CN109961159A - A new type of vehicle non-disintegration detection and network supervision method - Google Patents

Abstract

A new type of vehicle non-disintegration detection and network supervision method, the invention relates to the technical field of motor vehicle detection; based on the principle of distributed system construction, a four-layer network framework is built; the constructed inspection agency-level platform realizes the input and upload of test data: The inspection agency is mainly used to collect and upload motor vehicle inspection data; the constructed municipal cloud platform verifies and evaluates the data uploaded by the inspection agency, supervises the inspection agency to implement the inspection, and shares the inspection data on the municipal cloud platform; the constructed provincial cloud platform The cloud platform aggregates the data of its affiliated municipal cloud platforms, realizes data sharing at the provincial level, and supervises the performance of duties by municipal institutions; the built national cloud platform realizes the sharing of national data and supervises the performance of provincial institutions. It can make the motor vehicle detection process transparent and open, can effectively suppress bad competition, crack down on fraudulent behaviors, and improve road traffic safety; and can optimize the detection process and achieve zero redundancy of detection data.

Description

A new type of vehicle non-disintegration detection and network supervision method

technical field

The invention relates to the technical field of motor vehicle detection, in particular to a new type of vehicle non-disintegration detection and network supervision method.

Background technique

According to the latest research report released by the State Administration of Work Safety and the Ministry of Transport on December 19, China reported a total of 8.643 million road traffic accidents in 2016, a year-on-year increase of 659,000 or 16.5%. From January to April 2017, the number of traffic accidents and fatalities in my country's road transport sector increased significantly compared with the same period in 2016, an increase of 12.2% and 16.2% respectively. (Source: National Emergency Broadcasting Network Comprehensive) The steering, braking, driving, electrical and other parts of motor vehicles are the main factors causing accidents, so it is very necessary to test the safety performance of motor vehicles; the global oil consumption in 2017 my country consumes oil every day: 10 billion barrels, ranking second in the world, but my country's oil resources are in short supply, mainly relying on imports, Russia, Saudi Arabia, Angola, Iraq, etc. are my country's main oil sources. In the face of the energy crisis, energy conservation, emission reduction, and fuel consumption reduction cannot be ignored. These put forward higher requirements for the comprehensive performance testing of motor vehicles; reducing environmental pollution and developing ecological civilization have put forward new requirements and new standards for motor vehicle environmental protection testing. In conclusion, motor vehicle inspection including safety, comprehensive performance and environmental protection testing can effectively alleviate serious road traffic safety problems, energy consumption problems and environmental pollution problems.

SUMMARY OF THE INVENTION

The purpose of the present invention is to aim at the defects and deficiencies of the prior art, to provide a new type of vehicle non-disintegration detection and network supervision method with simple structure, reasonable design and convenient use, which can make the motor vehicle detection process transparent and open. , which can effectively suppress bad competition, crack down on fraudulent behavior, and improve road traffic safety; and can optimize the detection process, which can effectively alleviate the problem of over-concentration of vehicle detection and ease the detection pressure; users can get a more friendly experience and support remote detection; Use the cloud platform to share data to achieve zero redundancy of detection data.

To achieve the above object, the technical scheme adopted in the present invention is: its operation steps are as follows:

1. Based on the principle of distributed system construction, build a four-layer network framework, including inspection agency-level platform, municipal-level cloud platform, provincial-level cloud platform and national-level cloud platform, using HTTP/JSON data format for transmission to realize four-layer network Data sharing, that is, the inspection agency obtains the vehicle inspection information through the inspection device, archives the vehicle inspection data locally, and uploads the data to the municipal cloud platform; the municipal cloud platform is used with the provincial cloud platform and the national cloud platform. Distributed system remote data synchronization mechanism, realize data synchronization and sharing, ensure data consistency, realize data sharing and test data synchronization;

2. The built inspection agency-level platform realizes the entry and upload of inspection data (including video, image and text data); the inspection agency directly inspects the motor vehicle, and the items involved are: appearance inspection, chassis dynamics, chassis inspection, road test Inspection, speed, braking, light sideslip, chassis output power, fuel consumption, suspension, sound level, exhaust emissions, etc.;

In order to eliminate the redundancy of test data entry, and no longer distinguish between "safety", "environmental protection" and "comprehensive performance" tests, users apply for test items (by appointment or on-site), and apply for each test item only once; For items with overlapping “safety”, “environmental protection” and “comprehensive performance” tests, only apply for one test, and upload the test result data to the cloud platform; the three government agencies of safety, operation management, and environmental protection pass the cloud platform according to their respective management functions. Obtain the required data for judgment;

Support off-site detection, that is, the basic information and testing data of motor vehicles, through the framework to realize the sharing of big data cloud platform; motor vehicles can query the detected items at off-site (nationwide) testing stations, and the untested items can be continued off-site. detection;

3. The constructed municipal cloud platform verifies and evaluates the data uploaded by the testing agency, supervises the implementation of testing by the agency, and shares the testing data on the municipal cloud platform; Share at the provincial level and supervise the performance of duties by municipal institutions; the built national cloud platform realizes the sharing of national data and supervises the performance of provincial institutions.

Further, the detection system process of the inspection agency-level platform of the step 2 is as follows:

2.1. Car owner appointment: When choosing the car review hotline, the customer can make an appointment for a car review according to the information prompted by themselves or manually; when choosing a car review portal or a car review app, the user is provided with positioning and nearby testing station information; when paying, support online Payment and payment on delivery; after the payment is successful, the system prompts the user to review the car’s precautions (time, location, carrying information, etc.); after the car owner entrusts the car to the inspection agency, the appointment is completed; after that, the user can pass the portal website or The app pays attention to the vehicle review process in real time to enhance the owner's sense of gain; at the end of the inspection, if the vehicle is qualified, the review is completed; if the vehicle is not qualified, the owner is recommended to repair the car at a nearby repair place for specific problems, so as to provide users with more humanized services;

2.2. Inspection application: According to the user's appointment information or on-site appointment information, enter the basic information of the motor vehicle and the items to be inspected; the basic information of the motor vehicle can be obtained through the 18C49 interface online query, which can be obtained through the license plate number, license plate type and vehicle identification code. Combination for query; according to the test category (safety, environmental protection and comprehensive performance test) applied by the user, combined with the category of the vehicle, call the 18C64 interface to obtain the items to be tested by the motor vehicle (appearance inspection, chassis dynamics, chassis inspection, etc.); information input After completion, call the 18C51 interface to write the motor vehicle input information to complete the inspection work;

2.3. Item inspection: After the vehicle inspection is completed, the vehicle to be inspected enters the queue to be inspected; select a vehicle to be inspected on the mobile intelligent inspection terminal (PDA), call the 18C52 interface to write the start inspection information, and call the 18C55 interface to write the external inspection Project information; after that, call the 18C47 interface to obtain the corresponding photos and manual inspection items. After the appearance inspection, call the 18C80 interface to upload the detailed information of the appearance inspection items, and call the 18C63 interface to upload the photos taken during the appearance inspection process. After the inspection is completed, call The 18C58 interface writes the project end information. The process of the instrument and equipment inspection part is similar. After all the project inspections are completed, the project inspection is completed; the rest of the instrument and equipment inspection items inspection process (such as: exhaust gas inspection, brake inspection, etc.) is similar to the appearance inspection process. ;

2.4. Application review: After the inspection of all items is completed, if there is an item that fails the inspection, that is, the whole vehicle is judged to be unqualified, and the vehicle enters the re-inspection queue. Due to the data sharing of the cloud platform, the owner can choose to repair or go to other inspections at this time. If all items are qualified, it is judged that the whole vehicle is qualified, and the 18C62 interface is called to write the inspection and judgment result information; after the qualified vehicle information is transmitted to the high-speed scanning station, the 18C61 interface is called to upload the insurance information, and the 18C63 interface is called to write Photos of each inspection data; finally call the 18C64 interface to submit the application for vehicle inspection data review to the municipal cloud platform.

Further, in the described step 2, in order to ensure the credibility of the test result data, it realizes the full record and full synchronization of the detection process, the rhythm, and the cloud platform utilizes the HTTP/JSON format to upload and download information through the interface of the national standard, and realizes Through the trigger mechanism, the intermediate results are pushed to the owner in real time, so that the user can track the detection situation of the motor vehicle in real time. For example: when testing motor vehicle exhaust, the exhaust emission standard and actual vehicle data are simultaneously pushed to the user, and the evaluation (qualified or unqualified) is given at the same time, so that the user can have a real-time understanding of the motor vehicle testing process, and give users more information urge the staff of the inspection agency to inspect each item to be inspected in strict accordance with the latest standards, to ensure that the inspected motor vehicle has no potential safety hazards, and its own fuel efficiency is the highest, which is for road traffic safety and energy saving. contribution to reducing emissions.

After the above-mentioned method is adopted, the beneficial effects of the present invention are as follows: the novel vehicle non-disintegration detection and network supervision method according to the present invention can make the motor vehicle detection process transparent and open, and can effectively suppress bad competition and combat Fraudulent behavior improves road traffic safety; and the detection process can be optimized, which can effectively alleviate the problem of over-concentration of vehicle detection and relieve the pressure of detection; users can get a more friendly experience while supporting remote detection; due to the use of cloud platform to share data, to achieve detection With zero redundancy of data, the present invention has the advantages of simple structure, reasonable setting and low production cost.

Description of drawings

In order to explain the embodiments of the present invention or the technical solutions in the prior art more clearly, the following briefly introduces the accompanying drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description are only These are some embodiments of the present invention. For those of ordinary skill in the art, other drawings can also be obtained according to these drawings without creative efforts.

FIG. 1 is a four-layer framework diagram of networking based on HTTP/JSON in the present invention.

Fig. 2 is a network topology structure diagram in the present invention.

FIG. 3 is a flow chart of vehicle owner reservation in the present invention.

Fig. 4 is the flow chart of reporting inspection in the present invention.

FIG. 5 is a flow chart of item detection in the present invention.

FIG. 6 is a flow chart of application review in the present invention.

Detailed ways

The present invention will be further described below in conjunction with the accompanying drawings.

Referring to Fig. 1-Fig. 6, the technical solution adopted in this specific embodiment is: its operation steps are as follows:

1. Based on the principle of distributed system construction, build a four-layer network framework (see Figure 1), including inspection agency-level platform, municipal-level cloud platform, provincial-level cloud platform and national-level cloud platform, using HTTP/JSON data format for transmission , realize four-layer network data sharing, build a system network cloud platform according to the network topology structure in Figure 2, realize the nationwide sharing of test data, and ensure zero redundancy of test result data. Terminal users are mainly divided into three categories. The first category is mobile terminal users. They log in to the server through applications on mobile phones, tablet computers, or WWW services. These users are widely distributed and can be connected wherever there is a mobile signal or wireless Wifi coverage. into the system. The second category is users who use desktop computers or mobile PCs in families and enterprises, and log in to the server by accessing the WWW service. The third type is the users of inspection institutions. The connection between these users and the server is the same as that of the first two types of users, either through mobile or fixed PCs. Internet, which can easily provide some convenient services for users;

The system server adopts a distributed structure. The first level is the login server, which provides load balancing. The login server adopts the completion port model, which has a certain connection upper limit. The number of login servers is determined according to the number of users. The login server selects an appropriate application server for the user according to the number of online users of each application server, and disconnects the connection between the user and the login server at this time. The application server processes all read and write requests of users and exchanges data to the DB server. The DB server is divided into the core master library and the slave libraries on each distributed server. The slave library is cached in a distributed environment as an instance of the master library, and the slave library and the master library need to be synchronized in time;

2. The built inspection agency-level platform realizes the entry and upload of inspection data (including video, image and text data); the inspection agency directly inspects the motor vehicle, and the items involved are: appearance inspection, chassis dynamics, chassis inspection, road test Inspection, speed, braking, light sideslip, chassis output power, fuel consumption, suspension, sound level, exhaust emissions, etc. The inspection system process is as follows:

2.1. Car owner appointment: refer to Figure 3, when selecting the car review hotline, the customer can make an appointment for a car review according to the self- or manual prompting information; when selecting a car review portal or a car review app, the user is provided with positioning and nearby testing station information; payment; Online payment and payment on delivery are supported; after the payment is successful, the system prompts the user to review the car’s precautions (time, location, carrying information, etc.); after the car owner entrusts the car to the inspection agency personnel, the appointment is completed; after that, the user can Follow the vehicle review process in real time through the portal website or app to enhance the owner's sense of gain; at the end of the inspection, if the vehicle is qualified, the review will be completed; if the vehicle is unqualified, the owner will be recommended to repair the car at a nearby repair place for specific problems, making the user more humane services;

2.2. Inspection application: refer to Figure 4, enter the basic information of the motor vehicle and the items to be inspected according to the user's reservation information or on-site reservation information; Inquiry in combination with the vehicle identification code; according to the testing category (safety, environmental protection and comprehensive performance testing) applied by the user, combined with the category of the vehicle, call the 18C64 interface to obtain the items to be detected by the motor vehicle (appearance inspection, chassis dynamics, chassis inspection, etc. ); After the information is input, call the 18C51 interface to write the motor vehicle input information to complete the inspection work;

2.3. Item inspection: After the vehicle inspection is completed, the vehicle to be inspected enters the queue to be inspected; refer to Figure 5, select a vehicle to be inspected on the mobile intelligent inspection terminal (PDA), call the 18C52 interface to write the start inspection information, and call the 18C55 interface Write the information of the external inspection items; after that, call the 18C47 interface to obtain the corresponding photos and manual inspection items. After the appearance inspection, call the 18C80 interface to upload the detailed information of the appearance inspection items, and call the 18C63 interface to upload the photos taken during the appearance inspection process. After completing the inspection, call the 18C58 interface to write the project end information. The process of the instrument and equipment inspection part is similar. After all the project inspections are completed, the project inspection is completed. The appearance inspection process is similar;

2.4. Application review: After the inspection of all items is completed, if there is an item that fails the inspection, that is, the whole vehicle is judged to be unqualified, and the vehicle enters the re-inspection queue. Due to the data sharing of the cloud platform, the owner can choose to repair or go to other inspections at this time. If all items are qualified, it is judged that the whole vehicle is qualified, and the 18C62 interface is called to write the inspection and judgment result information; after the qualified vehicle information is transmitted to the high-speed scanning station, the 18C61 interface is called to upload the insurance information, and the 18C63 interface is called to write Photos of each inspection data; finally call the 18C64 interface to submit the application for vehicle inspection data review to the municipal cloud platform.

In order to eliminate the redundancy of test data entry, and no longer distinguish between "safety", "environmental protection" and "comprehensive performance" tests, users apply for test items (by appointment or on-site), and apply for each test item only once; For the overlapping items of "safety", "environmental protection" and "comprehensive performance", only apply for one test, and upload the test result data to the cloud platform; the three government agencies of safety, operation management and environmental protection obtain the information through the cloud platform according to their respective needs. data is required for determination;

Support off-site detection, that is, the basic information and testing data of motor vehicles, through the framework to realize the sharing of big data cloud platform; motor vehicles can query the detected items at off-site (nationwide) testing stations, and the untested items can be continued off-site. detection;

3. The constructed municipal cloud platform verifies and evaluates the data uploaded by the testing agency, supervises the implementation of testing by the agency, and shares the testing data on the municipal cloud platform; Share at the provincial level and supervise the performance of duties by municipal institutions; the built national cloud platform realizes the sharing of national data and supervises the performance of provincial institutions.

Further, in the described step 2, in order to ensure the credibility of the test result data, it realizes the full record and full synchronization of the detection process, the rhythm, and the cloud platform utilizes the HTTP/JSON format to upload and download information through the interface of the national standard, and realizes Through the trigger mechanism, the intermediate results are pushed to the owner in real time, so that the user can track the detection situation of the motor vehicle in real time. For example: when testing motor vehicle exhaust, the exhaust emission standard and actual vehicle data are simultaneously pushed to the user, and the evaluation (qualified or unqualified) is given at the same time, so that the user can have a real-time understanding of the motor vehicle testing process, and give users more information urge the staff of the inspection agency to inspect each item to be inspected in strict accordance with the latest standards, to ensure that the inspected motor vehicle has no potential safety hazards, and its own fuel efficiency is the highest, which is for road traffic safety and energy saving. contribution to reducing emissions.

After adopting the above method, the beneficial effects of this specific embodiment are:

1. It can make the motor vehicle detection process transparent and open, effectively suppress bad competition, crack down on fraudulent behaviors, and improve road traffic safety;

2. The detection process can be optimized, which can effectively alleviate the problem of too concentrated vehicle detection and relieve the detection pressure;

3. Users can get a more friendly experience while supporting remote detection;

4. Due to the use of cloud platform to share data, zero redundancy of detection data is realized.

The above is only used to illustrate the technical solution of the present invention and not to limit it. Other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solution of the present invention, as long as they do not depart from the spirit and scope of the technical solution of the present invention, should be Included within the scope of the claims of the present invention.

Claims (3)

1. a novel motor vehicle complete vehicle does not disintegrate detection and network supervision method, it is characterized in that: its operation steps are as follows: (1) Based on the principle of distributed system construction, build a four-layer network framework, including inspection agency-level platform, municipal-level cloud platform, provincial-level cloud platform and national-level cloud platform, using HTTP/JSON data format for transmission, to achieve four Layer network data sharing; (2) The built inspection agency-level platform realizes the entry and upload of inspection data; In order to eliminate the redundancy of test data entry, the "safety", "environmental protection" and "comprehensive performance" tests are no longer distinguished. Users apply for each test item only once through the test item application; for the current "safety", "environmental protection" and "environmental protection" ” and “comprehensive performance” testing overlap, apply for testing only once, and upload the testing result data to the cloud platform; the three government agencies of safety, operation management and environmental protection obtain the required data through the cloud platform for judgment according to their respective regulatory functions. ; Support remote detection, that is, the basic information and detection data of motor vehicles can be shared through the big data cloud platform through the framework; motor vehicles can query the detected items at the remote detection station, and the undetected items can continue to be detected in different places; (3) The constructed municipal cloud platform verifies and evaluates the data uploaded by the testing agency, supervises the agency to implement testing, and shares the testing data on the municipal cloud platform; the constructed provincial cloud platform summarizes the data of the municipal cloud platform it belongs to, Realize the sharing of data at the provincial level and supervise the performance of duties by municipal institutions; the built national cloud platform realizes the sharing of national data and supervises the performance of provincial institutions. 2. the non-disintegration detection and network supervision method of a new type of motor vehicle complete vehicle according to claim 1, is characterized in that: the detection system flow of the inspection agency level platform of described step (2) is as follows: (2.1) Appointment by car owner: When choosing the car review hotline, the customer can make an appointment for car review according to the information prompted by themselves or manually; when choosing a car review portal or a car review app, the user will be provided with positioning and nearby testing station information; when paying, Support online payment and payment on delivery; after the payment is successful, the system prompts the user to review the car's attention; after the car owner entrusts the car to the inspection agency, the appointment is completed; after that, the user can follow the vehicle review process in real time through the portal website or App, Enhance the owner's sense of gain; at the end of the inspection, if the vehicle is qualified, the review will be completed; if the vehicle is unqualified, the owner is recommended to repair at a nearby repair place for specific problems, so as to provide users with more humane services; (2.2) Inspection application: According to the user's reservation information or on-site reservation information, enter the basic information of the motor vehicle and the items that need to be inspected; The identification code combination is used to query; according to the detection category applied by the user, combined with the category of the vehicle, the 18C64 interface is called to obtain the items required to be detected by the motor vehicle; after the information is input, the 18C51 interface is called to write the motor vehicle input information to complete the inspection application; (2.3) Item inspection: After the vehicle inspection is completed, the vehicle to be inspected enters the queue to be inspected; select a vehicle to be inspected at the mobile intelligent inspection terminal, call the 18C52 interface to write the start inspection information, and call the 18C55 interface to write the external inspection item After that, call the 18C47 interface to obtain the corresponding photos and manual inspection items. After the appearance inspection, call the 18C80 interface to upload the detailed information of the appearance inspection items, and call the 18C63 interface to upload the photos taken during the appearance inspection. After the inspection is completed, call 18C58 The interface writes the project end information, and the process of the equipment inspection part is similar. After all project inspections are completed, the project inspection is completed; (2.4) Application review: After the inspection of all items is completed, if there is an item that fails the inspection, that is, the whole vehicle is judged to be unqualified, and the vehicle enters the re-inspection queue. Due to the data sharing of the cloud platform, the owner can choose to repair or go to Other inspection stations test; if all items are qualified, it is judged that the whole vehicle is qualified, and the 18C62 interface is called to write the inspection and judgment result information; after the qualified vehicle information is transmitted to the high-speed scanning station, the 18C61 interface is called to upload the insurance information, and the 18C63 interface is called. Write the photos of each inspection data; finally call the 18C64 interface to submit the application for vehicle inspection data review to the municipal cloud platform. 3. a kind of novel motor vehicle complete vehicle non-disintegration detection and network supervision method according to claim 1 is characterized in that: in the described step (2), in order to ensure the credibility of the detection result data, it realizes the detection of The process and rhythm are fully recorded and fully synchronized. The cloud platform uses HTTP/JSON format to upload and download information through the national standard interface to realize the supervision of the detection process; through the trigger mechanism, the intermediate results are pushed to the car owner in real time, and the user-to-machine is realized. Real-time tracking of the detection situation of the moving car.