CN110633350B - Unmanned aerial vehicle system term management method and system - Google Patents

Abstract

The application relates to an unmanned aerial vehicle system term management method, which belongs to the technical field of airplane project management, and comprises the following steps: acquiring terms used in the unmanned aerial vehicle system, wherein the terms comprise system engineering terms, system specification system terms and professional engineering terms; generating term entries according to the terms; and assigning user rights, and adding, deleting, modifying and updating the term entry according to the user rights. The method can output a set of authoritative, practical and specialized unmanned aerial vehicle system term vocabulary dictionary in the whole life cycle of design, solves the problem that the vocabulary manuscript-in-process performance of the unmanned aerial vehicle system is not strong among professions in the scheme design and engineering development process, and greatly improves the consistency and production efficiency of the unmanned aerial vehicle system design.

Description

Unmanned aerial vehicle system term management method and system

Technical Field

The application belongs to the technical field of airplane project management, and particularly relates to a method and a system for classifying and describing unmanned aerial vehicle system terms.

Background

In order to provide a comprehensive understanding of aircraft systems and to solve the problem of ambiguity caused by word non-uniformity during development, a set of aircraft system terms is required to specify terms and definitions commonly used in the system or to distinguish it from other unmanned/piloted aircraft.

The existing unmanned plane system terms are mostly sets of the same type of plane terms, such as unmanned plane terms and manned plane terms, a developed term dictionary special for the plane system is not formed, or although special term dictionaries are formed, the method adopts designers to collect and arrange nouns in the scheme design process and refer to the aerospace English dictionary translation composition, is generally lengthy and unclear in structure, is not associated with the characteristics and indexes of the plane system, cannot effectively guide the unified cognition of different professional designers, and does not cover the related terms based on system engineering and demand engineering of the propulsion of the current aviation equipment.

Disclosure of Invention

The purpose of the application is to provide a term management method of an unmanned aerial vehicle system, so as to solve or alleviate at least one problem in the background technology.

In one aspect, the technical scheme provided by the application is as follows: a method of unmanned aerial vehicle system term management, the method comprising:

acquiring terms used in the unmanned aerial vehicle system, wherein the terms comprise system engineering terms, system specification system terms and professional engineering terms;

generating term entries according to the terms; and

and assigning user rights, and adding, deleting, modifying and updating the term entry according to the user rights.

In an embodiment of the method of the present application, the method further comprises:

recording the time of generating or adding, deleting, modifying and updating the term entry.

In an embodiment of the method of the present application, the method further comprises:

and searching the terms in the platform according to the keywords or the keywords.

In an embodiment of the method of the present application, the method further comprises:

the term entry can be derived and, when derived, can be converted to a desired format.

On the other hand, the technical scheme provided by the application is as follows: a drone system term management platform, the platform comprising:

the term acquisition module is used for acquiring terms used in the unmanned aerial vehicle system, wherein the terms comprise system engineering terms, system specification system terms and professional engineering terms;

the term generation module is used for generating term terms according to the terms; and

and the user management module is used for adding, deleting or adjusting the authority of the user, wherein the authority of the user comprises modification, addition, deletion or update of the term entry.

In one embodiment of the platform of the present application, the platform comprises:

and the time recording module is used for recording the time of generating, adding, deleting, modifying and updating the term entry.

In one embodiment of the platform of the present application, the platform comprises:

and the searching module is used for searching the terms in the platform according to the keywords or the keywords.

In one embodiment of the platform of the present application, the platform comprises:

and the format conversion module is used for converting the term entry in the platform into a required format.

The method and the platform can output a set of authoritative, practical and specialized term dictionary of the unmanned aerial vehicle system in the whole life cycle of design, solve the problem that the vocabulary manuscript-in-process performance of the unmanned aerial vehicle system is not strong between each specialty in the scheme design and engineering development process, and greatly improve the consistency and production efficiency of the unmanned aerial vehicle system design.

Drawings

In order to more clearly illustrate the technical solutions provided by the present application, the following description will briefly refer to the accompanying drawings. It will be apparent that the figures described below are only some embodiments of the present application.

Fig. 1 is a schematic diagram of a term management method of a unmanned aerial vehicle system of the present application.

Fig. 2 is a schematic diagram of a term management platform of the unmanned aerial vehicle system of the present application.

Detailed Description

In order to make the purposes, technical solutions and advantages of the implementation of the present application more clear, the technical solutions in the embodiments of the present application will be described in more detail below with reference to the accompanying drawings in the embodiments of the present application.

The application provides a method and a system for managing unmanned aerial vehicle system terms, which are used for sorting noun terms and online disclosing to form wikipedia term classification and description for all technical or management personnel to inquire and modify update at any time, as the development, production, test and use maintenance stages of the unmanned aerial vehicle system, each professional system runs the unified specification of the concept, scheme report and coordinated file design system term.

As shown in fig. 1, the term management method for the unmanned aerial vehicle system provided by the application includes:

s11: the terms used in the unmanned aerial vehicle system are acquired and include, but are not limited to, system engineering terms, system specification system terms, professional engineering terms and the like.

The terms and categories are classified by military and technical nouns used by equipment-level and aircraft-level requirements in the top-level files such as the opposite item demonstration report, the system operation concept, the capability requirement file and the like in model-based system engineering modeling.

The first category is related terms of system engineering, mainly comprises terms related to the process, methods, tools, standards and the like, which are related to the development process of INCOSE system engineering manual 4.0, NASA system engineering manual and equipment and need to be interpreted or emphasized.

The second category is system specification system terms, including "system operation concept", unmanned aerial vehicle system specification "and subsystem specification of each system, and the content includes nouns related to the equipment, including equipment, unmanned aerial vehicle, ground control station, security system, training system, machine body, propulsion system, flight management system, mission system, weapon system, harness system, and the like.

The third category is related terms in the field of professional engineering, and comprises contents such as assurance, reliability, testability, safety, electromagnetic compatibility, environment and the like.

The method comprises the steps of carrying out multiple rounds of discussion iteration and implementation feedback on term names and English definitions, and carrying out top-level agreement, combination and deletion based on the characteristics of an unmanned aerial vehicle system and experiences in actual design and development processes. Based on explanation and definition, adding a scheme and an index corresponding to the unmanned aerial vehicle system.

Thus, terms are formed that contain more than 1000 specialized vocabulary interpretations.

S12: corresponding term entries are generated from the above terms.

S13: after generating the corresponding term entry, assigning user rights to the corresponding user, and adding, deleting, modifying, updating and the like the term entry according to the rights of the user.

The first edition of the term entry is issued in the initial stage of the design of the unmanned aerial vehicle system, rights are assigned to designers of various professions (overall, flight control, pneumatic, avionic and the like), and the designers can search and inquire at any time according to the account and the password assigned to the designers to eliminate repeated projects.

The modification authority is opened for each professional supervisor (representative authority). The modification advice of any designer on the vocabulary can be fed back to the professional supervisor, the supervisor completes the update of the professional vocabulary once daily or weekly, and the modification authority is used for entering the background for dynamic maintenance.

Wherein the method comprises

S14: the time of the generation or addition, deletion, modification update, etc. of the term entry is recorded. The mark is automatically made on each modified or added vocabulary, the mark content comprises modification time, proposer, modifier and the like, and the designer can see the modification when the designer re-inquires the term dictionary the next day.

The project is provided with a term dictionary manager for performing text proofreading, communication confirmation with related designers and general tracking maintenance on the modification condition. Therefore, as the design of the project life cycle progresses, the term dictionary is continuously updated under the inquiry, modification and maintenance of designers, supervisors and administrators, the consistency and the instantaneity of coordination are guaranteed, and the second edition, the third edition and the like are correspondingly issued at each node (preliminary design review, shaping design review and the like) of the unmanned aerial vehicle design.

In addition, the method also provides a comprehensive collaborative term dictionary entry management environment which can realize seamless integration with a change management system; supporting format conversion, such as DOC format, TXT format, PDF format, XML format, etc., allows suppliers and development partners to participate directly in the development process.

As shown in fig. 2, there is also provided a unmanned aerial vehicle system term management platform, where the platform 20 includes: a term acquiring module 21, configured to acquire terms used in the unmanned aerial vehicle system, where the terms include system engineering terms, system specification system terms, and engineering terms; an entry generation module 22 for generating term entries from the terms; and a user management module 23 for adding, deleting or adjusting the rights of the user, wherein the rights of the user comprise modification, addition, deletion or update of the term entry.

In one embodiment of the platform of the present application, the platform comprises: a time recording module 24, configured to record the time of generating or adding, deleting, modifying and updating the term entry.

In one embodiment of the platform of the present application, the platform comprises: a search module 25 for searching for terms within the platform based on keywords or keywords.

In one embodiment of the platform of the present application, the platform comprises: a format conversion module 26 for converting the term entries within the platform into a desired format.

By utilizing the method and the platform, a set of authoritative, practical and specialized unmanned aerial vehicle system term dictionary can be output in the full life cycle of unmanned aerial vehicle system design, the problem that the vocabulary manuscript fit among professions is not strong in unmanned aerial vehicle system scheme design and engineering development processes is solved, and the consistency and production efficiency of system design are greatly improved.

The foregoing is merely specific embodiments of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions easily conceivable by those skilled in the art within the technical scope of the present application should be covered in the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (8)

1. A method for managing unmanned aerial vehicle system terminology, the method comprising

Acquiring terms used in the unmanned aerial vehicle system, wherein the terms comprise system engineering terms, system specification system terms and professional engineering terms, the system engineering related terms refer to terms which are required to be interpreted or emphasized in the development process of INCOSE system engineering handbook 4.0, NASA system engineering handbook and equipment, the terms comprise contents of processes, methods, tools and standards, the system specification system terms comprise system operation concepts, unmanned aerial vehicle system specifications and subsystem specifications of each system, the terms comprise terms related to equipment, the names comprise contents of equipment, unmanned aerial vehicle, ground control stations, guarantee systems, training systems, organisms, propulsion systems, flight systems, task systems, weapon systems and wire harness systems, and the professional engineering terms comprise contents of guarantee, reliability, testability, safety, electromagnetic compatibility and environment;

generating term entries according to the terms; and

and assigning user rights, and adding, deleting, modifying and updating the term entry according to the user rights.

2. The unmanned aerial vehicle system term management method of claim 1, wherein the method further comprises

Recording the time of generating or adding, deleting, modifying and updating the term entry.

3. The unmanned aerial vehicle system term management method of claim 1, wherein the method further comprises

The term is searched according to keywords or keywords.

4. The unmanned aerial vehicle system term management method of claim 1, wherein the method further comprises

The term entry can be derived and, when derived, can be converted to a desired format.

5. A unmanned aerial vehicle system term management platform, the platform comprising

The term acquisition module is used for acquiring terms used in the unmanned aerial vehicle system, wherein the terms comprise system engineering terms, system specification system terms and technical engineering terms, the system engineering related terms refer to terms which are required to be interpreted or emphasized in the INCOSE system engineering manual 4.0, NASA system engineering manual and equipment development process, the terms comprise flows, methods, tools and standard contents, the system specification system terms comprise system operation concepts, unmanned aerial vehicle system specifications and subsystem specifications of each system, the terms comprise equipment related terms, the names comprise equipment, unmanned aerial vehicle, ground control stations, assurance systems, training systems, organisms, propulsion systems, flywheel systems, task systems, weapon systems and harness systems, and the technical engineering terms comprise contents of assurance, reliability, testing, safety, electromagnetic compatibility and environment;

the term generation module is used for generating term terms according to the terms; and

and the user management module is used for adding, deleting or adjusting the authority of the user, wherein the authority of the user comprises modification, addition, deletion or update of the term entry.

6. The unmanned aerial vehicle system terminology management platform of claim 5, wherein the platform comprises

And the time recording module is used for recording the time of generating, adding, deleting, modifying and updating the term entry.

7. The unmanned aerial vehicle system terminology management platform of claim 5, wherein the platform comprises

And the search module is used for searching the terms according to the keywords or the keywords.

8. The unmanned aerial vehicle system terminology management platform of claim 5, wherein the platform comprises

And the format conversion module is used for converting the term entry in the platform into a required format.

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