the embodiment comprises a USB interface circuit, an RJ45 interface circuit, a body temperature measuring module, a data input/output circuit, a power supply module, an ARM framework processor and a matching circuit thereof, and realizes the active establishment of a communication channel with a server, the control of terminal equipment and the identification processing of data collected by the terminal equipment, and the connection of various terminal equipment is realized through a plurality of interface circuits, thereby realizing the integration of various identification functions.

The server sends a terminal device operation control instruction to the intelligent optical network device, wherein the terminal device operation control instruction comprises a terminal device attribute information acquisition instruction, a terminal device starting instruction and a terminal device closing instruction.

If the terminal device operation control instruction contains the operated terminal device attribute information, the terminal device attribute information can be a port number or a device type, the intelligent optical network device searches an interface management data table based on the obtained instruction, obtains one or more terminal device execution operation control instructions matched with the port number or the device type, and is convenient for the server to simultaneously control and operate one or more terminal devices.

The intelligent optical network equipment controls terminal equipment connected with the intelligent optical network equipment based on the received operation control instruction;

the intelligent optical network equipment acquires the result of the execution of the operation control instruction transmitted by the terminal equipment, processes data based on the execution result and sends the data processing result to the server;

and the server performs unified management on the received data.

Specifically, when the terminal device operation control instruction sent by the server is a terminal device attribute information acquisition instruction, the terminal device management method includes:

the server sends a terminal equipment attribute information acquisition instruction to all intelligent optical network equipment;

the intelligent optical network equipment acquires a stored interface management data table and sends the connected terminal equipment type and the connection port number to a server;

the server uniformly manages the attribute information of the terminal equipment based on the received terminal equipment category and the connection port number and the intelligent optical network equipment information for sending the information;

the terminal equipment attribute comprises the name and the address of the intelligent optical network equipment connected with the terminal equipment and port information connected with the intelligent optical network equipment.

When the terminal equipment operation control instruction sent by the server is a terminal equipment starting instruction, the management method for the terminal equipment comprises the following steps:

the method comprises the steps that a server sends a terminal device starting instruction to intelligent optical network equipment, wherein the terminal device starting instruction comprises terminal device attribute information to be started;

the intelligent optical network equipment controls the starting of the terminal equipment based on the acquired instruction;

starting to collect data after the terminal equipment is started, and sending the collected data to the intelligent optical network equipment;

the intelligent optical network equipment carries out identification processing based on the acquired data and sends the identification processing result to the server;

and the server identifies and processes the acquired data and then performs unified management and storage.

In this embodiment, the data identification processing of the collected data is implemented by the intelligent optical network device, and the data processing result is sent to the server by the intelligent optical network device, so that the use of network bandwidth resources is reduced and the data processing pressure of the server is relieved.

When the terminal equipment operation control instruction sent by the server is a terminal equipment closing instruction, the terminal equipment management method comprises the following steps:

the method comprises the steps that a server sends a terminal equipment closing instruction to intelligent optical network equipment, wherein the terminal equipment closing instruction comprises terminal equipment attribute information to be closed;

the intelligent optical network equipment controls the closing of the terminal equipment based on the acquired instruction, and responds a closing instruction operation result to the server;

and the server uniformly manages the working states of all the devices based on the closing instruction operation result.

Specifically, in this embodiment, when the server sends the terminal device operation control instruction to the intelligent optical network device, the server packages the operation control instruction with a preset protocol, and the intelligent optical network device parses the operation control instruction, where the package format of the operation control instruction is as follows:

the destination IP address is used for receiving the equipment IP address of the message;

a source IP address, a device IP address for sending messages;

protocol type, identified as 0x8810 (self-defined); protocol Flag, identified as 0x 02; organization/company logo, identified as 0x680x730x64 before acquiring formal OUI;

the type of operation;

an extended attribute identification, identified as 0x 02; extending the attribute type; the extended attribute width is different according to different extended attribute types;

the extended attribute value is different according to different extended attribute types;

checksum, the sum of the data of each byte of the message;

the operation type comprises the operations of configuration of the server on the intelligent optical network equipment, configuration of the terminal equipment and configuration response acquisition, the operations of attribute information acquisition of the intelligent optical network equipment and response acquisition of the terminal equipment, and the operation type further comprises the operation state control and control response of the terminal equipment.

In this embodiment, the terminal device includes a face image acquisition device, a license plate image acquisition device, a body temperature data acquisition device, and a high-altitude parabolic video collection device, and realizes acquisition of images, videos, and body temperature data.

Based on the above multi-terminal equipment management method based on intelligent optical network equipment, the embodiment of the invention also provides a multi-terminal equipment management system based on intelligent optical network equipment, which comprises a server, intelligent optical network equipment and terminal equipment,

the intelligent optical network equipment respectively performs access authentication, negotiation of interface parameters and protocol contents and communication configuration with the server and the terminal equipment based on a preset protocol;

the server is used for sending a terminal equipment operation control instruction to the intelligent optical network equipment, wherein the terminal equipment operation control instruction comprises a terminal equipment attribute information acquisition instruction, a terminal equipment starting instruction and a terminal equipment closing instruction;

the intelligent optical network equipment is used for controlling terminal equipment connected with the intelligent optical network equipment based on the received operation control instruction;

the intelligent optical network unit is further configured to obtain an execution result of the operation control instruction transmitted by the terminal device, perform data processing based on the execution result, and send the data processing result to the server, and specifically includes:

the operation control instruction receiving unit is used for receiving a terminal equipment operation control instruction sent by the server;

an instruction execution unit for controlling the terminal device based on the received instruction;

the terminal equipment data acquisition unit is used for acquiring the attribute information, the acquired data and the working state of the terminal equipment;

the terminal equipment data processing unit is used for identifying and processing the acquired data;

the operation control instruction execution result sending unit is used for sending the attribute information of the terminal equipment, the collected data identification processing result and the working state data to the server;

the server is also used for carrying out unified management on the received data, and realizing the acquisition of the attribute information of the terminal equipment, the unified management of the acquired data and the control of the working state.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception, and fall within the scope of the present invention.

Claims (7)

1. A multi-terminal equipment management method based on intelligent optical network equipment is characterized in that: the method comprises the following steps:

the intelligent optical network equipment respectively performs access authentication, negotiation of interface parameters and protocol contents and communication configuration with the server and the terminal equipment based on a preset protocol;

the server sends a terminal equipment operation control instruction to the intelligent optical network equipment;

the intelligent optical network equipment controls terminal equipment connected with the intelligent optical network equipment based on the received operation control instruction;

the intelligent optical network equipment acquires the result of the execution of the operation control instruction transmitted by the terminal equipment, processes data based on the execution result and sends the data processing result to the server;

the server performs unified management on the received data;

the terminal equipment operation control instruction sent by the server to the intelligent optical network equipment comprises a terminal equipment attribute information acquisition instruction, a terminal equipment starting instruction and a terminal equipment closing instruction;

when the terminal device operation control instruction sent by the server is a terminal device attribute information acquisition instruction, the management method for the terminal device comprises the following steps:

the server sends a terminal equipment attribute information acquisition instruction to all intelligent optical network equipment;

the intelligent optical network equipment acquires a stored interface management data table and sends the connected terminal equipment type and the connection port number to a server;

the server uniformly manages the attribute information of the terminal equipment based on the received terminal equipment category and the connection port number and the intelligent optical network equipment information for sending the information;

the terminal equipment attribute comprises the name and the address of the intelligent optical network equipment connected with the terminal equipment and port information connected with the intelligent optical network equipment;

the access authentication comprises the following steps:

the intelligent optical network equipment packages self identification information by a preset protocol and sends the self identification information to a server, the server receives the protocol and analyzes the protocol, and judges whether the equipment is valid equipment or not, a message for packaging the self identification information comprises SN (serial number) domain data and SNPW (single-passive wire) domain data, the server authenticates identity information of the intelligent optical network equipment based on the SN domain data and the SNPW domain data in the message, if the intelligent optical network equipment does not pass an authentication process, communication with the server cannot be carried out, authentication failure information is returned to the intelligent optical network equipment, wherein the SN domain is used for marking an equipment factory leaving sequence, and the SNPW domain is used for marking a factory leaving sequence secret key.

2. The multi-terminal device management method based on the intelligent optical network device according to claim 1, wherein: when the terminal equipment operation control instruction sent by the server is a terminal equipment starting instruction, the method for managing the terminal equipment comprises the following steps:

the method comprises the steps that a server sends a terminal device starting instruction to intelligent optical network equipment, wherein the terminal device starting instruction comprises terminal device attribute information to be started;

the intelligent optical network equipment controls the starting of the terminal equipment based on the acquired instruction;

starting to collect data after the terminal equipment is started, and sending the collected data to the intelligent optical network equipment;

the intelligent optical network equipment carries out identification processing based on the acquired data and sends the identification processing result to the server;

and the server identifies and processes the acquired data and then performs unified management and storage.

3. The multi-terminal device management method based on the intelligent optical network device according to claim 1, wherein: when the terminal equipment operation control instruction sent by the server is a terminal equipment closing instruction, the method for managing the terminal equipment comprises the following steps:

the method comprises the steps that a server sends a terminal equipment closing instruction to intelligent optical network equipment, wherein the terminal equipment closing instruction comprises terminal equipment attribute information to be closed;

the intelligent optical network equipment controls the closing of the terminal equipment based on the acquired instruction, and responds a closing instruction operation result to the server;

and the server uniformly manages the working states of all the devices based on the closing instruction operation result.

4. The multi-terminal device management method based on the intelligent optical network device according to claim 1, wherein: the terminal equipment attribute information contained in the terminal equipment operation control instruction sent by the server is a port number or an equipment type, and the intelligent optical network equipment searches an interface management data table based on the acquired instruction to acquire one or more terminal equipment execution operation control instructions matched with the port number or the equipment type.

5. The multi-terminal device management method based on the intelligent optical network device according to claim 1, wherein: the terminal equipment comprises face image acquisition equipment, license plate image acquisition equipment, body temperature data acquisition equipment and high-altitude parabolic video acquisition equipment.

6. A multi-terminal equipment management system based on intelligent optical network equipment is characterized in that: comprises a server, intelligent optical network equipment and terminal equipment,

the intelligent optical network equipment is used for respectively carrying out access authentication, negotiation of interface parameters and protocol contents and communication configuration with the server and the terminal equipment based on a preset protocol;

the server is used for sending a terminal equipment operation control instruction to the intelligent optical network equipment;

the intelligent optical network equipment is used for controlling terminal equipment connected with the intelligent optical network equipment based on the received operation control instruction;

the intelligent optical network unit is also used for acquiring the result of the execution of the operation control instruction transmitted by the terminal equipment, processing data based on the execution result and sending the data processing result to the server;

the server is also used for carrying out unified management on the received data;

the terminal equipment operation control instruction sent by the server to the intelligent optical network equipment comprises a terminal equipment attribute information acquisition instruction, a terminal equipment starting instruction and a terminal equipment closing instruction;

when the terminal device operation control instruction sent by the server is a terminal device attribute information acquisition instruction, the management method for the terminal device comprises the following steps:

the server sends a terminal equipment attribute information acquisition instruction to all intelligent optical network equipment;

the intelligent optical network equipment acquires a stored interface management data table and sends the connected terminal equipment type and the connection port number to a server;

the server uniformly manages the attribute information of the terminal equipment based on the received terminal equipment category and the connection port number and the intelligent optical network equipment information for sending the information;

the terminal equipment attribute comprises the name and the address of the intelligent optical network equipment connected with the terminal equipment and port information connected with the intelligent optical network equipment;

the access authentication comprises the following steps:

the intelligent optical network equipment packages self identification information by a preset protocol and sends the self identification information to a server, the server receives the protocol and analyzes the protocol, and judges whether the equipment is valid equipment or not, a message for packaging the self identification information comprises SN (serial number) domain data and SNPW (single-passive wire) domain data, the server authenticates identity information of the intelligent optical network equipment based on the SN domain data and the SNPW domain data in the message, if the intelligent optical network equipment does not pass an authentication process, communication with the server cannot be carried out, authentication failure information is returned to the intelligent optical network equipment, wherein the SN domain is used for marking an equipment factory leaving sequence, and the SNPW domain is used for marking a factory leaving sequence secret key.

7. The intelligent optical network device-based multi-terminal device management system according to claim 6, wherein: the intelligent optical network device comprises:

the operation control instruction receiving unit is used for receiving a terminal equipment operation control instruction sent by the server;

an instruction execution unit for controlling the terminal device based on the received instruction;

the terminal equipment data acquisition unit is used for acquiring the attribute information, the acquired data and the working state of the terminal equipment;

the terminal equipment data processing unit is used for identifying and processing the acquired data;

and the operation control instruction execution result sending unit is used for sending the attribute information of the terminal equipment, the acquired data identification processing result and the working state data to the server.

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