CN115047849A - Data configuration method and device based on FAO ZC simulation test system - Google Patents

Abstract

The invention provides a data configuration method and a device based on a FAO ZC simulation test system, wherein the method comprises the following steps: acquiring initial engineering data, wherein the initial engineering data comprises at least one of train whole-line engineering data and engineering data of each linkage concentration region; performing logic calculation on the initial engineering data to obtain first engineering data, wherein the logic of the first engineering data corresponds to the data requirement of an FAO ZC simulation test system; and acquiring a configuration file based on the data requirement of the FAOZC simulation test system and the first engineering data, wherein the configuration file is a table file. The method of the invention improves the data generation and data conversion efficiency of the FAO ZC simulation test system, reduces the human resource consumption and the production cost for each project, and greatly improves the management capability, the stability and the universality of the data configuration of the FAO ZC simulation test system.

Description

Data configuration method and device based on FAO ZC simulation test system

Technical Field

The invention relates to the technical field of urban rail transit, in particular to a data configuration method and a data configuration device based on a FAO ZC simulation test system.

Background

The FAO (full Automatic Operation) system is a set of interconnected train full Automatic control systems, and is used for commanding and controlling train Operation to ensure driving safety. The simulation test system of a Zone Controller (ZC) needs to import corresponding system configuration data, such as an IP table, a system configuration table, a Zone number table, a ZC device table, and a route summary table. The data configuration of the simulation test system completely adopts a manually compiled mode to configure a data table at present, a great deal of labor hour and energy of data configuration personnel can be consumed, the accuracy is difficult to ensure, and the automation degree is low.

Disclosure of Invention

The invention provides a data configuration method based on a FAO ZC simulation test system, which is used for solving the defect of low data table configuration efficiency in the prior art and realizing efficient data table configuration.

The invention provides a data configuration method based on a FAO ZC simulation test system, which comprises the following steps:

acquiring initial engineering data, wherein the initial engineering data comprises at least one of train whole-line engineering data and engineering data of each linkage concentration region;

performing logic calculation on the initial engineering data to obtain first engineering data, wherein the logic of the first engineering data corresponds to the data requirement of the FAO ZC simulation test system;

and acquiring a configuration file based on the data requirement of the FAO ZC simulation test system and the first engineering data, wherein the configuration file is a table file.

According to the data configuration method based on the FAO ZC simulation test system, the logic calculation is carried out on the initial engineering data to obtain the first engineering data, and the method comprises the following steps:

performing data preprocessing on the initial engineering data to acquire second engineering data;

and carrying out logic conversion on the second engineering data based on the data requirement of the FAO ZC simulation test system to obtain the first engineering data.

According to the data configuration method based on the FAO ZC simulation test system provided by the invention, the step of logically converting the second engineering data based on the data requirement of the FAO ZC simulation test system to obtain the first engineering data comprises the following steps:

screening basic information of equipment and/or tracks from the second engineering data, and determining the basic information as the first engineering data;

and/or

Calculating the length of each section and the equipment offset, determining long and short chain information, and determining the long and short chain information as the first engineering data;

and/or

Calculating the distance from the left end of the logic section to the starting point of the track unit where the logic section is located, generating length information, and determining the length information as the first engineering data;

and/or

Establishing a corresponding relation based on the sequence and the uplink and downlink linking directions of the logic sections in the track section, and determining the established corresponding relation as the first engineering data;

and/or

Performing network data configuration on the IP information of each device and the IP information of ZC devices to which the devices belong according to a sender and a receiver, and determining the acquired configuration information as the first engineering data; the ZC equipment performs network data configuration with the ZC equipment in other centralized areas independently;

and/or

Screening attribute information of each device from the second engineering data, and determining the attribute information as the first engineering data; wherein the attribute information includes at least one of a device number, a device attribute, a ZC concentrated zone to which the device belongs, and a CI concentrated zone to which the device belongs.

According to the data configuration method based on the FAO ZC simulation test system provided by the invention, the target engineering data comprises the following steps:

at least one of an unmanned turning-back button master table, a turning-back button CI relation table, a turning-back button ZC relation table, an IP table, a counting axis master table, a counting axis CI relation table, a counting axis ZC relation table, a turnout CI relation table, a turnout ZC relation table, a turnout master table, a signal machine CI relation table, a signal machine ZC relation table, a section ATS relation table, a section CI relation table, a track unit table, a platform door master table, a platform door CI relation table, a platform door ZC relation table and an equipment master table required by the FAO ZC simulation test system.

According to the data configuration method based on the FAO ZC simulation test system provided by the invention, the step of acquiring the configuration file based on the data requirement of the FAO ZC simulation test system and the first engineering data comprises the following steps:

creating a table file;

creating an internal form of the form file;

writing a column name to a top line of the internal form;

and writing the first engineering data into the internal form in sequence according to lines to generate the configuration file.

According to the data configuration method based on the FAO ZC simulation test system provided by the invention, after the initial engineering data is obtained and before the configuration file is obtained based on the data requirement of the FAO ZC simulation test system and the first engineering data, the method further comprises the following steps:

checking the initial engineering data and/or performing exception analysis on the logic calculation to generate an exception result;

and storing the abnormal result to a log file.

The invention also provides a data configuration device of the FAO ZC simulation test system, which comprises the following steps:

the system comprises a first processing module, a second processing module and a third processing module, wherein the first processing module is used for acquiring initial engineering data, and the initial engineering data comprises at least one of configuration information of a whole train line and configuration information of each station;

the second processing module is used for carrying out logic calculation on the initial engineering data to obtain first engineering data, and the logic of the first engineering data corresponds to the data requirement of the FAO ZC simulation test system;

and the third processing module is used for acquiring a configuration file based on the data requirement of the FAO ZC simulation test system and the first engineering data, and acquiring the configuration file based on the data requirement of the FAO ZC simulation test system and the first engineering data, wherein the configuration file is a table file.

The invention also provides electronic equipment, which comprises a memory, a processor and a computer program which is stored on the memory and can run on the processor, wherein the processor executes the program to realize the data configuration method based on the FAO ZC simulation test system.

The present invention also provides a non-transitory computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the data configuration method based on the FAO ZC simulation test system as described in any one of the above.

The invention also provides a computer program product comprising a computer program, wherein the computer program is used for realizing the data configuration method based on the FAO ZC simulation test system when being executed by a processor.

According to the data configuration method and device based on the FAO ZC simulation test system, the content of a standard data file is accurately read into a program according to a certain organization form, the attribute relation of each data element is analyzed according to a standardized engineering data table so as to convert initial engineering data into configuration data, and the configuration file is generated based on the configuration data, so that the data generation and data conversion efficiency of the FAO ZC simulation test system is improved, the human resource consumption and the production cost are reduced for each project, and the management capability, the stability and the universality of the data configuration of the FAO ZC simulation test system are greatly improved.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic flow chart of a data configuration method based on a FAO ZC simulation test system provided by the invention;

FIG. 2 is a second schematic flow chart of the data configuration method based on the FAO ZC simulation test system according to the present invention;

FIG. 3 is a third schematic flow chart of a data configuration method based on a FAO ZC simulation test system according to the present invention;

FIG. 4 is a fourth schematic flow chart of the data configuration method based on the FAO ZC simulation test system provided by the invention;

FIG. 5 is a schematic structural diagram of a data configuration device based on a FAO ZC simulation test system provided by the invention;

fig. 6 is a schematic structural diagram of an electronic device provided in the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The data configuration method based on the FAO ZC simulation test system is described below with reference to FIGS. 1 to 4.

The execution main body of the data configuration method based on the FAO ZC simulation test system can be the FAO ZC simulation test system, or a server in communication connection with the FAO ZC simulation test system, or a terminal of a user.

As shown in fig. 1, the data configuration method based on the FAO ZC simulation test system includes: step 110, step 120 and step 130.

110, acquiring initial engineering data, wherein the initial engineering data comprises at least one of train whole-line engineering data and engineering data of each linkage concentration region;

in this step, a Full Automatic Operation (FAO) system is a set of interconnected train full Automatic control systems, and is used for commanding and controlling train Operation to ensure driving safety.

The simulation test system of a Zone Controller (ZC) needs to import corresponding system configuration data, such as an IP table, a system configuration table, a Zone number table, a ZC device table, and a route summary table, to perform a simulation test.

The initial engineering data is used for configuring the whole train line and each station to acquire the configuration information of the whole train line and the configuration information of each station.

As shown in fig. 4, the train line-wide engineering data may include: ip address planning table, equipment number table, ZC special test environment auxiliary table, RSSP-I checking parameter distribution table, etc.

Engineering data for a linkage foci may include: interlocking tables, engineering data comparison tables and other files.

In the invention, the initial engineering data is obtained to lead in data of all chain set concentration areas under the condition that the train full-line engineering data exists; and in the case of the lack of the train whole-line engineering data, the data import of a single or a plurality of interlocking concentration areas can be completed.

Taking the execution subject as the FAO ZC simulation test system as an example, in the actual execution process, the step 120 can be automatically executed by the FAO ZC simulation test system only by importing the initial engineering data into the FAO ZC simulation test system.

As shown in fig. 3, in some embodiments, step 110 may further include:

receiving a first input of a user;

in response to the first input, the initial engineering data is read based on the root directory of the initial engineering data determined by the first input.

In this embodiment, the first input is used to select a root directory where an input file (i.e., initial project data) is located, and cause the system to read initial data of a full line or a concentrated area in the initial project data based on the root directory.

Wherein, the first input may be at least one of the following modes:

first, the first input may be a touch operation, including but not limited to a click operation, a slide operation, a press operation, and the like.

In this embodiment, the receiving of the first input by the user may be receiving a touch operation of the user on a display area of a display screen of the terminal.

If the target control is displayed on the current interface, the first input can be realized by touching the target control; or setting the first input as a continuous multi-tap operation on the display area within the target time interval.

Second, the first input may be a physical key input.

In this embodiment, the body of the terminal is provided with corresponding physical keys (such as a mouse or a keyboard, etc.), and receives a first input of a user, which may be a first input of pressing the corresponding physical keys by the user; the first input may also be a combined operation of pressing a plurality of physical keys simultaneously.

Third, the first input may be a voice input.

In this embodiment, the terminal may trigger the import operation upon receiving a voice such as "import XX file".

Of course, in other embodiments, the first input may also be in other forms, including but not limited to character input, and the like, which may be determined according to actual needs, and this is not limited in this application.

In the step, the content of the standard data file is accurately read into the program according to a certain organization form, and the accuracy of the data can be ensured to a certain extent on the basis of the correctness of the input data and the application of the data processing rule.

Step 120, performing logic calculation on the initial engineering data to obtain first engineering data, wherein the logic of the first engineering data corresponds to the data requirement of the FAO ZC simulation test system;

in the step, the initial engineering data does not contain the original equipment data of the logic of the FAO ZC simulation test system and does not meet the data requirement of the simulation test environment.

The first engineering data is configuration data of the FAO ZC simulation test system.

The first engineering data comprise original equipment data of the FAO ZC simulation test system logic, and meet the data requirements of a simulation test environment, namely the data requirements of the FAO ZC simulation test system.

In the invention, logic conversion can be carried out based on a ZC test environment software database design instruction so as to generate first engineering data.

In the step, the attribute relation of each data element is analyzed according to a standardized engineering data table, a related algorithm is designed and realized, the problem that the generation efficiency of each data field in the configuration file to be generated is poor is solved, and the generation rate and efficiency of the configuration file are improved.

The implementation of this step is described below by means of a specific example.

As shown in fig. 2, in some embodiments, step 120 may include:

performing data preprocessing on the initial engineering data to obtain second engineering data;

and carrying out logic conversion on the second engineering data based on the data requirements of the FAO ZC simulation test system to obtain the first engineering data.

In this embodiment, the preprocessing includes at least one of a base preprocessing and a data verification processing.

Wherein the basic preprocessing comprises: clearing blank spaces before and after data, assigning null values as default values, converting digital data formats and the like;

the data verification process includes: and (4) performing duplicate name verification, illegal character checking, digital data validity checking, null value checking and other processing on each station yard device.

After the initial engineering data is subjected to data preprocessing to obtain second engineering data, the second engineering data is subjected to logic conversion according to a design guide of a ZC test environment software database to obtain first engineering data.

In some embodiments, the logic converting the second engineering data based on the data requirement of the FAO ZC simulation test system to obtain the first engineering data may include: and screening basic information of the equipment and/or the track from the second engineering data, and determining the basic information as the first engineering data.

In this embodiment, the basic information includes information about the associated track section, the device type, the uplink and downlink directions, the belonging interlock, and the convergence area.

Various device names or track sections can be searched in the second engineering data, and basic information of the devices or the tracks can be extracted to obtain the first engineering data.

In some embodiments, the logic converting the second engineering data based on the data requirement of the FAO ZC simulation test system to obtain the first engineering data may include: and calculating the length of each section and the equipment offset, determining long and short chain information, and determining the long and short chain information as first engineering data.

In this embodiment, the long and short chain information is used to characterize whether there is a problem with the long and short chain in the segment, and the correct length value corresponding to the segment.

In the actual execution process, the length of each section and the equipment offset are calculated, corresponding left kilometer posts and right kilometer posts are obtained, the difference value of the left and right kilometer posts of the section is calculated, and whether long chains or short chains exist is judged.

In the case of long short chain problems, long short chain corrections are made, for example, adding or subtracting the long chain length within a segment to determine the correct length value.

In some embodiments, the logic converting the second engineering data based on the data requirement of the FAO ZC simulation test system to obtain the first engineering data may include: and calculating the distance from the left end of the logical section to the starting point of the track unit where the logical section is located, generating length information, and determining the length information as first engineering data.

In this embodiment, the length information is used to characterize the distance of the left end of the logical section from the start of the track unit in which the logical section is located.

In the actual execution process, calculating the distance from the left end of the logic section to the starting point of the track unit where the logic section is located, if the track section is a turnout, judging the direction of the turnout, and then calculating the distance by combining the up-down direction;

if the track section is a turnout-free section, the position of the current logical section in the track section is judged, namely the logical section belongs to the nth logical section of the current track unit, and the lengths of the first n-1 logical sections are accumulated to be used as the length of the current logical section from the starting point.

In some embodiments, the logic converting the second engineering data based on the data requirement of the FAO ZC simulation test system to obtain the first engineering data may include: and establishing a corresponding relation based on the sequence of the logic sections in the track sections and the uplink and downlink linking directions, and determining the established corresponding relation as first engineering data.

In this embodiment, the correspondence is used to characterize the uplink and downlink link relationship.

Establishing an uplink and downlink link relation of the block, searching the sequence of the logic sections in the track section, and establishing a corresponding relation from left to right in sequence according to the uplink and downlink link directions.

In some embodiments, the logic converting the second engineering data based on the data requirement of the FAO ZC simulation test system to obtain the first engineering data may include: performing network data configuration on the IP information of each device and the IP information of ZC devices to which the devices belong according to a sender and a receiver, and determining the acquired configuration information as first engineering data; wherein, the ZC device performs network data configuration with the ZC devices of other centralized areas independently.

In this embodiment, the interlock, the ATS, and the IP address information of the in-vehicle device are acquired from the second engineering data, and the configuration information may be generated by performing network data configuration on the IP information of each device and the IP information of the ZC device to which the device belongs, according to the sender and the receiver, respectively.

The method comprises the steps that a ZC device performs network data configuration with ZC devices of other concentrated areas independently;

in some embodiments, the logic conversion of the second engineering data based on the data requirement of the FAO ZC simulation test system to obtain the first engineering data may include: and screening the attribute information of each device from the second engineering data, and determining the attribute information as the first engineering data.

In this embodiment, the attribute information includes at least one of a device number, a device attribute, a ZC concentration to which the device belongs, and a CI concentration to which the device belongs.

In actual implementation, other attribute information of each device may be extracted and calculated from the second engineering data.

According to the data configuration method based on the FAO ZC simulation test system, provided by the embodiment of the invention, the attribute relation of each data element is analyzed according to the standardized engineering data table, a relevant algorithm is designed and realized, the generation of each data field in the configuration file to be generated is solved, the data generation and data conversion efficiency of the FAO ZC simulation test system is improved, and the human resource consumption and the production cost are reduced for each project.

Step 130, acquiring a configuration file based on the data requirement of the FAO ZC simulation test system and the first engineering data, wherein the configuration file is a table file.

In this step, the configuration file is generated based on a database design file of the FAO ZC simulation test system.

The configuration file is exported in the form of an EXCEL table.

With continued reference to fig. 4, in some embodiments, the configuration file may include: at least one of an unmanned turning-back button master table, a turning-back button CI relation table, a turning-back button ZC relation table, an IP table, a counting-shaft master table, a counting-shaft CI relation table, a counting-shaft ZC relation table, a turnout CI relation table, a turnout ZC relation table, a turnout master table, a signal machine CI relation table, a signal machine ZC relation table, a section ATS relation table, a section CI relation table, a track unit table, a platform door master table, a platform door CI relation table, a platform door ZC relation table and an equipment master table required by the FAO ZC simulation test system.

In this step, the configuration file is output in the form of export of the EXCEL file, and the final result of data generation can be exported to a standardized EXCEL file, which is convenient for modification and use by data configuration personnel.

The following describes the manner of generating and deriving the EXCEL table.

In some embodiments, step 130 may further include:

creating a table file;

creating an internal form of a form file;

writing the column name to the head line of the internal form;

and writing the first engineering data into the internal form in sequence according to lines to generate a configuration file.

In this embodiment, with continued reference to FIG. 3, creating the table file may include:

receiving a second input of the user;

in response to the second input, a form file is created at the target path.

Wherein the second input is used to select a storage path.

The target path is a path for saving the configuration file.

The second input may be a touch input, a physical key input, a voice input, a character input, etc. similar to the first input, which are not described herein again.

And a user creates or opens an EXCEL file, creates an internal form of the EXCEL, writes column names into the first line of the form, sequentially writes generated results into the form according to lines, stores the content of the form after completing the writing of the generated results, and can create and output a configuration file in the form of the EXCEL.

According to the embodiment, functions of file import, path selection, configuration data generation and the like are provided for a user in a page visualization mode, and the management capability of data configuration of the FAO ZC simulation test system is greatly improved.

In the actual execution process, a user imports initial engineering data, clicks a 'path selection' to pop up a dialog box for path selection, selects a certain path, clicks 'determination' to complete path selection and realize second input; the system is responsive to the second input to determine a path for the form file.

The path is the path saved in the configuration file.

And then clicking 'generate data', starting to export configuration data of the FAO ZC simulation test system, displaying the export progress of each data table in real time by a progress bar, and displaying 'export file completion' if all the export is finished, and generating a data configuration file in the selected path.

According to the data configuration method based on the FAO ZC simulation test system, provided by the embodiment of the invention, the content of a standard data file is accurately read into a program according to a certain organization form, the attribute relation of each data element is analyzed according to a standardized engineering data table so as to convert initial engineering data into configuration data, and a configuration file is generated based on the configuration data, so that the data generation and data conversion efficiency of the FAO ZC simulation test system is improved, the human resource consumption and the production cost are reduced for each project, and the management capability, the stability and the universality of the data configuration of the FAO ZC simulation test system are greatly improved.

With continued reference to fig. 3, in some embodiments, after step 110, and before step 130, the method may further comprise:

checking the initial engineering data and/or performing exception analysis on the logic calculation to generate an exception result;

and storing the abnormal result into a log file.

In this embodiment, during the data reading and logic processing conversion process, the initial engineering data may be checked based on a program, a certain anomaly analysis may be performed on the logic calculation anomaly, and the check result may be output to a corresponding log file for storage, so as to help a data configuration staff to check and check for data errors.

For example, during data reading and generating, log information is displayed in real time on an interface, and exception information is also stored in a log file which is located in a log folder under a program directory, if a txt file corresponding to the date and time is not 0KB, the exception is captured in the running process of the program, and the txt log file needs to be opened to check the reason of the exception.

According to the data configuration method based on the FAO ZC simulation test system provided by the embodiment of the invention, the accuracy of data is further ensured to a certain extent on the basis of the correctness of input data and the applicability of data processing rules by automatically detecting the correctness and the integrity of the content of an input file.

The data configuration device based on the FAO ZC simulation test system provided by the invention is described below, and the data configuration device based on the FAO ZC simulation test system described below and the data configuration method based on the FAO ZC simulation test system described above can be referred to correspondingly.

As shown in fig. 5, the data configuration of the FAO ZC simulation-based test system includes: a first processing module 510, a second processing module 520, and a third processing module 530.

A first processing module 510, configured to obtain initial engineering data, where the initial engineering data includes configuration information of a whole train line and configuration information of each station;

a second processing module 520, configured to perform logic calculation on the initial engineering data to obtain first engineering data, where the logic of the first engineering data corresponds to a data requirement of the FAO ZC simulation test system;

the third processing module 530 is configured to obtain a configuration file based on the data requirement of the FAO ZC simulation test system and the first engineering data, where the configuration file is a table file.

According to the data configuration device based on the FAO ZC simulation test system, provided by the embodiment of the invention, the content of the standard data file is accurately read into a program according to a certain organization form, the attribute relation of each data element is analyzed according to the standardized engineering data table so as to convert the initial engineering data into the configuration data, and the configuration file is generated based on the configuration data, so that the data generation and data conversion efficiency of the FAO ZC simulation test system is improved, the human resource consumption and the production cost are reduced for each project, and the management capability, the stability and the universality of the data configuration of the FAO ZC simulation test system are greatly improved.

In some embodiments, the second processing module 520 may be further configured to:

performing data preprocessing on the initial engineering data to obtain second engineering data;

and carrying out logic conversion on the second engineering data based on the data requirements of the FAO ZC simulation test system to obtain the first engineering data.

In some embodiments, the second processing module 520 may be further configured to:

screening basic information of the equipment and/or the track from the second engineering data, and determining the basic information as first engineering data;

and/or

Calculating the length of each section and the equipment offset, determining long and short chain information, and determining the long and short chain information as first engineering data;

and/or

Calculating the distance from the left end of the logic section to the starting point of the track unit where the logic section is located, generating length information, and determining the length information as first engineering data;

and/or

Establishing a corresponding relation based on the sequence of the logic sections in the track sections and the uplink and downlink linking directions, and determining the established corresponding relation as first engineering data;

and/or

Performing network data configuration on the IP information of each device and the IP information of ZC devices to which the devices belong according to a sender and a receiver, and determining the acquired configuration information as first engineering data; the method comprises the steps that a ZC device performs network data configuration with ZC devices of other concentrated areas independently;

and/or

Screening the attribute information of each device from the second engineering data, and determining the attribute information as the first engineering data; the attribute information comprises at least one of a device number, a device attribute, a ZC concentrated region to which the device belongs and a CI concentrated region to which the device belongs.

In some embodiments, the third processing module 530 may be further configured to:

creating a table file;

creating an internal form of a form file;

writing the column name to the head line of the internal form;

and writing the first engineering data into the internal form in sequence according to lines to generate a configuration file.

In some embodiments, the apparatus may further comprise:

the fourth processing module is used for checking the initial engineering data and/or performing exception analysis on logic calculation to generate an exception result after the initial engineering data is acquired and before a configuration file is acquired based on the data requirement of the FAO ZC simulation test system and the first engineering data;

and the fifth processing module is used for storing the abnormal result to the log file.

Fig. 6 illustrates a physical structure diagram of an electronic device, which may include, as shown in fig. 6: a processor (processor)610, a communication Interface (Communications Interface)620, a memory (memory)630 and a communication bus 640, wherein the processor 610, the communication Interface 620 and the memory 630 communicate with each other via the communication bus 640. The processor 610 may invoke logic instructions in the memory 630 to perform a method of data configuration based on a FAO ZC simulation test system, the method comprising: acquiring initial engineering data, wherein the initial engineering data comprises at least one of train whole-line engineering data and engineering data of each linkage concentration region; performing logic calculation on the initial engineering data to obtain first engineering data, wherein the logic of the first engineering data corresponds to the data requirement of the FAO ZC simulation test system; and acquiring a configuration file based on the data requirement of the FAO ZC simulation test system and the first engineering data, wherein the configuration file is a table file.

In addition, the logic instructions in the memory 630 may be implemented in software functional units and stored in a computer readable storage medium when the logic instructions are sold or used as independent products. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

In another aspect, the present invention further provides a computer program product comprising a computer program stored on a non-transitory computer readable storage medium, the computer program comprising program instructions, which when executed by a computer, enable the computer to perform the method for configuring data based on a FAO ZC simulation test system provided by the above methods, the method comprising: acquiring initial engineering data, wherein the initial engineering data comprises at least one of train whole-line engineering data and engineering data of each linkage concentration region; performing logic calculation on the initial engineering data to obtain first engineering data, wherein the logic of the first engineering data corresponds to the data requirement of the FAO ZC simulation test system; and acquiring a configuration file based on the data requirement of the FAO ZC simulation test system and the first engineering data, wherein the configuration file is a table file.

In still another aspect, the present invention further provides a non-transitory computer readable storage medium, having a computer program stored thereon, where the computer program is implemented by a processor to execute the method for configuring data of the FAO ZC simulation-based test system provided by the above steps, the method comprising: acquiring initial engineering data, wherein the initial engineering data comprises at least one of train whole-line engineering data and engineering data of each linkage concentration region; performing logic calculation on the initial engineering data to obtain first engineering data, wherein the logic of the first engineering data corresponds to the data requirement of the FAO ZC simulation test system; and acquiring a configuration file based on the data requirement of the FAO ZC simulation test system and the first engineering data, wherein the configuration file is a table file.

The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A data configuration method based on a FAO ZC simulation test system is characterized by comprising the following steps:

acquiring initial engineering data, wherein the initial engineering data comprises at least one of train whole-line engineering data and engineering data of each linkage concentration region;

performing logic calculation on the initial engineering data to obtain first engineering data, wherein the logic of the first engineering data corresponds to the data requirement of the FAO ZC simulation test system;

and acquiring a configuration file based on the data requirement of the FAO ZC simulation test system and the first engineering data, wherein the configuration file is a table file.

2. The data configuration method based on the FAO ZC simulation test system as claimed in claim 1, wherein the logic calculation of the initial engineering data to obtain the first engineering data comprises:

performing data preprocessing on the initial engineering data to acquire second engineering data;

and carrying out logic conversion on the second engineering data based on the data requirement of the FAO ZC simulation test system to obtain the first engineering data.

3. The data configuration method based on the FAO ZC simulation test system as claimed in claim 2, wherein the logic conversion of the second engineering data based on the data requirements of the FAO ZC simulation test system to obtain the first engineering data comprises:

screening basic information of equipment and/or tracks from the second engineering data, and determining the basic information as the first engineering data;

and/or

Calculating the length of each section and the equipment offset, determining long and short chain information, and determining the long and short chain information as the first engineering data;

and/or

Calculating the distance from the left end of the logic section to the starting point of the track unit where the logic section is located, generating length information, and determining the length information as the first engineering data;

and/or

Establishing a corresponding relation based on the sequence and the uplink and downlink linking directions of the logic sections in the track section, and determining the established corresponding relation as the first engineering data;

and/or

Performing network data configuration on the IP information of each device and the IP information of ZC devices to which the devices belong according to a sender and a receiver, and determining the acquired configuration information as the first engineering data; the ZC equipment performs network data configuration with the ZC equipment in other centralized areas independently;

and/or

Screening attribute information of each device from the second engineering data, and determining the attribute information as the first engineering data; wherein the attribute information includes at least one of a device number, a device attribute, a ZC concentrated zone to which the device belongs, and a CI concentrated zone to which the device belongs.

4. A method for data configuration based on a FAO ZC simulation test system according to any of claims 1-3 wherein the configuration file comprises:

at least one of an unmanned turning-back button master table, a turning-back button CI relation table, a turning-back button ZC relation table, an IP table, an axle counting master table, an axle counting CI relation table, an axle counting ZC relation table, an axle counting CI relation table, a turnout ZC relation table, a turnout master table, an annunciator CI relation table, an annunciator ZC relation table, a section ATS relation table, a section CI relation table, a track unit table, a platform door master table, a platform door CI relation table, a platform door ZC relation table and an equipment master table required by the FAO ZC simulation test system.

5. A method for data configuration based on a FAO ZC simulation test system according to any of claims 1-3 wherein the obtaining a configuration file based on the data requirements of the FAO ZC simulation test system and the first engineering data comprises:

creating a table file;

creating an internal form of the form file;

writing a column name to a top line of the internal form;

and writing the first engineering data into the internal form in sequence according to lines to generate the configuration file.

6. A method for data configuration based on a FAO ZC simulation test system according to any of the claims 1-3 wherein after the initial engineering data is obtained and before the configuration file is obtained based on the data requirements of the FAO ZC simulation test system and the first engineering data, the method further comprises:

checking the initial engineering data and/or performing exception analysis on the logic calculation to generate an exception result;

and storing the abnormal result to a log file.

7. A data configuration device based on a FAO ZC simulation test system is characterized by comprising the following components:

the system comprises a first processing module, a second processing module and a third processing module, wherein the first processing module is used for acquiring initial engineering data, and the initial engineering data comprises at least one of configuration information of a whole train line and configuration information of each station;

the second processing module is used for carrying out logic calculation on the initial engineering data to obtain first engineering data, and the logic of the first engineering data corresponds to the data requirement of the FAO ZC simulation test system;

and the third processing module is used for acquiring a configuration file based on the data requirement of the FAO ZC simulation test system and the first engineering data, and acquiring the configuration file based on the data requirement of the FAO ZC simulation test system and the first engineering data, wherein the configuration file is a table file.

8. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the data configuration method of the FAO ZC simulation based test system according to any one of claims 1 to 6 when executing the program.

9. A non-transitory computer readable storage medium having a computer program stored thereon, wherein the computer program, when executed by a processor, implements the data configuration method of the FAO ZC simulation-based test system according to any one of claims 1 to 6.

10. A computer program product comprising a computer program, characterized in that the computer program, when being executed by a processor, implements the data configuration method based on a FAO ZC simulation test system according to any one of claims 1 to 6.

Images