CN110910048B - Railway work site operation monitoring command method and system - Google Patents

Abstract

The invention discloses a railway work site operation monitoring command method and a system, wherein a railway work database is established for a server side, conventional configuration and special configuration of operation steps are carried out, conventional configuration and special configuration are carried out on execution actions under the operation steps, a railway work project plan is analyzed, project names in the project plan are obtained, project data in the project plan and all operation step data under the project data are inquired according to the project names, the conventional configuration is sent to a handheld terminal, feedback information is received by the handheld terminal, whether external special events are received or not is monitored, if yes, the special configuration is sent to the handheld terminal, the operation steps of the special configuration and the existing operation steps of the handheld terminal are fused to generate new operation steps, the handheld terminal sends the execution feedback information to the server side, and the system is provided with the server side and a plurality of handheld terminals and has the advantages of flexible operation flow configuration and automatic special condition adjustment.

Description

Railway work site operation monitoring command method and system

Technical Field

The invention belongs to the technical field of daily maintenance of railways, and particularly relates to a railway work site operation monitoring command method and system.

Background

Each operation plan has a definite operation flow in the railway operation site operation, and the current operation is to make up the basic information and operation flow of the operation plan in advance. The working agent receives the working information at the handheld terminal, works according to the determined working flow, receives the working information by the site guard, the station guard and the remote guard, and performs corresponding protection work according to the working condition. Each step in the workflow has a plurality of fixed execution actions to be executed, such as photographing, recording, video recording, applying for command numbers, RFID work tool scanning, etc. Because the operation flow steps and the execution actions of the operation steps are fixed, flexible regulation and control cannot be performed according to the operation tasks and specific conditions, and when special conditions such as heavy rain, snow storm, hail and the like always occur in the operation process, rail breakage and the like occur on special weather or peripheral rails, the operation process cannot be adjusted timely.

Disclosure of Invention

In order to solve the problems, the invention provides a method and a system for monitoring and commanding operation of a locomotive and railway working site, which have the advantages of flexible configuration of working steps and automatic adjustment of special conditions.

The invention is realized by the following technical scheme:

a monitoring and commanding method for railway service site operation comprises the following steps,

s1): a railway working site operation database is established at a server, and the railway working site operation database comprises operation project data, operation step data and execution action data;

s2): the server side performs conventional configuration of operation steps of the operation project, and performs conventional configuration of execution actions under the operation steps; in addition, the special event operation step configuration is carried out, and meanwhile, the execution action under the special event operation step is configured;

s3): the method comprises the steps that a server analyzes a project plan of a railway working site and obtains project names in the project plan;

s4): the server side queries project data in the database according to the project names, queries all default operation step data belonging to the project data according to the project data, and adjusts operation steps and execution actions according to the actual conditions of the project;

s5): the server side sends the conventionally configured operation steps and the conventionally configured execution actions to the handheld terminal, and meanwhile receives the execution feedback information of the handheld terminal;

s6): the server monitors whether an external special event is received or not in real time, if so, the method goes to S7), and monitoring is continuously executed.

S7): the method comprises the steps that a server sends a special configuration operation step and a special configuration execution action to a handheld terminal related to a special event, the handheld terminal fuses the special configuration operation step and an existing operation step of the handheld terminal to generate a new operation step, and meanwhile the handheld terminal sends execution feedback information to the server, wherein the related handheld terminal is the handheld terminal which is executing the operation.

In step S1), the project data, the job step data and the execution action data are all data table structures, wherein the project data structures include project IDs, project names and project levels; the operation step structure data comprises a step ID, a step belonging item ID, a step name, a step sequence number, an execution action, executor information, an execution condition and whether the execution passes or not; the execution action data structure includes an execution action name and an execution action identification.

In step S2), the conventional configuration and special configuration method of the execution action are binding the action identifier with the execution action in the step data structure, and the special configuration method of the job step is configuring the execution condition in the job step data as a special event.

In step S3), the analysis of the railway job site project plan includes the steps of:

a1 A) of: establishing a data table structure of a project plan, wherein the data table structure of the project plan comprises a job project field;

a2 A) of: the job item names are sequentially extracted from the job item fields.

In step S4), all the job steps under the project data are searched according to whether the project ID to which the step belongs matches the project ID in the project data, and if so, the job step under the project data to which the step belongs.

In step S6), the external special events include bad weather, natural disasters and rail line faults.

In step S4), the job step and the execution action are specifically:

b1 A) of: the service end increases or decreases the operation steps or execution actions under the item;

b2 A) of: the server marks one or more operation steps or execution actions;

b3 A) of: the server reorders the job steps or execution actions.

In step s 7), the handheld terminal fuses the specially configured operation step and the existing operation step of the handheld terminal to generate a new operation step, wherein the method comprises the steps that the handheld terminal judges whether the names of the specially configured operation step and the existing operation step are the same or not, and if so, the specially configured operation step is replaced by the existing operation step; if the two steps are different, adding the special operation step to the existing operation step.

The railway work site operation monitoring command system comprises a service end and a plurality of handheld terminals, wherein the handheld terminals are in wireless communication connection with the service end, the service end comprises a project plan analysis module, a query module, a configuration module, a special work configuration module, an external signal receiving module, a sending module and a receiving module,

project plan analysis module: for analyzing a project name to be worked from the imported project plan;

and a query module: the method comprises the steps of inquiring all job steps under the project name according to the project name, and inquiring an execution action list;

and (3) a configuration module: conventional configurations for job steps and execution actions under a job project;

special service configuration module: special configuration for job steps and execution actions under the job project;

an external signal receiving module: the system comprises a receiving module, a receiving module and a processing module, wherein the receiving module is used for receiving external weather information and track line state information;

and a sending module: the method comprises the steps of sending a job project name, a job step and an execution action to a handheld terminal;

and a receiving module: and the feedback information is used for receiving the operation steps and the execution actions sent by the handheld terminal.

The invention discloses a railway work field operation monitoring command method and a system, wherein information of operation items, operation steps and execution actions in railway work is stored in a database according to a structural form of a data table, and the association among the operation items, the operation steps and the execution actions is established according to field information in the data table, a server system analyzes the names of the operation items to be performed according to an imported operation item plan, inquires the operation steps under all the item names in the database according to the names of the operation items, selects one or more operation steps from the inquired operation items to sort or mark according to different railway work areas and operation requirements, finally selects the execution actions from the execution action data to be bound to the selected operation steps, and sends the generated operation flow to a handheld terminal. The invention has the advantages that the steps of the operation flow are flexibly configured, different operation tasks can be configured with different execution steps, and the system is automatically adjusted under special conditions.

Drawings

Fig. 1 is a flow chart of a railway work site operation monitoring and commanding method.

FIG. 2 is a schematic diagram of a job project data table structure.

FIG. 3 is a schematic diagram of a job step data table structure.

FIG. 4 is a schematic diagram of an execution action data table structure.

Fig. 5 is a schematic structural diagram of a railway work site operation monitoring command system.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the present invention. It is evident that the described embodiment examples are only some, but not all, embodiments of the invention, and that all other embodiments, based on the embodiments of the invention, which a person skilled in the art would obtain without making any inventive effort, are within the scope of protection of the invention.

As shown in fig. 1, a method for monitoring and commanding operation of a railway working site comprises the following steps,

s1): a railway working site operation database is established at a server, and the railway working site operation database comprises operation project data, operation step data and execution action data;

s2): the server side performs conventional configuration of operation steps of the operation project, and performs conventional configuration of execution actions under the operation steps; in addition, the special event operation step configuration is carried out, and meanwhile, the execution action under the special event operation step is configured;

s3): the method comprises the steps that a server analyzes a project plan of a railway working site and obtains project names in the project plan;

s4): the server side queries project data in the database according to the project names, queries all default operation step data belonging to the project data according to the project data, and adjusts operation steps and execution actions according to the actual conditions of the project;

s5): the server side sends the conventionally configured operation steps and the conventionally configured execution actions to the handheld terminal, and meanwhile receives the execution feedback information of the handheld terminal;

s6): the server monitors whether an external special event is received or not in real time, if the external special event is monitored, the method goes to S7), and monitoring is continuously executed;

s7): the method comprises the steps that a server sends a special configuration operation step and a special configuration execution action to a handheld terminal related to a special event, the handheld terminal fuses the special configuration operation step and an existing operation step of the handheld terminal to generate a new operation step, and meanwhile the handheld terminal sends execution feedback information to the server, wherein the related handheld terminal is the handheld terminal which is executing the operation.

In step S1), the project data, the job step data and the execution action data are all data table structures, wherein the project data structures include project IDs, project names and project levels; the operation step structure data comprises a step ID, a step belonging item ID, a step name, a step sequence number, an execution action, executor information, an execution condition and whether the execution passes or not; the execution action data structure includes an execution action name and an execution action identification.

In step S2), the conventional configuration and special configuration method of the execution action are binding the action identifier with the execution action in the step data structure, and the special configuration method of the job step is configuring the execution condition in the job step data as a special event.

In step S3), the analysis of the railway job site project plan includes the steps of:

a1 A) of: establishing a data table structure of a project plan, wherein the data table structure of the project plan comprises a job project field;

a2 A) of: the job item names are sequentially extracted from the job item fields.

In step S4), all the job steps under the project data are searched according to whether the project ID to which the step belongs matches the project ID in the project data, and if so, the job step under the project data to which the step belongs.

In step S6), the external special events include bad weather, natural disasters and rail line faults.

In step S4), the job step and the execution action are specifically:

b1 A) of: the service end increases or decreases the operation steps or execution actions under the item;

b2 A) of: the server marks one or more operation steps or execution actions;

b3 A) of: the server reorders the job steps or execution actions.

In step s 7), the handheld terminal fuses the specially configured operation step and the existing operation step of the handheld terminal to generate a new operation step, wherein the method comprises the steps that the handheld terminal judges whether the names of the specially configured operation step and the existing operation step are the same or not, and if so, the specially configured operation step is replaced by the existing operation step; if the two steps are different, adding the special operation step to the existing operation step.

Fig. 2 is a schematic diagram of a data table structure of a job item, including an item ID, where the item ID is a unique code for distinguishing the job item from other job items, and an item name "line inspection" is able to identify and match with a job item name analyzed in a project plan, and whether an important item indicates whether the level of the item is important or not.

As shown in fig. 3, a schematic diagram of a data table structure of a working step includes a step ID, where the step ID is a unique code for distinguishing the working step from the other steps, the item ID indicates that the working step belongs to one working item, the item ID of the item step in the figure is "1" to know that the working step belongs to a "line inspection" item, the execution actions "2,4,5" are execution marks of the execution actions configured in the step, and as shown in fig. 4, the execution actions marked as "2", "4" and "5" are recording, RFID scanning and text, respectively, and the execution conditions are field options when special configuration or normal configuration is performed, and if the special configuration is performed, bad weather, natural disasters and track line faults are written into the field, and whether the service side is through the evaluation of the working step.

As shown in fig. 5, the railway work site operation monitoring command system comprises a service end 1 and a plurality of handheld terminals 2, wherein the handheld terminals 2 are in wireless communication connection with the service end 1, and the service end 1 comprises a project plan analysis module 9, a query module 8, a configuration module 5, a special work configuration module 6, an external signal receiving module 7, a sending module 4 and a receiving module 3;

project plan analysis module 9: for analyzing a project name to be worked from the imported project plan;

query module 8: the method comprises the steps of inquiring all job steps under the project name according to the project name, and inquiring an execution action list;

configuration module 5: conventional configurations for job steps and execution actions under a job project;

special service configuration module 6: special configuration for job steps and execution actions under the job project;

the external signal receiving module 7: the system comprises a receiving module, a receiving module and a processing module, wherein the receiving module is used for receiving external weather information and track line state information;

the sending module 4: the method comprises the steps of sending a job project name, a job step and an execution action to a handheld terminal;

receiving module 3: and the feedback information is used for receiving the operation steps and the execution actions sent by the handheld terminal.

The working process of the railway work site operation monitoring command system is as follows:

the project plan is imported into the server side 1, the project analysis module 9 in the server side 1 analyzes the project plan, the names of the job projects are obtained from the project plan, all job steps under the job projects are inquired out of the database through the inquiry module 8 according to the obtained job project names, and all execution actions are inquired out.

The method comprises the steps of manually selecting operation steps and executing actions according to different railway work areas and operation requirements, and performing conventional configuration of the operation steps through a configuration module 5, wherein the conventional configuration comprises increase and decrease of the operation steps, sequencing of the operation steps and marking of the operation steps, the marked operation steps are steps of service end key detection, the operation of the next step can be performed only after a handheld end executes feedback results and is qualified, the marking of the operation steps is also marked according to different grades and requirements of operation items, and the configuration of special operation steps and executing actions is performed through a special operation configuration module 6.

After the conventional configuration is completed, the project flow is sent to the handheld terminal 2 through the sending module 4, then railway staff performs railway work according to the project flow, and after the corresponding work steps are completed, the handheld terminal 2 feeds back the work result to the receiving module 3 of the server side 1 for evaluation.

The external signal receiving module 7 may obtain weather forecast information and railway track information, and when the weather is bad, such as heavy rain, heavy snow, hail, and the track breaks, the external signal receiving module 7 triggers the special work configuration module 6 to send the configured operation steps and execution actions to the handheld terminal 2, and the handheld terminal 2 performs corresponding railway operations and sends the operation status to the server in real time.

The technical means disclosed by the scheme of the invention is not limited to the technical means disclosed by the embodiment, and also comprises the technical scheme formed by any combination of the technical features. It should be noted that modifications and adaptations to the invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims (8)

1. A railway work site operation monitoring command method is characterized in that: comprises the following steps of the method,

s1): a railway working site operation database is established at a server, and the railway working site operation database comprises operation project data, operation step data and execution action data;

s2): the server side performs conventional configuration of operation steps of the operation project, and performs conventional configuration of execution actions under the operation steps; in addition, the special event operation step configuration is carried out, and meanwhile, the execution action under the special event operation step is configured;

s3): the method comprises the steps that a server analyzes a project plan of a railway working site and obtains project names in the project plan;

s4): the server side queries project data in the database according to the project names, queries all default operation step data belonging to the project data according to the project data, and adjusts operation steps and execution actions according to the actual conditions of the project;

s5): the server side sends the conventionally configured operation steps and the conventionally configured execution actions to the handheld terminal, and meanwhile receives the execution feedback information of the handheld terminal;

s6): the server monitors whether an external special event is received or not in real time, if the external special event is monitored, the method goes to S7), and monitoring is continuously executed;

s7): the method comprises the steps that a server side sends a special configuration operation step and a special configuration execution action to a handheld terminal related to a special event, the handheld terminal fuses the special configuration operation step and an existing operation step of the handheld terminal to generate a new operation step, and meanwhile the handheld terminal sends execution feedback information to the server side, wherein the related handheld terminal is the handheld terminal which is executing the operation;

the method for generating a new operation step by fusing the operation step of the special configuration with the existing operation step of the handheld terminal by the handheld terminal comprises the steps that the handheld terminal judges whether the names of the operation step of the special configuration are the same as the names of the existing operation step, and if so, the operation step of the special configuration is replaced with the existing operation step; if the two steps are different, adding the special operation step to the existing operation step.

2. The railway work site operation monitoring and commanding method according to claim 1, wherein the method comprises the following steps: in step S1), the project data, the job step data and the execution action data are all data table structures, wherein the project data structures include project IDs, project names and project levels; the operation step data structure comprises a step ID, an item ID of the step, a step name, a step sequence number, an execution action, executor information, an execution condition and whether the execution passes or not; the execution action data structure includes an execution action name and an execution action identification.

3. The railway work site operation monitoring and commanding method according to claim 2, wherein: in step S2), the conventional configuration and special configuration method of the execution action are binding the action identifier with the execution action in the step data structure, and the special configuration method of the job step is configuring the execution condition in the job step data as a special event.

4. The railway work site operation monitoring and commanding method according to claim 1, wherein the method comprises the following steps: in step S3), the analysis of the railway job site project plan includes the steps of:

a1 A) of: establishing a data table structure of a project plan, wherein the data table structure of the project plan comprises a job project field;

a2 A) of: the job item names are sequentially extracted from the job item fields.

5. The railway work site operation monitoring and commanding method according to claim 2, wherein: in step S4), all the job steps under the project data are searched according to whether the project ID to which the step belongs matches the project ID in the project data, and if so, the job step under the project data to which the step belongs.

6. The railway work site operation monitoring and commanding method according to claim 1, wherein the method comprises the following steps: in step S6), the external special events include bad weather, natural disasters and rail line faults.

7. The railway work site operation monitoring and commanding method according to claim 1, wherein the method comprises the following steps: in step S4), the job steps and execution actions are adjusted according to the project actual conditions:

b1 A) of: the service end increases or decreases the operation steps or execution actions under the item;

b2 A) of: the server marks one or more operation steps or execution actions;

b3 A) of: the server reorders the job steps or execution actions.

8. A railway work site operation monitoring and commanding system adopting the method as claimed in any one of claims 1-7, characterized in that: comprises a server and a plurality of handheld terminals, wherein the handheld terminals are in wireless communication connection with the server, the server comprises a project plan analysis module, a query module, a configuration module, a special work configuration module, an external signal receiving module, a transmitting module and a receiving module,

project plan analysis module: for analyzing a project name to be worked from the imported project plan;

and a query module: the method comprises the steps of inquiring all job steps under the project name according to the project name, and inquiring an execution action list;

and (3) a configuration module: conventional configurations for job steps and execution actions under a job project;

special service configuration module: special configuration for job steps and execution actions under the job project;

an external signal receiving module: the system comprises a receiving module, a receiving module and a processing module, wherein the receiving module is used for receiving external weather information and track line state information;

and a sending module: the method comprises the steps of sending a job project name, a job step and an execution action to a handheld terminal;

and a receiving module: the feedback information is used for receiving the operation steps and the execution actions sent by the handheld terminal;

the method for generating a new operation step by fusing the operation step of the special configuration with the existing operation step of the handheld terminal by the handheld terminal comprises the steps that the handheld terminal judges whether the names of the operation step of the special configuration are the same as the names of the existing operation step, and if so, the operation step of the special configuration is replaced with the existing operation step; if the two steps are different, adding the special operation step to the existing operation step.

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