CN114827188B - Platform equipment management method, system, terminal and storage medium - Google Patents

Abstract

The application relates to the technical field of public transportation operation management, in particular to a platform equipment management method, a system, a terminal and a storage medium, which aim to solve the problems that the communication cost is high and the communication efficiency is low in the prior art; packaging the equipment data into a communication data packet and sending the communication data packet to a back-end management server; after receiving the communication data packet, analyzing the communication data packet to obtain equipment data; acquiring a response instruction corresponding to the equipment data, binding the response instruction with the equipment identification code of the target station equipment, packaging the response instruction into a response data packet, and transmitting the response data packet to the station central control server; the received response data packet is analyzed to obtain a response instruction, and the response instruction is sent to the target station equipment based on the equipment identification code.

Description

Platform equipment management method, system, terminal and storage medium

Technical Field

The present disclosure relates to the technical field of public transportation operation management, and in particular, to a method, a system, a terminal, and a storage medium for managing platform devices.

Background

Traffic stations are an important infrastructure construction for cities. The station construction is a major investment construction project in the aspect of urban public utilities, has great influence on various aspects of cities, and in order to improve the practical application value of the traffic station, a plurality of devices with different functions are generally arranged in the process of designing and constructing the traffic station, so that the monitoring and management of the station work stations are realized with the assistance of the plurality of devices, and the effects of reasonably configuring lines, distributing vehicles and improving the effective configuration of traffic resources on the basis of limited station space and the number of operating vehicles in an area are finally achieved.

At present, different devices arranged in a traffic station are generally connected with a central control server at the rear end independently, and are managed and controlled by the central control server.

In carrying out the present application, the inventors have found that the above-described technique has at least the following problems:

different devices in the traffic station are respectively and independently connected with the central control server, so that the communication cost between the traffic station and the rear end is high, and the problem of low communication efficiency is easily caused.

Disclosure of Invention

In order to improve communication efficiency between a traffic station and a back end and reduce communication cost, the application provides a station equipment management method, a system, a terminal and a storage medium.

In a first aspect, the present application provides a method for managing a station device, which adopts the following technical scheme:

the platform equipment management method is realized based on a platform central control server and a back-end management server, wherein the platform central control server and the back-end management server are in communication connection based on the same communication protocol, and the platform equipment management method comprises the following steps:

the station center control server acquires equipment data sent by target station equipment;

the station central control server encapsulates equipment data into a communication data packet based on a preset communication protocol and sends the communication data packet to the back-end management server;

after receiving the communication data packet, the back-end management server analyzes the communication data packet based on the communication protocol to acquire the equipment data;

the back-end management server acquires a response instruction corresponding to the equipment data, binds the response instruction with the equipment identification code of the target station equipment and encapsulates the response instruction into a response data packet, and sends the response data packet to the station central control server;

and the station center control server analyzes the received response data packet to obtain a response instruction, and sends the response instruction to target station equipment based on the equipment identification code.

By adopting the technical scheme, the platform center control server is additionally arranged between the platform equipment and the rear end management server, the center control server is used for receiving data required to be sent by the platform equipment, the center control is used for realizing communication connection with the center control server, the situation that the platform equipment is singly connected with the rear end server is replaced, the center control is used for transferring, the construction cost of a communication line is reduced, meanwhile, the communication efficiency between the platform equipment and the rear end server is improved, the center control server and the rear end management server use the same communication protocol, the accuracy of data circulation is guaranteed, the equipment data can be accurately conveyed, and the data processing efficiency is improved.

In a specific embodiment, the step of the station central control server encapsulating the device data into a communication data packet based on a preset communication protocol, and sending the communication data packet to the back-end management server includes:

the station central control server extracts a content abstract of the equipment data based on a preset abstract algorithm;

the station center control server encapsulates the equipment data and the corresponding content abstract into a communication data packet based on a preset communication protocol;

and the station central control server sends the communication data packet to a back-end management server.

By adopting the technical scheme, the content abstract in the equipment data is extracted before data transmission, so that the content of the transmitted equipment data can be quickly known under the condition that the station center control server manages a plurality of station equipment, and the management efficiency of the equipment data can be conveniently improved.

In a specific implementation manner, after the back-end management server receives the communication data packet, parsing the communication data packet based on the communication protocol to obtain the device data includes:

after receiving the communication data packet, the back-end management server analyzes the communication data packet based on the communication protocol to acquire the equipment data and the content abstract;

and the back-end management server stores the equipment data into a processing queue corresponding to the content abstract based on the content abstract.

By adopting the technical scheme, the processing queue of the equipment data is accurately positioned through the content abstract before the equipment data is processed, so that the equipment data of the same type can be uniformly processed, the situation that the back-end management server needs to process the equipment data in sequence after receiving a large amount of data simultaneously is replaced, and the efficiency of the back-end management server for receiving and processing the equipment data is improved by adopting classification processing.

In a specific embodiment, the method further comprises:

the platform central control server acquires the program version information of the target equipment according to a preset updating period and sends the program version information to a back-end management server;

the back-end management server checks the program version information and the latest program version of the target device;

and if the program version information is lower than the latest program version, sending a program update packet corresponding to the target equipment to the station central control server.

By adopting the technical scheme, the program version of the platform equipment is periodically compared and updated, so that the program version of the platform equipment is kept in the latest state, the stability of the functions of the platform equipment is conveniently maintained, the same version of data processing received by the rear-end management server is maintained, and the data management and the platform monitoring of the traffic platform are assisted.

In a specific implementation manner, after the back-end management server receives the communication data packet, parsing the communication data packet based on the communication protocol to obtain the device data includes:

after receiving the communication data packet, the back-end management server stores the communication data packet into a receiving queue;

the back-end management server sequentially transfers the communication data packets from the receiving queue to a processing queue for analysis, and the equipment data are obtained;

the receive queue is set asynchronously with the process queue.

By adopting the technical scheme, after the back-end management server receives the communication data packet, the receiving and processing of the communication data packet are in two asynchronous sequences, so that the situation that the back-end management server needs to receive and process simultaneously is avoided, and further the efficiency of receiving messages of the back-end management server is improved, and meanwhile, the processing efficiency of the back-end management server is guaranteed.

In a specific implementation manner, after the back-end management server receives the communication data packet, parsing the communication data packet based on the communication protocol to obtain the device data includes:

identifying an urgent identifier in the communication data packet;

if the communication data packet comprises an emergency mark, storing the communication data packet into an emergency queue for processing;

the urgent queue has a higher priority than the process queue.

By adopting the technical scheme, when urgent data needs to be processed preferentially, the set urgent queue can enable the urgent data to be processed as soon as possible with the priority higher than that of the processing queue, and the flexibility of communication between the station central control server and the rear end management server is improved.

In a second aspect, the present application provides a platform device management system, which adopts the following technical scheme:

a station equipment management system, the system comprising a station central control server and a backend management server:

the station center control server is used for acquiring equipment data sent by target station equipment;

the station central control server is used for packaging equipment data into communication data packets based on a preset communication protocol and sending the communication data packets to the back-end management server;

the back-end management server is used for analyzing the communication data packet based on the communication protocol after receiving the communication data packet so as to acquire the equipment data;

the back-end management server is used for acquiring a response instruction corresponding to the equipment data, binding the response instruction with the equipment identification code of the target station equipment, packaging the response instruction into a response data packet, and sending the response data packet to the station central control server;

the station center control server is used for analyzing the received response data packet to obtain a response instruction, and sending the response instruction to the target station equipment based on the equipment identification code.

By adopting the technical scheme, the platform center control server is additionally arranged between the platform equipment and the rear end management server, the center control server is used for receiving data required to be sent by the platform equipment, the center control is used for realizing communication connection with the center control server, the situation that the platform equipment is singly connected with the rear end server is replaced, the center control is used for transferring, the construction cost of a communication line is reduced, meanwhile, the communication efficiency between the platform equipment and the rear end server is improved, the center control server and the rear end management server use the same communication protocol, the accuracy of data circulation is guaranteed, the equipment data can be accurately conveyed, and the data processing efficiency is improved.

In a third aspect, the present application provides an intelligent terminal, which adopts the following technical scheme:

a smart terminal comprising a processor and a memory having stored therein at least one instruction, at least one program, code set or instruction set loaded and executed by the processor to implement a station apparatus management method according to any of the first aspects.

By adopting the technical scheme, the processor in the intelligent terminal can realize the platform equipment management method according to the related computer program stored in the memory, so that the communication efficiency between the traffic station and the rear end is improved, and the communication cost is reduced.

In a fourth aspect, the present application provides a computer readable storage medium, which adopts the following technical scheme:

a computer readable storage medium having stored therein at least one instruction, at least one program, code set, or instruction set loaded and executed by a processor to implement a station apparatus management method according to any of the first aspects.

By adopting the technical scheme, corresponding programs can be stored, so that the communication efficiency between the traffic station and the rear end is improved, and the communication cost is reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the platform center control server is additionally arranged between the platform equipment and the back end management server, data needing to be sent by the platform equipment are received through the platform center control server, communication connection with the center control server is realized through the platform center control, the situation that the platform equipment is singly connected with the back end server is replaced, transfer is conducted through the platform center control, construction cost of a communication line is reduced, meanwhile, communication efficiency between the platform equipment and the back end server is improved, the same communication protocol is used between the platform center control server and the back end management server, accuracy of data circulation is guaranteed, accurate communication of equipment data is guaranteed, and further data processing efficiency is improved;

2. before the equipment data is processed, the processing queue of the equipment data is accurately positioned through the content abstract, so that the equipment data of the same type can be uniformly processed, the situation that the back-end management server needs to process in sequence after receiving a large amount of data simultaneously is replaced, and the classification processing is adopted to improve the efficiency of the back-end management server in receiving and processing the equipment data;

3. after the back-end management server receives the communication data packet, the receiving and processing of the communication data packet are in two asynchronous sequences, so that the situation that the back-end management server needs to receive and process at the same time is avoided, and further the processing efficiency of the back-end management server is guaranteed while the efficiency of receiving the information of the back-end management server is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a block diagram of a station device management system according to an embodiment of the present application;

fig. 2 is a method flowchart of a method for managing a station device according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of an intelligent terminal in an embodiment of the present application.

Detailed Description

The present embodiments are to be considered as merely illustrative and not restrictive, and modifications may occur to those skilled in the art upon reading the present specification and may be made without inventive faculty thereto, and it is to be understood that the embodiments are to be considered as part of the embodiments, rather than all of them, unless they are to be protected by the patent laws in the scope of the appended claims.

The embodiment of the application provides a platform equipment management method, which can be applied to a platform equipment management system, wherein an execution subject can be a platform central control server and a back-end management server and is assisted by platform equipment. As can be seen in fig. 1. The platform equipment management system comprises a platform central control server, wherein the platform central control server is in communication connection with platform equipment corresponding to a platform, and the platform equipment comprises all equipment which is arranged on the platform and needs to be controlled and equipment with monitoring and data feedback functions, and can be platform light equipment, platform sound box equipment, electronic stop board equipment, platform monitoring equipment and the like. The station center control server is connected with the station equipment through a unified communication port, and can assign port byte hexadecimal representation, such as: 0*1234. The platform equipment management system also comprises a rear end management server, wherein the rear end management server is in remote connection with the platform central control server, so that the platform central control server can be connected with the network module in a communication manner so as to be connected with the rear end management server, and the rear end management server is used for receiving data sent by the platform central control server and storing or responding. It should be emphasized that the same communication protocol is used by the station equipment, the station center server and the back-end management server to constrain the data specifications for communication.

The process flow shown in fig. 2 will be described in detail with reference to the specific embodiments, and the following may be included:

in step 201, the sta central server acquires device data transmitted from the target sta device.

In implementation, the central control server of the station may receive, through the communication port, device data sent by the station device having the information collecting and sending functions, where the specific device data may be operation data of the station device itself, or data collected by the station device during operation.

Step 202, the station central control server encapsulates the device data into a communication data packet based on a preset communication protocol, and sends the communication data packet to the back-end management server.

In an implementation, after the station central control server receives the device data, in order to implement management of the station device, the device data needs to be sent to a backend management server to implement unified management and control. The station central control server can encapsulate the equipment data into communication data packets based on a preset communication protocol, and the format specification of the encapsulated communication data packets is matched with that of the back-end management server, so that the back-end management server can receive and process the equipment data conveniently. Specifically, the communication protocol at least includes:

the receiving end information, means the equipment information for receiving the communication data, includes: a device code, a password;

the sender information refers to a software command code for sending the communication data, and is used for distinguishing which station sends the data, and the method comprises the following steps: an information code;

the instruction information, the concrete meaning of the communication data includes: instruction classification, instruction content and instruction parameters;

data information: data length, data content.

In this way, the sta-tion central server can convert the device data into communication data packets according to a predetermined communication protocol.

In one embodiment, the communication data packet in the package is difficult to identify and process, and is easy to reduce the processing efficiency of the data, so that the following processing may be included in step 202: the station central control server extracts a content abstract of the equipment data based on a preset abstract algorithm; the station center control server encapsulates the equipment data and the corresponding content abstract into a communication data packet based on a preset communication protocol; and the station central control server sends the communication data packet to a back-end management server.

Specifically, the abstract algorithm used by the station central control server can call the SHA256 algorithm, so that abstract extraction of data content is realized.

Therefore, the method is beneficial to quickly knowing the content of the transmitted device data under the condition that the station central control server manages a plurality of station devices, and is convenient for improving the management efficiency of the device data.

In one embodiment, the post-processing efficiency of the backend management server for centrally receiving the communication data packets is low, so the following processing may be included in step 202: after receiving the communication data packet, the back-end management server analyzes the communication data packet based on the communication protocol to acquire the equipment data and the content abstract; and the back-end management server stores the equipment data into a processing queue corresponding to the content abstract based on the content abstract.

In implementation, the processing queues may be categorized according to the device type, or may be categorized according to the processing requirements of the communication data.

Thus, instead of the situation that the back-end management server needs to process the data sequentially after receiving a large amount of data simultaneously, the classification processing is adopted to help improve the efficiency of the back-end management server in receiving and processing the equipment data.

And 203, after receiving the communication data packet, the back-end management server analyzes the communication data packet based on the communication protocol to acquire the equipment data.

In one embodiment, the centralized processing is inefficient after the backend management server receives the communication data packet, so accordingly, step 203 may include the following processing: after receiving the communication data packet, the back-end management server stores the communication data packet into a receiving queue; the back-end management server sequentially transfers the communication data packets from the receiving queue to a processing queue for analysis, and the equipment data are obtained; the receive queue is set asynchronously with the process queue.

Thus, the situation that the processing is carried out while receiving is avoided, and the processing efficiency of the back-end management server is guaranteed while the efficiency of receiving the message of the back-end management server is improved.

In one embodiment, the communication data of the emergency needs to be processed preferentially, so the following processing may be further included in step 203 correspondingly: identifying an urgent identifier in the communication data packet; if the communication data packet comprises an emergency mark, storing the communication data packet into an emergency queue for processing; the urgent queue has a higher priority than the process queue.

Therefore, when urgent data needs to be processed preferentially, the set urgent queue can be processed as soon as possible with a priority higher than that of the processing queue, and the flexibility of communication between the station central control server and the back-end management server is improved.

Step 204, the back-end management server obtains a response instruction corresponding to the device data, binds the response instruction with the device identification code of the target station device and encapsulates the response instruction into a response data packet, and sends the response data packet to the station central control server.

In implementation, after the back-end management server obtains the response instruction, the back-end management server may generate, according to the received device data, a device identifier corresponding to the target station device, where the device identifier corresponds to the target station device one-to-one. After binding the response command and the equipment identification code, the back-end management server can adopt a preset communication protocol to package the response command and the equipment identification code into a response data packet, and then can send the response data packet to the station central control server through the wireless network port.

Thus, the station center control server can receive the returned response data packet at one time, which is beneficial to improving the communication efficiency between the station center control server and the back-end management server.

In step 205, the sta central control server parses the received response data packet to obtain a response command, and sends the response command to the target sta device based on the device id.

In implementation, the device identification codes are in one-to-one correspondence with the target station devices, so that the station center control server can associate the response instruction with the target station devices through the device identification codes and appoint to send the response instruction, and further accurate data distribution of the station center control server is facilitated.

Based on the same technical concept, the embodiment of the invention also provides a platform equipment management system, which comprises a platform central control server and a back-end management server:

the station center control server is used for acquiring equipment data sent by the target station equipment;

the station center control server is used for packaging equipment data into communication data packets based on a preset communication protocol and sending the communication data packets to the back-end management server;

the back-end management server is used for analyzing the communication data packet based on the communication protocol after receiving the communication data packet so as to acquire the equipment data;

the back-end management server is used for acquiring a response instruction corresponding to the equipment data, binding the response instruction with the equipment identification code of the target station equipment, packaging the response instruction into a response data packet, and sending the response data packet to the station central control server;

and the station center control server is used for analyzing the received response data packet to obtain a response instruction, and transmitting the response instruction to the target station equipment based on the equipment identification code.

In a specific embodiment, the station-centering server is further configured to: extracting a content abstract of the equipment data based on a preset abstract algorithm; packaging the equipment data and the corresponding content abstract into a communication data packet based on a preset communication protocol; and sending the communication data packet to a back-end management server.

In a specific embodiment, the back-end management server is further configured to, after receiving the communication data packet, parse the communication data packet based on the communication protocol, and obtain the device data and the content abstract; and storing the equipment data into a processing queue corresponding to the content abstract based on the content abstract.

In a specific embodiment, the platform central control server is further configured to obtain program version information of the target device according to a preset update period, and send the program version information to the back-end management server;

the back-end management server is also used for checking the program version information and the latest program version of the target device; and if the program version information is lower than the latest program version, sending a program update packet corresponding to the target equipment to the station central control server.

In a specific embodiment, the back-end management server is further configured to store the communication data packet in a receiving queue after receiving the communication data packet; sequentially transferring the communication data packets from the receiving queue to a processing queue for analysis, and obtaining the equipment data; the receive queue is set asynchronously with the process queue.

In a specific embodiment, the backend management server is further configured to identify an emergency identifier in the communication data packet; if the communication data packet comprises an emergency mark, storing the communication data packet into an emergency queue for processing; the priority of the urgent queue is higher than the process queue.

The embodiment of the application also discloses an intelligent terminal, referring to fig. 3, the intelligent terminal comprises a memory and a processor, and the memory stores a computer program capable of being loaded by the processor and executing a platform equipment management method as described above.

Based on the same technical concept, the embodiments of the present application also disclose a computer readable storage medium, which includes steps capable of being loaded and executed by a processor to implement a platform device management method as described above.

The computer-readable storage medium includes, for example: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

It will be clearly understood by those skilled in the art that, for convenience and simplicity of description, only the above-mentioned division of each functional module is illustrated, in practical application, the above-mentioned functional allocation may be performed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules to perform all or part of the above-mentioned functions, and the specific working processes of the above-mentioned system, device and unit may refer to the corresponding processes in the foregoing method embodiments, which are not repeated herein.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding that the technical solution of the present application is essentially or partly contributing to the prior art or all or part of the technical solution may be embodied in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) or a processor (processor) to perform all or part of the steps of the methods of the embodiments of the present application. And the aforementioned storage medium includes: various media capable of storing program codes, such as a U disk, a mobile hard disk, a read-only memory, a random access memory, a magnetic disk or an optical disk.

The foregoing embodiments are only used for describing the technical solution of the present application in detail, but the descriptions of the foregoing embodiments are only used for helping to understand the method and the core idea of the present application, and should not be construed as limiting the present application. Variations or alternatives that are readily contemplated by those skilled in the art within the scope of the present disclosure are intended to be encompassed within the scope of the present disclosure.

Claims (6)

1. The platform equipment management method is characterized by being realized based on a platform central control server and a back-end management server, wherein the platform central control server and the back-end management server are in communication connection based on the same communication protocol, and the platform equipment management method comprises the following steps:

the station center control server acquires equipment data sent by target station equipment;

the station central control server encapsulates equipment data into a communication data packet based on a preset communication protocol and sends the communication data packet to the back-end management server;

after receiving the communication data packet, the back-end management server analyzes the communication data packet based on the communication protocol to acquire the equipment data;

the back-end management server acquires a response instruction corresponding to the equipment data, binds the response instruction with the equipment identification code of the target station equipment and encapsulates the response instruction into a response data packet, and sends the response data packet to the station central control server;

the station center control server analyzes the received response data packet to obtain a response instruction, and sends the response instruction to target station equipment based on the equipment identification code;

the platform central control server encapsulates the equipment data into a communication data packet based on a preset communication protocol, and sends the communication data packet to the back-end management server, which comprises the following steps: the station central control server extracts a content abstract of the equipment data based on a preset abstract algorithm; the station center control server encapsulates the equipment data and the corresponding content abstract into a communication data packet based on a preset communication protocol; the station central control server sends the communication data packet to a back-end management server;

after the back-end management server receives the communication data packet, analyzing the communication data packet based on the communication protocol to obtain the device data includes: after receiving the communication data packet, the back-end management server analyzes the communication data packet based on the communication protocol to acquire the equipment data and the content abstract; the back-end management server stores the equipment data into a processing queue corresponding to the content abstract based on the content abstract; the processing queues are classified according to the equipment types or according to the processing requirements of the communication data;

after the back-end management server receives the communication data packet, analyzing the communication data packet based on the communication protocol to obtain the device data includes: the back-end management server identifies the emergency identifier in the communication data packet; if the communication data packet comprises an emergency mark, storing the communication data packet into an emergency queue for processing; the urgent queue has a higher priority than the process queue.

2. A station apparatus management method according to claim 1, wherein: the method further comprises the steps of:

the platform central control server acquires program version information of target equipment according to a preset updating period and sends the program version information to a back-end management server;

the back-end management server checks the program version information and the latest program version of the target device;

and if the program version information is lower than the latest program version, sending a program update packet corresponding to the target equipment to the station central control server.

3. A station apparatus management method according to claim 1, wherein: after the back-end management server receives the communication data packet, analyzing the communication data packet based on the communication protocol to obtain the device data includes:

after receiving the communication data packet, the back-end management server stores the communication data packet into a receiving queue;

the back-end management server sequentially transfers the communication data packets from the receiving queue to a processing queue for analysis, and the equipment data are obtained;

the receive queue is set asynchronously with the process queue.

4. A station equipment management system, characterized in that: the system comprises a platform central control server and a back-end management server:

the station center control server is used for acquiring equipment data sent by target station equipment;

the station central control server is used for packaging equipment data into communication data packets based on a preset communication protocol and sending the communication data packets to the back-end management server;

the back-end management server is used for analyzing the communication data packet based on the communication protocol after receiving the communication data packet so as to acquire the equipment data;

the back-end management server is used for acquiring a response instruction corresponding to the equipment data, binding the response instruction with the equipment identification code of the target station equipment, packaging the response instruction into a response data packet, and sending the response data packet to the station central control server;

the station center control server is used for analyzing the received response data packet to obtain a response instruction, and transmitting the response instruction to target station equipment based on the equipment identification code;

the platform central control server is configured to encapsulate device data into a communication data packet based on a preset communication protocol, and send the communication data packet to the back-end management server, where the platform central control server includes: the station central control server extracts a content abstract of the equipment data based on a preset abstract algorithm; the station center control server encapsulates the equipment data and the corresponding content abstract into a communication data packet based on a preset communication protocol; the station central control server sends the communication data packet to a back-end management server;

the back-end management server is configured to parse the communication data packet based on the communication protocol after receiving the communication data packet, so as to obtain the device data, and includes: after receiving the communication data packet, the back-end management server analyzes the communication data packet based on the communication protocol to acquire the equipment data and the content abstract; the back-end management server stores the equipment data into a processing queue corresponding to the content abstract based on the content abstract; the processing queues are classified according to the equipment types or according to the processing requirements of the communication data;

the back-end management server is configured to parse the communication data packet based on the communication protocol after receiving the communication data packet, so as to obtain the device data, and includes: the back-end management server identifies the emergency identifier in the communication data packet; if the communication data packet comprises an emergency mark, storing the communication data packet into an emergency queue for processing; the urgent queue has a higher priority than the process queue.

5. A smart terminal, characterized in that it comprises a processor and a memory, said memory storing at least one instruction, at least one program, a set of codes or a set of instructions, said at least one instruction, said at least one program, said set of codes or set of instructions being loaded and executed by said processor to implement a station device management method according to any one of claims 1 to 3.

6. A computer readable storage medium having stored therein at least one instruction, at least one program, code set or instruction set, the at least one instruction, the at least one program, the code set or instruction set being loaded and executed by a processor to implement a station apparatus management method according to any one of claims 1 to 3.