CN110909070A

CN110909070A - Test data multi-view display system based on technical state

Info

Publication number: CN110909070A
Application number: CN201911214096.0A
Authority: CN
Inventors: 廖中华; 周军华; 孙鹏程; 蒲睿英
Original assignee: Beijing Simulation Center
Current assignee: Beijing Simulation Center
Priority date: 2019-12-02
Filing date: 2019-12-02
Publication date: 2020-03-24
Anticipated expiration: 2039-12-02
Also published as: CN110909070B

Abstract

This scheme provides a experimental data multiview display system based on technical state, and this system includes: the configuration unit is used for carrying out initial configuration on the experimental type, the development stage, the product and the professional type of the system; the application unit is used for associating test data according to the test items based on the initial configuration of the system; and the automatic execution unit is used for automatically matching the initial configuration, the test items and the test data to form a plurality of groups of display views, so that users with different identities can quickly acquire the test data information corresponding to the requirements in a visual mode. The scheme can quickly search the test data according to the requirements of various users, so that the steps of test information collection and test data uploading are clearer, responsibility division and implementation process monitoring are easy, and the ground meeting the test data management requirements of each unit can be effectively supported.

Description

Test data multi-view display system based on technical state

Technical Field

The application relates to the field of data processing, in particular to a test data multi-view display system based on a technical state.

Background

The test data view is an organization mode for reasonably showing the test data stored in the database in a certain form. In the test data management system, in order to meet the requirements of different users, multiple test data views are required to be customized to meet the requirements of the users.

Disclosure of Invention

According to a first aspect of embodiments of the present application, there is provided a system for displaying experimental data in multiple views based on technical status, the system comprising:

the configuration unit is used for carrying out initial configuration on the experimental type, the development stage, the product and the professional type of the system;

the application unit is used for associating test data according to the test items based on the initial configuration of the system;

and the automatic execution unit is used for automatically matching the initial configuration, the test items and the test data to form a plurality of groups of display views, so that users with different identities can quickly acquire the test data information corresponding to the requirements in a visual mode.

In a preferred embodiment, the configuration unit comprises:

the test type configuration module is used for classifying at least one of the information of the identification, the name and the hierarchy of the test type;

the development stage configuration module is used for configuring basic information of the development stage;

the product configuration module is used for classifying at least one of the information of the identification, the name and the hierarchy of the product;

and the professional type configuration module is used for classifying at least one of the information of the mark, the name and the hierarchy of the professional type.

In a preferred embodiment, the development phase configuration module is configured to configure the development phase identifier and the name of the development phase as one field.

In a preferred embodiment, the development phase configuration module is configured to classify the at least one of the above information of the identification and name of the development phase.

In a preferred embodiment, at least one of the test type configuration module, the development stage configuration module, the product configuration module and the professional type configuration module is classified by means of code classification or hierarchical relationship distribution.

In a preferred embodiment, the application unit comprises:

the test project association module is used for associating at least two kinds of information of test types, development stages and products in the test projects;

and the test data association module is used for associating the data output by the test item association module with the product and the professional type.

In a preferred embodiment, the associated data information in the application unit includes: the system comprises at least two data information of test item identification, test item name, test type identification, product identification, development stage identification, test time, test data identification, test data name, professional type identification and factory number.

In a preferred embodiment, the automatic execution unit includes:

the design view display module is used for automatically matching products, development stages, test types, test items and test data on the basis of the development stages and the test types to form a product design structure view;

and the test view display module is used for automatically matching the product, the product composition relation, the test item and the test data on the basis of the product composition relation of the product to form a test data analysis view.

In a preferred embodiment, the automatic execution unit includes:

the quality analysis display module is used for automatically matching the product, the product composition relation, the factory number, the test item and the test data on the basis of the factory number of the product to form a product quality problem tracing view;

and the professional analysis display module is used for automatically matching professional types, products, test items and test data on the basis of professional classification to form a cross-product test data analysis view.

In a preferred embodiment, the automatic execution unit includes:

and the management display module is used for dividing the test items on the basis of natural years, automatically matching the years, the models, the development stages and the test items and forming an annual test item management view.

Advantageous effects

The scheme can quickly search the test data according to the requirements of various users, so that the steps of test information collection and test data uploading are clearer, responsibility division and implementation process monitoring are easy, and the ground meeting the test data management requirements of each unit can be effectively supported.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 shows a schematic diagram of a multi-view presentation system of experimental data according to the present embodiment.

Detailed Description

In order to make the technical solutions and advantages of the embodiments of the present application more apparent, the following further detailed description of the exemplary embodiments of the present application with reference to the accompanying drawings makes it clear that the described embodiments are only a part of the embodiments of the present application, and are not exhaustive of all embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

In the prior art, the following two views of test data are common in design departments: 1) product-development phase-test type-test item; 2) the system comprises a subsystem, a whole machine and a test project.

The first scheme is for example: model, development phase, test type and test item

The test project tree model constructed by the product-stage-test type is divided according to the time line (namely the development process) of the product, and is divided according to the product, such as an X-01 series, an X-02 series, an X-03 series and the like, then divided according to the test stage, such as a pre-research stage, a model stage, a sample stage and the like, and finally divided according to the test type, such as a single machine test, an integration test, an environment test, a simulation test and the like.

The second scheme is for example: system-subsystem-whole machine-test project

The method comprises the following steps of constructing a test project tree model through a system, a subsystem and a whole machine, wherein the test project tree model is divided according to the composition structure of a product, the test project is divided according to the system, such as the system 01, the system 02, the system 03 and the like, and then divided according to the subsystem, such as the subsystem 01, the subsystem 02, the subsystem 03 and the like; and finally, the combination is divided into a combination 01, a combination 02, a combination 03 and the like according to the combination.

According to the analysis of a writer, the following two main defects exist in the prior art:

1) the existing view can not meet the requirements of different user views

In practical application, people who design departments pay attention to test data can be divided into four categories, namely designers, testers, managers, quality analyzers and professional analyzers, wherein the attention perspectives of the designers, the testers, the managers, the quality analyzers and the professional analyzers are different, for example, the designers pay attention to all similar test conditions of products in a certain design state (such as a development stage); the tester pays attention to whether the data of a specific test project meets the requirements; managers pay attention to the completion of periodic (such as year, month and day) test tasks; mass analysts focus on the quality changes over the product's full life cycle; professional analysts are concerned about the commonality of a system as reflected in multiple model test data.

2) The existing view can not meet the application requirement of a complex system

The complex system not only has a large number of products and a complex composition mode, but also brings the problems of various tests, complex test data processing and the like which challenge the existing view. The product types of the complex system are multiple, the product composition level is deep, and the existing view 'system-subsystem-complete machine-test project' receives a severe challenge; all material tests, semi-material simulation tests and pure digital simulation tests are calculated, the test types of complex systems exceed dozens, and the simple 'model-development stage-test type-test item' cannot meet the requirement of quick searching and positioning; the system/subsystem level test of a complex system usually takes part in a plurality of products, a plurality of specialties and a plurality of departments, and the existing view is difficult to meet the requirement of rapid data positioning in the multi-speciality and multi-department collaborative test.

Based on the research and analysis of the testers, the test data management system is used as a basis, a test data multi-view implementation scheme for the complex system is provided for multi-product, multi-professional and multi-department collaborative test for the complex system and application requirements of various user (designers, testers, managers, quality analyzers, professional analyzers and the like) view angles of the practical application test data management system. The scheme can effectively solve the problems that the existing test data view can not meet the requirements of different user viewing angles and can not meet the application requirements of a complex system.

As shown in fig. 1, the present disclosure discloses a test data multi-view display system based on technical state, the system includes: the device comprises a configuration unit, an application unit and an automatic execution unit. The experimental type, the development stage, the product and the professional type of the system are initially configured through a configuration unit; associating test data according to the test items based on the initial configuration of the system by using the application unit; and finally, automatically matching the initial configuration, the test items and the test data through an automatic execution unit to form a plurality of groups of display views, so that users with different identities can quickly acquire test data information corresponding to requirements in a visual mode.

In this solution, the configuration unit includes: the device comprises a test type configuration module, a product configuration module and a professional type configuration module. The test type configuration module is used for classifying at least one of the information of the identification, the name and the hierarchy of the test type; the product configuration module is used for classifying at least one of the information of the identification, the name and the hierarchy of the product; and the professional type configuration module is used for classifying at least one of the information of the mark, the name and the hierarchy of the professional type. Furthermore, the configuration unit further includes: and the development stage configuration module is used for configuring basic information of the development stage. The development stage configuration module can configure the development stage identifier and the development stage name into a field according to the requirement; at least one of the above information of the identification and name of the development stage may also be classified.

In the scheme, at least one of the test type configuration module, the development stage configuration module, the product configuration module and the professional type configuration module is classified by adopting a code classification or hierarchical relation distribution mode.

In this scheme, the application unit includes: the device comprises a test item association module and a test data association module. The test item association module associates at least two information of test type, development stage and product in the test item; and then, the data output by the test item association module is associated with the product and the professional type by using the test data association module. The data information needing to be associated in the application unit comprises: the system comprises at least two data information of test item identification, test item name, test type identification, product identification, development stage identification, test time, test data identification, test data name, professional type identification and factory number.

In the scheme, the automatic execution unit can provide corresponding data views according to different user identities. In particular, the amount of the solvent to be used,

the automatic execution unit may include: the design view display module and the test view display module. By designing a view display module, automatically matching products, development stages, test types, test items and test data on the basis of the development stages and the test types to form a product design structure view; therefore, designers can quickly locate design defects through design structure views. By the aid of the test view display module, products, product composition relations, test items and test data are automatically matched on the basis of the product composition relations of the products, and a test data analysis view is formed; thereby enabling the tester to quickly locate the test failure section.

The automatic execution unit may further include: a quality analysis display module and a professional analysis display module. Automatically matching the product, the product composition relation, the factory number, the test item and the test data by using a quality analysis display module on the basis of the factory number of the product to form a product quality problem tracing view; therefore, quality management personnel can conveniently inquire the test data of a specific product in a full life cycle and trace quality problems. By a professional analysis display module, on the basis of professional classification, professional types, products, test items and test data are automatically matched to form a cross-product test data analysis view; therefore, professional analysts can conveniently analyze the cross-product test data from the professional perspective.

The automatic execution unit may further include: and managing the display module. Dividing test items on the basis of natural years through a management display module, automatically matching the years, models, development stages and test items, and forming an annual test item management view; therefore, management of the annual test projects by managers is realized.

The present solution is further illustrated by the following examples.

As shown in fig. 1, the present embodiment provides a test data multi-view display system based on a technical state, and specifically the system includes: the system comprises a test type configuration module, a professional type configuration module, a product configuration module, a development stage configuration module, a test project association module, a test data association module and a multi-view application module. The test type configuration module, the professional type configuration module, the product configuration module and the development stage configuration module are basic modules, are constructed and completed during system initialization, and can be only used for calling configuration information; the test item association module and the test data association module are inlets of daily test data and can be communicated with the test type configuration module, the professional type configuration module, the product configuration module and the development stage configuration module; the multi-view application module is automatically executed by the system, communicating with the other 7 modules.

In this embodiment, the constructed test types in the test type configuration module may support hierarchical classification. Two methods can be adopted for the classification of the hierarchy:

1) code classification

2) Hierarchical relational description taxonomy

Serial number	Attribute name	Description of the invention
			1	Test type ID	Unique identification of test type
2	Name of test type	Name of test type
			3	Superior test type ID	ID of superior test type corresponding to the test type

In this embodiment, the professional type constructed in the professional type configuration module may support hierarchical classification. Two methods can be adopted for the classification of the hierarchy:

1) code classification

2) Hierarchical relational description taxonomy

Serial number	Attribute name	Description of the invention
			1	Professional type ID	Unique identification of professional type
2	Name of professional type	Name of professional type
			3	Superior professional type ID	ID of superior specialty type corresponding to this specialty type

In this embodiment, the built products in the product configuration module may support hierarchical classification. Two methods can be used for the classification of products:

1) code classification

2) Description of hierarchical relationships

Serial number	Attribute name	Description of the invention
			1	Product ID	Unique identification of a product
2	Product name	Name of product
			3	Superior product ID	ID of superior product corresponding to the product

In this embodiment, the development phases in the development phase configuration module may not be divided into tiers, or may be divided into multiple tiers.

When not hierarchical, the basic information for building the development phase should include the contents in the following table. But sometimes the development phase ID and development phase name can be combined into one field.

Serial number	Attribute name	Description of the invention
			1	Development stageSegment ID	Unique identification of development stage
2	Development phase names	Name of development stage

When multi-level development stages are supported, there may also be multiple construction methods, two of which are common:

1) code classification

2) Description of hierarchical relationships

In this embodiment, the association information of the test items in the test item association module includes:

in this embodiment, the relevant information of the test item in the test data relevant module includes:

in this embodiment, the multi-view application module may automatically implement the following 5 types of data views:

(1) designer views

The designer view provides views of 'product-development stage (level) -test type (level) -test item-test data' on the basis of development stage and test type, so that the rapid composition and application of the product design structure view are realized, the product structure analysis speed is improved, and the design defects are rapidly positioned.

(2) Experimenter's view

The view of the tester is based on the product composition relation of the product, provides a view of 'product-product composition (hierarchy) — test item-test data', and is convenient for the tester to analyze the test data and quickly locate the test fault part.

(3) Mass analyst view

The view of the quality analyst provides a view of 'product-product composition (level) -factory number-test item-test data' on the basis of the factory number of the product, so that the quality analyst can conveniently inquire the test data of a specific product in a full life cycle and trace quality problems.

(4) Professional analyst view

The view of professional analysts is based on professional classification, and provides a view of ' professional type (level) ' -product-test item-test data ', so that the professional analysts can conveniently analyze the cross-product test data from the professional perspective.

(5) Manager view

The administrator view divides the test items on the basis of natural years, provides a view of 'year-model-development stage (level) -test items', and realizes annual test item management.

In conclusion, the problem that when multiple types of users (model designers, testers, managers, quality analyzers, professional analyzers and the like) apply the test data management system in multi-product, multi-professional and multi-department collaborative tests of the complex system, the existing test data view cannot meet the requirements of different user viewing angles and cannot meet the application requirements of the complex system can be solved, and the unique technical state management basic framework of the test data is realized.

The scheme can enable the steps of test information collection and test data uploading to be clearer according to the requirements of various users for quickly searching test data, is easy to divide responsibility and implement process monitoring, and can effectively support the landing of the management requirements of each unit of test data; so that each unit can conveniently extend various attributes according to the actual situation of the unit.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The present invention is not limited to the above embodiments, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention are included in the scope of the claims of the present invention which are filed as the application.

Claims

1. A state-of-the-art based multi-view presentation system of experimental data, the system comprising:

2. The experimental data multi-view presentation system of claim 1, wherein said configuration unit comprises:

3. The experimental data multi-view presentation system of claim 2, wherein said development phase configuration module is configured to configure a development phase identifier and a development phase name as a field.

4. The experimental data multi-view presentation system of claim 2, wherein said development phase configuration module is configured to categorize at least one of the above information of identification and name of development phase.

5. The multi-view test data display system of claim 4, wherein at least one of the test type configuration module, the development stage configuration module, the product configuration module, and the professional type configuration module is classified by means of code classification or hierarchical relationship distribution.

6. The experimental data multi-view presentation system of claim 2, wherein said application unit comprises:

7. The experimental data multi-view presentation system of claim 6, wherein the associated data information in the application unit comprises: the system comprises at least two data information of test item identification, test item name, test type identification, product identification, development stage identification, test time, test data identification, test data name, professional type identification and factory number.

8. The experimental data multi-view presentation system of claim 1, wherein said automated execution unit comprises:

9. The experimental data multi-view presentation system of claim 1 or 8, wherein said automatic execution unit comprises:

10. The experimental data multi-view presentation system of claim 1, 8 or 9, wherein said automatic execution unit comprises: