Performance evaluation method and device for intelligent traffic development platform
Technical Field
The application relates to the technical field of intelligent traffic development platforms, in particular to a performance evaluation method and device for an intelligent traffic development platform.
Background
With the rapid development of the internet of things technology, software and hardware technologies related to the internet of things technology are also rapidly developed, the application field is continuously expanded, and an intelligent traffic system is a typical application of the development of the internet of things technology. An Intelligent Traffic System (ITS) is a development direction of future traffic systems, which is a comprehensive traffic management System established by effectively integrating and applying advanced information technology, data communication transmission technology, electronic sensing technology, control technology, computer technology and the like to the whole ground traffic management System, plays a role in a large range and all around, is a development direction of future traffic systems, and is a comprehensive traffic management System established by effectively integrating and applying advanced information technology, data communication transmission technology, electronic sensing technology, control technology, computer technology and the like to the whole ground traffic management System, plays a role in a large range and all around, and is real-time, accurate and efficient. According to the intelligent traffic construction requirement planned by 'twelve five', the types and the number of intelligent traffic facilities are increased sharply. The intelligent transportation facilities are the most direct expression means and form of traffic management, and mainly manage and regulate traffic flow in space and time to ensure the safe and smooth traffic of road traffic. The management of traffic facilities has a very direct influence on the safe and orderly smooth road traffic. The traditional traffic facility management simply depends on personnel registration management, the management mode is backward, the efficiency is low, the supervision range is limited, the facility operation and maintenance conditions are not transparent, and operation monitoring, operation management, machine room management, outfield maintenance, performance assessment, construction and application departments are all strip division management, so that failure discovery and removal are not timely, operation and maintenance information is not shared, and great influence is brought to urban traffic efficiency.
In the prior art, methods for improving the performance and diagnosing and maintaining the fault of the intelligent transportation system are also provided. However, these methods are diagnostic methods implemented in practical popularization and application processes. The intelligent traffic system needs to carry out a series of preliminary works such as debugging, performance evaluation, fault diagnosis and the like in a development stage before leaving a factory, and can be successfully produced in batches and put into market application only through the works. In the prior art, the early-stage work of debugging, performance evaluation and the like of the intelligent transportation system in the development stage before leaving the factory is usually realized by manually debugging each module by developers, and combining each module to realize the final combined debugging of system functions, so that the test requirements are finally met, and then the mass production can be realized.
However, although the above method realizes various functional requirements in the debugging stage, the manual debugging and fault diagnosis method has the problem of low efficiency, is greatly influenced by the individual technical level of developers, and is not favorable for standardized and batch development and testing. Therefore, an automatic and efficient method for debugging and performance evaluation of the intelligent transportation system in the development stage before the factory leaving is yet to be provided.
Disclosure of Invention
A performance evaluation method for an intelligent transportation development platform comprises the following steps:
s1, terminal interfaces required by testing are arranged on a circuit board of the intelligent traffic development platform, a circuit structure diagram of the intelligent traffic development platform is led into testing equipment, and testing terminals of the testing equipment are connected with the corresponding terminal interfaces;
s2, dividing the test process into a function test stage and a performance test stage; distributing function weight values to all circuit function units of the intelligent traffic development platform in the function test stage, and distributing performance weight values to all circuit function units of the intelligent traffic development platform in the performance test stage;
s3, performing function test on each circuit function unit of the intelligent transportation development platform according to the circuit structure diagram, if the function test meets the preset function requirement, performing performance test on the circuit function units, and if the performance test of each circuit function unit meets the performance test requirement of the preset circuit function units, performing function joint debugging performance test on the intelligent transportation development platform to obtain a function joint debugging test result;
and S4, uploading the function test results of each circuit function unit, the performance test results of each circuit function unit and the function joint debugging test results to an analysis system, and analyzing and evaluating the test results by the analysis system to obtain evaluation results for reference and improvement of developers with corresponding authorities.
As a preferred embodiment, the step S3 specifically includes: performing function test on each circuit function unit of the intelligent traffic development platform according to the circuit structure diagram to obtain a function test result of each circuit function unit, and multiplying the function test result of each circuit function unit by the corresponding function weight value to obtain a function test evaluation result of each circuit function unit; if the function test evaluation result meets the preset function evaluation requirement, performing the performance test of the circuit function units to obtain the performance test result of each circuit function unit, and multiplying the performance test result of each circuit function unit by the corresponding performance weight value to obtain the performance test evaluation result of each circuit function unit; and if the performance test evaluation result of each circuit function unit meets the performance evaluation requirement of a preset circuit function unit, performing a function joint debugging performance test on the intelligent traffic development platform to obtain a function joint debugging test result.
As a preferred embodiment, the step S4 further includes: setting a statistical unit; and uploading the test results to an analysis system, analyzing and evaluating the test results by the analysis system to obtain evaluation results, importing the evaluation results to a statistical unit, and performing transverse analysis on a plurality of evaluation results by the statistical unit to obtain transverse analysis results of each unit and transverse analysis results of function joint debugging for reference improvement of developers with corresponding authorities.
As another embodiment, the present invention provides an intelligent transportation development platform performance evaluation apparatus, including the following modules:
the configuration module is used for setting a terminal interface required by testing on a circuit board of the intelligent traffic development platform, importing a circuit structure diagram of the intelligent traffic development platform into testing equipment, and connecting a testing terminal of the testing equipment with the corresponding terminal interface;
the weight value setting module is used for dividing the testing process into a function testing stage and a performance testing stage; distributing function weight values to all circuit function units of the intelligent traffic development platform in the function test stage, and distributing performance weight values to all circuit function units of the intelligent traffic development platform in the performance test stage;
the test module is used for carrying out function test on each circuit function unit of the intelligent transportation development platform according to the circuit structure diagram to obtain a function test result of each circuit function unit, and multiplying the function test result of each circuit function unit by the corresponding function weight value to obtain a function test evaluation result of each circuit function unit; if the function test evaluation result meets the preset function evaluation requirement, performing the performance test of the circuit function units to obtain the performance test result of each circuit function unit, and multiplying the performance test result of each circuit function unit by the corresponding performance weight value to obtain the performance test evaluation result of each circuit function unit; if the performance test evaluation result of each circuit function unit meets the performance evaluation requirement of a preset circuit function unit, performing a function joint debugging performance test on the intelligent traffic development platform to obtain a function joint debugging test result;
the result analysis module is used for setting a statistical unit; and uploading the test results to an analysis system, analyzing and evaluating the test results by the analysis system to obtain evaluation results, importing the evaluation results to a statistical unit, and performing transverse analysis on a plurality of evaluation results by the statistical unit to obtain transverse analysis results of each unit and transverse analysis results of function joint debugging for reference improvement of developers with corresponding authorities.
The invention provides a testing method and a testing device for an intelligent traffic development platform, which realize the test performance evaluation of each functional unit of the intelligent traffic development platform by setting a weighted value for each functional unit of the intelligent traffic development platform, improve the testing efficiency and increase the control of testers on the test results of each functional unit and the whole platform; in addition, the circuit structure diagram of the test object is added in the test process, so that the recognition capability of the circuit structure of the test object is greatly improved, and the test efficiency is improved; and finally, the evaluation and analysis are carried out on the result of a single test, and the transverse evaluation and analysis are also carried out on the result of multiple tests, so that the test efficiency is further improved, and powerful guarantee is provided for developers to efficiently complete the work of the development and test stage.
Drawings
Fig. 1 is a schematic diagram of an intelligent traffic development platform testing device according to the present invention.
Detailed Description
The embodiments of the present invention are further described below with reference to the drawings.
The first embodiment is as follows:
the invention provides a performance evaluation method of an intelligent traffic development platform, which comprises the following steps:
s1, terminal interfaces required by testing are arranged on a circuit board of the intelligent traffic development platform, a circuit structure diagram of the intelligent traffic development platform is led into testing equipment, and testing terminals of the testing equipment are connected with the corresponding terminal interfaces;
s2, dividing the test process into a function test stage and a performance test stage; distributing function weight values to all circuit function units of the intelligent traffic development platform in the function test stage, and distributing performance weight values to all circuit function units of the intelligent traffic development platform in the performance test stage;
s3, performing function test on each circuit function unit of the intelligent transportation development platform according to the circuit structure diagram, if the function test meets the preset function requirement, performing performance test on the circuit function units, and if the performance test of each circuit function unit meets the performance test requirement of the preset circuit function units, performing function joint debugging performance test on the intelligent transportation development platform to obtain a function joint debugging test result;
and S4, uploading the function test results of each circuit function unit, the performance test results of each circuit function unit and the function joint debugging test results to an analysis system, and analyzing and evaluating the test results by the analysis system to obtain evaluation results for reference and improvement of developers with corresponding authorities.
The platform of the intelligent transportation development platform comprises: the system comprises a main control unit, a power supply unit, a level conversion unit, a display unit, an interface unit, a bus unit, a key control unit, a wireless communication unit and a voice input unit; the main control unit is respectively in communication connection with the power supply unit, the level conversion unit, the display unit, the interface unit, the bus unit, the key control unit, the wireless communication unit and the voice input unit; the key control unit is respectively in communication connection with the power supply unit, the display unit, the wireless communication unit and the voice input unit; the level conversion unit is used for level conversion requirements among different units; the display unit is used for displaying the information of the intelligent traffic development platform in real time; the interface unit is used for realizing interface conversion among all units; the bus unit is used for data communication among all units; the key control unit is used for controlling the on-off of each unit signal; the wireless communication unit is used for realizing wireless communication between the intelligent traffic development platform and remote equipment; the voice input unit is used for realizing the input of voice signals.
Different functional unit modules have different important influences on the performance and the function of the whole development platform, so different weight values are configured for different functional unit modules, and the function and the performance of the platform are evaluated through the sum of the corresponding functional unit module and the weight value score of the functional unit module. For example, the main control unit plays a crucial role in implementing functions of the entire platform, and configures a weight value of 0.5 for the main control unit, and the power module plays an important role in implementing functions of the entire platform, configures a weight value of 0.2 for the main control unit, and so on, and detailed description is omitted here, and those skilled in the art should understand what is meant here.
As a preferred embodiment, the step S3 specifically includes: performing function test on each circuit function unit of the intelligent traffic development platform according to the circuit structure diagram to obtain a function test result of each circuit function unit, and multiplying the function test result of each circuit function unit by the corresponding function weight value to obtain a function test evaluation result of each circuit function unit; if the function test evaluation result meets the preset function evaluation requirement, performing the performance test of the circuit function units to obtain the performance test result of each circuit function unit, and multiplying the performance test result of each circuit function unit by the corresponding performance weight value to obtain the performance test evaluation result of each circuit function unit; and if the performance test evaluation result of each circuit function unit meets the performance evaluation requirement of a preset circuit function unit, performing a function joint debugging performance test on the intelligent traffic development platform to obtain a function joint debugging test result.
As a preferred embodiment, the step S4 further includes: setting a statistical unit; and uploading the test results to an analysis system, analyzing and evaluating the test results by the analysis system to obtain evaluation results, importing the evaluation results to a statistical unit, and performing transverse analysis on a plurality of evaluation results by the statistical unit to obtain transverse analysis results of each unit and transverse analysis results of function joint debugging for reference improvement of developers with corresponding authorities.
Example two:
as another embodiment, as shown in fig. 1, the present invention provides an intelligent transportation development platform performance evaluation apparatus, which includes the following modules:
the configuration module is used for setting a terminal interface required by testing on a circuit board of the intelligent traffic development platform, importing a circuit structure diagram of the intelligent traffic development platform into testing equipment, and connecting a testing terminal of the testing equipment with the corresponding terminal interface;
the weight value setting module is used for dividing the testing process into a function testing stage and a performance testing stage; distributing function weight values to all circuit function units of the intelligent traffic development platform in the function test stage, and distributing performance weight values to all circuit function units of the intelligent traffic development platform in the performance test stage;
the test module is used for carrying out function test on each circuit function unit of the intelligent transportation development platform according to the circuit structure diagram to obtain a function test result of each circuit function unit, and multiplying the function test result of each circuit function unit by the corresponding function weight value to obtain a function test evaluation result of each circuit function unit; if the function test evaluation result meets the preset function evaluation requirement, performing the performance test of the circuit function units to obtain the performance test result of each circuit function unit, and multiplying the performance test result of each circuit function unit by the corresponding performance weight value to obtain the performance test evaluation result of each circuit function unit; if the performance test evaluation result of each circuit function unit meets the performance evaluation requirement of a preset circuit function unit, performing a function joint debugging performance test on the intelligent traffic development platform to obtain a function joint debugging test result;
the result analysis module is used for setting a statistical unit; and uploading the test results to an analysis system, analyzing and evaluating the test results by the analysis system to obtain evaluation results, importing the evaluation results to a statistical unit, and performing transverse analysis on a plurality of evaluation results by the statistical unit to obtain transverse analysis results of each unit and transverse analysis results of function joint debugging for reference improvement of developers with corresponding authorities.
In addition, as an intelligent traffic development platform test device, the device may be configured with unit modules corresponding to the above-mentioned intelligent traffic development platform test method, and therefore, may have unit modules matching the above-mentioned method, which will not be described repeatedly herein.
The invention provides a testing method and a testing device for an intelligent traffic development platform, which realize the test performance evaluation of each functional unit of the intelligent traffic development platform by setting a weighted value for each functional unit of the intelligent traffic development platform, improve the testing efficiency and increase the control of testers on the test results of each functional unit and the whole platform; in addition, the circuit structure diagram of the test object is added in the test process, so that the recognition capability of the circuit structure of the test object is greatly improved, and the test efficiency is improved; and finally, the evaluation and analysis are carried out on the result of a single test, and the transverse evaluation and analysis are also carried out on the result of multiple tests, so that the test efficiency is further improved, and powerful guarantee is provided for developers to efficiently complete the work of the development and test stage.
The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.