CN113487877A - Road vehicle illegal parking monitoring method - Google Patents

Abstract

The invention relates to the field of network detection, and particularly provides a method for monitoring illegal parking of a road vehicle. Compared with the prior art, the violation monitoring robot has the advantages that the images and videos collected by the violation monitoring robot are uploaded to the cloud end, the decision is analyzed and generated through the high calculation power of the cloud service platform, the planning data is downloaded to the robot end and executed by the robot, the calculation power requirements of the robot are greatly reduced, and accordingly the cost is reduced.

Description

Road vehicle illegal parking monitoring method

Technical Field

The invention relates to the field of network detection, and particularly provides a method for monitoring illegal parking of road vehicles.

Background

The increasing development of cities brings along with serious traffic jam, the problem of parking is also an important reason for traffic jam, and the contradiction between the supply and demand of the motor vehicle reserve and the supply of parking spaces is increasingly intensified, so that the parking space resources are in short supply. Among the numerous parking problems, roadside parking problems are particularly prominent. The illegal parking phenomenon is serious, and the city appearance is seriously influenced. Because the existing manual registration illegal parking mode is troublesome and laborious, a management unit depends on a large amount of manual management, so that the vehicles parked on the roadside in an illegal way cannot effectively drive away, contradictions in manual management and charging fraud behaviors often occur, and even discordant social negative effects are caused.

Managing roadside parking is of great importance to road traffic, which not only affects road traffic smoothness, but also is of great importance to alleviating parking difficulties. China cities are numerous in population and complex and changeable in road traffic, manual charging and stopwatch charging are adopted for roadside parking at present, a lot of problems exist, the existing traffic problem is found out, the roadside parking can be treated by aiming at specific problems and solving the problems, and a clean and common road is arranged in the city.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the road vehicle illegal parking monitoring method with strong practicability.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a monitoring method for illegal parking of road vehicles is characterized in that an illegal monitoring robot interacts with a cloud service platform through a network, information of illegal vehicles collected by the illegal monitoring robot is captured and photographed, and automatic statistics of illegal vehicles is achieved.

Furthermore, a violation monitoring system is deployed at the cloud end and used for counting, monitoring and analyzing vehicle violation information.

Further, a background management system is further arranged on the cloud service platform and has the functions of system user management, violation monitoring robot management, parking area management, road section management, parking space management, comprehensive query, log management and data backup.

Furthermore, the cloud service platform adopts a cloud-end architecture, performs cloud training, image analysis, target analysis, behavior detection, cloud management and a knowledge sharing library, and is used for effectively storing and calculating parking data and realizing cross-system integration and sharing of the data.

Furthermore, the cloud service platform processes and analyzes big data mainly based on data processing, data mining and data modeling by means of high computing power of the cloud server, and generates decision data for the violation monitoring robot.

Furthermore, the violation monitoring robot automatically realizes the identification, analysis, statistics and management of roadside vehicles by utilizing the technologies of radar, image identification, autonomous navigation, active obstacle avoidance and AI identification, can quickly move on the roadside side, and detects the parking condition of the road vehicles.

Preferably, the violation monitoring robot interacts with the cloud through a 5G network, uploads image and video data in real time, and receives decision data processed and analyzed by the cloud in real time.

Furthermore, the violation monitoring system defines and sets the road section charging standard, the charging rule configuration, the charging rule addition and the charging standard.

Furthermore, the violation monitoring system is used for passing through a traffic management system to realize payment and deduction of violation fine tickets.

Compared with the prior art, the road vehicle illegal parking monitoring method has the following outstanding beneficial effects:

(1) this patent passes through the 5G network, and image, the video that the supervisory-controlled robot gathered violating the regulations upload to the high in the clouds, through the high power of calculating of cloud service platform, the robot end is downloaded to analysis generation decision-making, planning data, is carried out by the robot, the robot power demand that calculates that has significantly reduced to the cost is reduced.

(2) By the method, roadside workers are not required to participate, and the robot finishes vehicle illegal parking information acquisition, parking time counting and information reporting.

(3) The roadside parking violation monitoring system can accurately analyze the violation state of the vehicle, transmit information, photos and videos of related vehicles to a back-end system, guide a vehicle owner to stop the vehicle according to the standard, and completely and transparently monitor information.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a flow chart diagram of a method for monitoring illegal parking of vehicles on a road.

Detailed Description

The present invention will be described in further detail with reference to specific embodiments in order to better understand the technical solutions of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A preferred embodiment is given below:

in the method for monitoring illegal parking of road vehicles in the embodiment, based on a 5G communication network and a cloud service platform, the license plate number of the illegal vehicle is collected by the illegal monitoring robot for registration, parking time and illegal parking behaviors are automatically detected according to roadside illegal rules, and the statistical work of illegal parking is completed. The manager can track and supervise the corresponding parking violation state in real time in a background system, realize remote conversation, electronic map parking space state monitoring, parameter setting and photo and video acquisition through the internet, check each roadside violation parking state and the running state of the robot at any time, and report and process the violation parking person through the background system. The system perfectly realizes the high-efficiency management and control of the illegal parking vehicles, and provides high-efficiency, convenient and ordered service for the smoothness of urban traffic and roads.

Specifically, the method comprises the following steps:

cloud service platform:

the system adopts a cloud-end structure, and a cloud service platform is mainly responsible for cloud training, image analysis, target analysis, behavior detection, cloud management, a knowledge sharing library and the like, so that parking data are effectively stored and calculated, and cross-system integration and sharing of the data are realized. The cloud service platform processes and analyzes big data mainly comprising data processing, data mining and data modeling by means of high computing power of the cloud server, and generates decision data with higher data value for the robot end.

The system can realize data sharing, such as data sharing of parking space data resources, road condition data, vehicle information, billing information and the like, integrates originally dispersed data to form an effective and powerful data sharing platform, and provides a powerful central brain for a single robot.

The violation monitoring robot:

the intelligent robot has the main functions of automatically realizing the functions of identifying, analyzing, counting, managing and the like of roadside vehicles by utilizing the technologies of radar, image identification, autonomous navigation, active obstacle avoidance, AI identification and the like, can quickly move at the roadside side, detects the parking condition of the road vehicles, and is not influenced by other factors such as surrounding environment, personnel, time, weather and the like; through 5G network and cloud interaction, data such as images and videos are uploaded in real time, decision data after cloud processing and analysis are received in real time, standardization of interfaces can be connected with different robots and parking management platforms in an abutting mode, high accuracy is achieved, and accuracy of inspection data is over 99%.

The parking data under different interference conditions can be identified and collected, the inspection accuracy is improved, and the accuracy and the timeliness of vehicle information collection are guaranteed by the high-speed and high-precision characteristics of 5G communication. The method realizes high-speed, high-precision, rapid deployment and all-weather application.

Violation monitoring system:

the violation monitoring system is deployed at the cloud end and mainly has the functions of defining and setting road section charging standards, configuring charging rules, adding the charging rules and the charging standards; the vehicle violation information can be counted, monitored and analyzed. In addition, a traffic management system can be opened, and the payment and deduction of the violation ticket can be realized. The payment mode includes APP payment and code scanning payment, for example, third party payment such as WeChat payment and Paibao payment is supported.

A background management system:

the cloud service platform is further provided with a background management system, and the background management system has the functions of system user management, violation monitoring robot management, parking area management, road section management, parking space management, comprehensive query, log management and data backup.

The above embodiments are only specific cases of the present invention, and the protection scope of the present invention includes but is not limited to the above embodiments, and any appropriate changes or substitutions that are consistent with the claims of the method for monitoring illegal parking of road vehicles according to the present invention and are made by those skilled in the art shall fall within the protection scope of the present invention.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The method is characterized in that a violation monitoring robot interacts with a cloud service platform through a network, information of violation vehicles collected by the violation monitoring robot is captured and photographed, and automatic statistics of the violation vehicles is achieved.

2. The method for monitoring illegal parking of vehicles on roads as claimed in claim 1, wherein a violation monitoring system is deployed at the cloud end, and the violation monitoring system is used for statistics, monitoring and analysis of vehicle violation information.

3. The method for monitoring illegal parking of road vehicles according to claim 2, characterized in that a background management system is further arranged on the cloud service platform, and the background management system has functions of system user management, illegal monitoring robot management, parking area management, road section management, parking space management, comprehensive query, log management and data backup.

4. The method for monitoring illegal parking of road vehicles according to claim 3, wherein the cloud service platform adopts a cloud-end architecture, and performs cloud training, image analysis, target analysis, behavior detection, cloud management and a knowledge sharing library for effective storage and calculation of parking data and cross-system integration and sharing of data.

5. The method for monitoring illegal parking of road vehicles according to claim 4, wherein the cloud service platform processes and analyzes big data mainly based on data processing, data mining and data modeling by means of high computational power of a cloud server to generate decision data for an illegal parking monitoring robot.

6. The method for monitoring illegal parking of road vehicles according to claim 5, wherein the violation monitoring robot automatically realizes the identification, analysis, statistics and management of roadside vehicles by using radar, image identification, autonomous navigation, active obstacle avoidance and AI identification technologies, and can rapidly move on the roadside side to detect the parking condition of road vehicles.

7. The method for monitoring illegal parking of road vehicles according to claim 6, wherein the violation monitoring robot interacts with a cloud through a 5G network, uploads image and video data in real time, and receives decision data processed and analyzed by the cloud in real time.

8. The method of claim 7 wherein the violation monitoring system defines and sets road section charging criteria, configuration charging rules, add charging rules, and charging criteria.

9. The method for monitoring illegal parking of road vehicles according to claim 8, characterized in that the violation monitoring system is a traffic management system to realize payment and deduction of violation fine tickets.

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