CN117273391A - Management method and device for complex airborne system development plan and electronic equipment - Google Patents

Abstract

The invention belongs to the technical field of project management, and provides a management method and device for a complex airborne system development plan. The management method is applied to a project management system and comprises the following steps: receiving a plan file, and marking each plan as CAT1 and CAT2 when a user edits the plan file; analyzing and acquiring all plans, and associating corresponding plans according to father-son relations and identifiers of the plans; generating an excel file of the CAT2 plan according to a preset template, and mounting the excel file under the corresponding CAT1 plan; writing all CAT2 plans into corresponding excel files, uploading the excel files to a file storage system, and setting paths in the file storage system; and periodically acquiring and analyzing excel files of all CAT2 plans, converting the excel files into structured data, and summarizing relevant data of the CAT2 plans into corresponding CAT1 plans. According to the management method, collaborative operation, real-time data and data analysis are realized through an informatization means, a project manager can flexibly conduct CAT2 planning operation in a project management system, and the flexibility is higher.

Description

Management method and device for complex airborne system development plan and electronic equipment

Technical Field

The invention relates to the technical field of project management, in particular to a management method and device of a complex airborne system development plan and electronic equipment.

Background

With the rapid development of aeronautical technology, the onboard systems of modern aircraft have become more and more complex. The integrated high-speed aircraft comprises various subsystems such as navigation, communication, monitoring, control and the like, and highly integrated hardware and software not only provide basic functions required by the aircraft, but also improve flight safety and efficiency. However, as the complexity of airborne systems continues to rise and the requirements of civil aviation airborne systems for safety and reliability continue to increase, challenges in designing, manufacturing, and verifying airborne systems become increasingly more challenging, and the difficulty in planning management thereof becomes higher. In the development of civil aircraft systems, an approval mechanism and a host machine both put very high demands on development plan management of development projects of each system, for example, in office side SOI1 inspection (plan stage inspection), plan inspection is explicitly required, and the host machine also puts development plan management demands on management demands of suppliers and checks development plans at regular time.

Therefore, the project of civil aircraft on-board system development has extremely high importance degree on plan management or project management, and the plan management requirement of the on-board system development is also quite different from the progress management and scope management in the general PMP or PMBOK. For example, in on-board system development, IMP/IMS guidelines issued by the U.S. department of defense DoD are often used as the primary reference for planning management, in the project planning stage, milestones, key deliveries, and significant phases are identified and resolved first, and after confirming the IMP, the IMS is resolved according to each IMP to ensure the integrity and correctness of the whole planning process. In the on-board system development project plan management program, the plans are divided into four levels of CAT0, 1, 2 and 3, wherein the plans of CAT0, CAT1 and CAT2 levels are required to be managed and controlled by a project management system, and the plan of CAT3 level is managed and controlled by each system/subsystem/device EPM. However, the control granularity in the project management system is also inconsistent for the three levels of plans at CAT0, 1, 2, where CAT0 level plans are managed as milestones; the CAT1 level plan is used as a main plan for controlling, the CAT2 level plan is placed in a project management system for controlling, but the control of the flow is not set according to requirements, and only the project manager and the EPM are used for maintaining.

Among internationally known on-board equipment suppliers such as GE, holmivir, luo Kewei l-kolin, etc., they currently manage CAT2 level plans through Excel and periodically manually aggregate CAT level plans from EPM into their CAT1 level managed plan management system, which is flexible but inefficient. The main reasons for this are that these suppliers have been managed in this way for many years, many organizations experience in the brains of these EPMs, or in these Excel documents, which cannot be deposited in an informationized way, and the cost of retrofitting existing planning management systems is significant, which can be a subverted system retrofit or a re-custom development system, which is too time consuming and laborious.

Disclosure of Invention

In view of the above, the embodiments of the present invention provide a method, an apparatus and an electronic device for managing a complex airborne system development plan, which are used for solving or partially solving the above-mentioned problems.

In a first aspect, an embodiment of the present invention provides a method for managing a development plan of a complex airborne system, which is applied to a project management system, including the following steps:

s1: receiving a plan file, wherein the plan file is edited and imported by a user, and when the user edits the plan file, each plan in the plan file is identified as CAT1 and CAT2, and a parent-child relationship is established, wherein the parent plans of root nodes of all CAT2 plans are CAT1 plans;

s2: analyzing the plan file to obtain all plans, and associating all CAT2 plans to corresponding parent CAT1 plans according to father-son relations and plan identifications of the plans in the plan file to form a plan main table;

s3: generating an excel file of a CAT2 plan named corresponding to the CAT1 plan according to a CAT1 plan with a CAT2 plan for the child node, wherein the excel file is mounted under the CAT1 plan corresponding to the project management system, and the attribute of the CAT2 plan is fixed;

s4: after all CAT2 plans are written into the corresponding excel files, uploading the excel files to a file storage system, and setting paths in the file storage system, wherein the paths are stored in the plan main table and are used for the project management system to locate the corresponding excel files of the CAT2 plans according to the CAT1 plans;

s5: and periodically acquiring excel files for analyzing all CAT2 plans, converting the excel files into structured data, storing the structured data in the plan main table, and summarizing relevant data of the CAT2 plans into corresponding CAT1 plans by utilizing the association relation between the CAT1 plans and the CAT2 plans and the fixed attribute in the CAT2 plans.

The beneficial effects of the above embodiment are that: according to the management method, an excel file stream of a CAT2 plan corresponding to the CAT1 plan is preset, association relations are bound, data of the excel file of the CAT2 plan are mainly maintained by managers of all projects, the content of the excel file of the CAT2 plan is periodically acquired by a project management system and is processed and summarized in a plan summary table, manual summarization of all project managers is not needed, and project plans of different management dimensions are managed in the same project management system. That is, the CAT2 level plan is put in the project management system, and the collaborative operation, real-time data and data analysis are realized through an informatization means; the project manager, the project manager and the CAT1 plan responsibilities can flexibly perform operations such as CAT2 plan addition, modification, deletion and the like in the project management system, and fill actual working hours, progress and completion states, but are not controlled by inherent processes, form reading and writing and the like of the informatization system, so that the flexibility is higher.

According to a specific implementation manner of the embodiment of the present invention, in the step S1, the plan file is a Project file. project has explicit and mandatory specification requirements for the planning hierarchy, and planning using project can better specify the planning hierarchy planned by the user.

According to a specific implementation manner of the embodiment of the present invention, in the step S2, the main planning table is a gante chart. The Gantt chart component has high adaptation degree with the project, and the hierarchical structure in the project can be rapidly identified.

According to a specific implementation manner of the embodiment of the present invention, in the step S3, the preset CAT2 plan template includes a plurality of CAT3 plans, and the fixed attribute in the CAT2 plan is a corresponding cell attribute of each CAT3 plan.

According to a specific implementation manner of the embodiment of the invention, the CAT3 plan comprises a plan name, a responsible person, a plan starting time, a plan ending time, a plan working hour, an actual progress and a completion state.

According to a specific implementation manner of the embodiment of the present invention, in step S4, the file storage system is a mini. Minio supports distributed storage, whose highly available, scalable, low latency nature can support fast access to large amounts of data.

According to a specific implementation manner of the embodiment of the present invention, in step S5, the project management system parses an excel file through a poi. EasyExcel (poi) has excellent performance, can process large Excel files without causing memory overflow or performance degradation, and is particularly suitable for project management systems to improve development efficiency and reduce error risk. .

According to a specific implementation manner of the embodiment of the present invention, in step S5, the relevant data of the CAT2 plan includes actual working hours, actual progress and completion conditions.

According to a specific implementation manner of the embodiment of the present invention, in the step S5, the actual working hours are summarized as follows:

；

the actual progress summarization mode is as follows:

；

the completion status summarizing mode is as follows:

；

wherein T: CAT1 actual man-hour; t: CAT2 actual man-hour; s: CAT1 actual progress; s: CAT2 actual progress; a: CAT2 planning man-hour; c: CAT1 is completed, namely 1 is completed, and is not completed to 0; c: CAT2 complete, complete 1, not complete 0.

In a second aspect, an embodiment of the present invention provides a management apparatus for a complex on-board system development plan, which is applied to a project management system, including:

the receiving module is used for receiving a plan file, the plan file is edited and imported by a user, each plan in the plan file is marked as CAT1 and CAT2 when the user edits the plan file, and the parent plans of root nodes of all CAT2 plans are CAT1 plans;

the analysis module is used for analyzing the plan file to obtain all plans, and associating all CAT2 plans into corresponding parent CAT1 plans according to father-son relations and plan identifications of the plans in the plan file to form a plan main table;

the generation module is used for generating an excel file of the CAT2 plan named corresponding to the CAT1 plan according to a preset CAT2 plan template aiming at the CAT1 plan of the child node, wherein the excel file is mounted under the CAT1 plan corresponding to the project management system and fixes the attribute of the CAT2 plan;

the association module is used for uploading all CAT2 plans to a file storage system after writing all CAT2 plans into the corresponding excel files, setting a path in the file storage system, and storing the path in the plan main table for the project management system to position the corresponding excel files of the CAT2 plans according to the CAT1 plans;

and the conversion module is used for periodically acquiring and analyzing excel files of all CAT2 plans, converting the excel files into structural data, storing the structural data into the plan main table, and summarizing related data of the CAT2 plans into corresponding CAT1 plans by utilizing the association relation between the CAT1 plans and the CAT2 plans and the fixed attribute in the CAT2 plans.

In a third aspect, an embodiment of the present invention further provides an electronic device, where the electronic device includes a memory, a processor, and a computer program stored on the memory and executable on the processor, where the processor implements the steps of the management method in the foregoing first aspect or any implementation manner of the first aspect when the processor executes the program.

The embodiment of the invention has at least the following technical effects:

firstly, a CAT2 level plan in the management method is placed in a project management system, and collaborative operation, real-time data and data analysis are realized through an informatization means, so that management is more convenient and efficient;

secondly, in the management method, project managers, engineering project managers and CAT1 planning responsibilities can flexibly perform operations such as CAT2 planning addition, modification and deletion in the project management system, and fill actual working hours, progress and completion states, but are not controlled by inherent processes of an informatization system, form reading and writing and the like, so that the flexibility is higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a flow chart of a method for managing a complex on-board system development plan provided by an embodiment of the invention;

FIG. 2 is a block diagram of a complex on-board system development plan management apparatus according to an embodiment of the present invention;

fig. 3 shows a schematic structural diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

Embodiments of the technical scheme of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present invention, and thus are merely examples, which should not be construed as limiting the scope of the present invention.

It is noted that unless otherwise indicated, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this invention pertains.

Fig. 1 is a flowchart of steps of a method for managing a development plan of a complex airborne system according to an embodiment of the present invention, referring to fig. 1, the method is applied to a project management system, and includes the following steps:

s1: the user edits the plan file locally, marks each plan in the plan file as CAT1 and CAT2, imports the edited plan file into the project management system, and establishes a parent-child relationship, wherein the parent plans of the root nodes of all CAT2 plans are CAT1 plans. The Project file is typically a Project file.

S2: and the project management system analyzes the plan file to acquire all plans when a user imports the plan file, and associates all CAT2 plans into corresponding parent CAT1 plans according to father-son relations of each plan in the plan file and plan identifications maintained by the user to form a plan master table containing CAT1-CAT2 corresponding relations.

The main schedule is Gantt chart. The main planning table content contains a CAT1 planning list, and the CAT1 planning with the CAT2 planning is identified, and the CAT2 planning under the CAT1 planning can be inquired through the CAT1 planning.

S3: after the back end of the project management system acquires the full-quantity plan, a CAT1 plan with a CAT2 plan is aimed at the child node, the project management system generates an excel file of the CAT2 plan named corresponding to the CAT1 plan id according to a preset CAT2 plan template, and the excel file is mounted under the CAT1 plan of the project management system and fixes the attribute of the CAT2 plan.

The preset CAT2 plan template comprises a plurality of CAT3 plans, and the fixed attribute in the CAT2 plans is the corresponding cell attribute of each CAT3 plan. The CAT3 plan includes plan name, responsible person, plan start time, plan end time, plan man-hour, actual progress, completion status, and the like.

S4: after the project management system writes all CAT2 plans into corresponding excel files, uploading the excel files to a file storage system minio, setting a specific path in the file storage system, and storing the path in a plan main table for the project management system to locate the excel files of the corresponding CAT2 plans according to the CAT1 plans.

S5: and periodically acquiring and analyzing excel files of all CAT2 plans by the project management system, converting the excel files into structural data, storing the structural data into a plan main table, and summarizing related data of the CAT2 plans into corresponding CAT1 plans by utilizing the association relation between the CAT1 plans and the CAT2 plans and the fixed attribute in the CAT2 plans.

The CAT2 file name (CAT 1 plan id) defined in step S3 may be used as an association relationship to associate the CAT2 table with the CAT1 table, and the association relationship and the attribute fixed in the CAT2 plan are utilized to collect relevant data of the CAT2, such as man-hour (T), progress (S), completion (C) and the like, into the CAT1, so as to implement project plans with different management and control dimensions to be managed in the same project management system.

The actual working hours are summarized as follows:

；

the actual progress summarization mode is as follows:

；

the completion status is summarized as follows:

；

wherein T: CAT1 actual man-hour; t: CAT2 actual man-hour;

s: CAT1 actual progress; s: CAT2 actual progress; a: CAT2 planning man-hour;

c: CAT1 is completed, namely 1 is completed, and is not completed to 0;

c: CAT2 complete, complete 1, not complete 0.

It should be noted that, the modules are arranged according to a streaming layout, which is only one embodiment of the present invention, and may be arranged in other manners, which is not limited by the present invention.

The embodiment of the invention has the following technical effects:

firstly, a CAT2 level plan in the management method is placed in a project management system, and collaborative operation, real-time data and data analysis are realized through an informatization means, so that management is more convenient and efficient;

secondly, in the management method, project managers, engineering project managers and CAT1 planning responsibilities can flexibly perform CAT2 planning new addition, modification, deletion and other operations in the project management system, and the actual man-hour, progress and completion state are filled, but the management method is not controlled by the inherent processes of an informatization system, form reading and writing and the like, and has higher flexibility;

thirdly, the Project management system adopting the management method realizes the unification of two different management modes of severity and flexibility of a multi-level plan in a single system, and comprises a Project importing module, a Gantt chart module, an online wool Excel module, a data association module, an automatic data generating module and a data conversion module; the system can integrate CAT2 data into CAT1 through an association mechanism.

Fig. 2 is a management apparatus for a complex on-board system development plan according to an embodiment of the present invention, which is applied to a project management system, and includes:

the receiving module is used for receiving a plan file, the plan file is edited and imported by a user, each plan in the plan file is marked as CAT1 and CAT2 when the user edits the plan file, and the parent plans of root nodes of all CAT2 plans are CAT1 plans;

the analysis module is used for analyzing the plan file to obtain all plans, and associating all CAT2 plans to corresponding parent CAT1 plans according to father-son relations and plan identifications of the plans in the plan file to form a plan main table;

the generation module is used for generating an excel file of the CAT2 plan named corresponding to the CAT1 plan according to a preset CAT2 plan template aiming at the CAT1 plan with the CAT2 plan of the child node, and the excel file is mounted under the CAT1 plan of the project management system and fixes the attribute of the CAT2 plan;

the association module is used for uploading the excel files to the file storage system after writing all the CAT2 plans into the corresponding excel files, setting paths in the file storage system, and storing the paths in a plan main table for the project management system to position the excel files of the corresponding CAT2 plans according to the CAT1 plans;

the conversion module is used for periodically acquiring and analyzing excel files of all CAT2 plans, converting the excel files into structural data, storing the structural data into a plan main table, and summarizing relevant data of the CAT2 plans into corresponding CAT1 plans by utilizing the association relation between the CAT1 plans and the CAT2 plans and the fixed attribute in the CAT2 plans.

The functions of each module in the embodiment of fig. 2 correspond to the content in the corresponding method embodiment, and are not described herein.

Fig. 3 shows a schematic structural diagram of an electronic device 90 according to an embodiment of the present invention, where the electronic device 90 includes at least one processor 901 (e.g. a CPU), at least one input/output interface 904, a memory 902, and at least one communication bus 903 for enabling connection communication between these components. At least one processor 901 is configured to execute computer instructions stored in memory 902 to enable the at least one processor 901 to perform an embodiment of any one of the management methods previously described. The memory 902 is a non-transitory memory (non-transitory memory) that may include volatile memory, such as high-speed random access memory (RAM: random Access Memory), or may include non-volatile memory, such as at least one disk memory. Communication connection(s) with at least one other device or unit is effected through at least one input output interface 904 (which may be a wired or wireless communication interface).

In some embodiments, the memory 902 stores a program 9021, and the processor 901 executes the program 9021 to perform any of the foregoing sub-table method embodiments.

The electronic device may exist in a variety of forms including, but not limited to:

(1) A mobile communication device: such devices are characterized by mobile communication capabilities and are primarily aimed at providing voice, data communications. Such terminals include: smart phones (e.g., iPhone), multimedia phones, functional phones, and low-end phones, etc.

(2) Ultra mobile personal computer device: such devices are in the category of personal computers, having computing and processing functions, and generally also having mobile internet access characteristics. Such terminals include: PDA, MID, and UMPC devices, etc., such as iPad.

(3) Portable entertainment device: such devices may display and play multimedia content. The device comprises: audio, video players (e.g., iPod), palm game consoles, electronic books, and smart toys and portable car navigation devices.

(4) Specific server: the configuration of the server includes a processor, a hard disk, a memory, a system bus, and the like, and the server is similar to a general computer architecture, but is required to provide highly reliable services, and thus has high requirements in terms of processing capacity, stability, reliability, security, scalability, manageability, and the like.

(5) Other electronic devices with data interaction functions.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the scope of the present invention should be included in the present invention. Therefore, the protection scope of the invention is subject to the protection scope of the claims.

Claims (10)

1. The management method of the complex airborne system development plan is characterized by being applied to a project management system and comprising the following steps of:

s1: receiving a plan file, wherein the plan file is edited and imported by a user, and when the user edits the plan file, each plan in the plan file is identified as CAT1 and CAT2, and a father-son relationship is established;

s2: analyzing the plan file to obtain all plans, and associating all CAT2 plans to corresponding parent CAT1 plans according to father-son relations and plan identifications of the plans in the plan file to form a plan main table;

s3: generating an excel file of the CAT2 plan according to a preset CAT2 plan template aiming at a CAT1 plan with a CAT2 plan of the child node, wherein the excel file is mounted under the corresponding CAT1 plan, and the attribute of the CAT2 plan is fixed;

s4: after all CAT2 plans are written into the corresponding excel files, uploading the excel files to a file storage system, and setting paths in the file storage system, wherein the paths are stored in the plan main table and are used for the project management system to locate the corresponding excel files of the CAT2 plans according to the CAT1 plans;

s5: and periodically acquiring excel files for analyzing all CAT2 plans, converting the excel files into structured data, storing the structured data in the plan main table, and summarizing relevant data of the CAT2 plans into corresponding CAT1 plans by utilizing the association relation between the CAT1 plans and the CAT2 plans and the fixed attribute in the CAT2 plans.

2. The method of management according to claim 1, wherein: in the step S2, the main planning table is a gante chart.

3. The method of management according to claim 1, wherein: in the step S3, the preset CAT2 plan template includes a plurality of CAT3 plans, and the fixed attribute in the CAT2 plans is a corresponding cell attribute of each CAT3 plan.

4. A method of management as claimed in claim 3, wherein: the CAT3 plan comprises a plan name, a responsible person, a plan starting time, a plan ending time, a plan working hour, an actual progress and a completion state.

5. The method of management according to claim 1, wherein: in the step S4, the file storage system is minio.

6. The method of management according to claim 1, wherein: in the step S5, the project management system parses the excel file through the poi.

7. The method of management according to claim 1, wherein: in the step S5, the relevant data of the CAT2 plan includes actual working hours, actual progress and completion conditions.

8. The method of management according to claim 7, wherein: in the step S5, the actual working hours are summarized as follows:

；

the actual progress summarization mode is as follows:

；

the completion status summarizing mode is as follows:

；

wherein T: CAT1 actual man-hour; t: CAT2 actual man-hour; s: CAT1 actual progress; s: CAT2 actual progress; a: CAT2 planning man-hour; c: CAT1 is completed, namely 1 is completed, and is not completed to 0; c: CAT2 complete, complete 1, not complete 0.

9. A management device for a complex on-board system development plan, applied to a project management system, comprising:

the receiving module is used for receiving a plan file, the plan file is edited and imported by a user, each plan in the plan file is identified as CAT1 and CAT2 when the user edits the plan file, and a father-son relationship is established;

the analysis module is used for analyzing the plan file to obtain all plans, and associating all CAT2 plans into corresponding parent CAT1 plans according to father-son relations and plan identifications of the plans in the plan file to form a plan main table;

the generation module is used for generating an excel file of the CAT2 plan according to a preset CAT2 plan template aiming at a CAT1 plan with a CAT2 plan of the child node, wherein the excel file is mounted under the corresponding CAT1 plan and fixes the attribute of the CAT2 plan;

the association module is used for uploading all CAT2 plans to a file storage system after writing all CAT2 plans into the corresponding excel files, setting a path in the file storage system, and storing the path in the plan main table for the project management system to position the corresponding excel files of the CAT2 plans according to the CAT1 plans;

and the conversion module is used for periodically acquiring and analyzing excel files of all CAT2 plans, converting the excel files into structural data, storing the structural data into the plan main table, and summarizing related data of the CAT2 plans into corresponding CAT1 plans by utilizing the association relation between the CAT1 plans and the CAT2 plans and the fixed attribute in the CAT2 plans.

10. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the steps of the management method according to any one of claims 1 to 8 when the program is executed by the processor.