CN113822902A - Block chain vehicle body state monitoring system - Google Patents

Abstract

The invention relates to a block chain vehicle state monitoring system, comprising: the first mapping mechanism is used for carrying out horizontal sharpening operation on the received competition field image so as to obtain a corresponding first mapping image; a second mapping mechanism for performing an artifact removal operation on the received first mapping image to obtain a corresponding second mapping image; a third mapping mechanism for performing a smooth spatial filtering operation on the received second mapped image to obtain a corresponding third mapped image; and the object extraction device is connected with the third mapping mechanism and used for identifying the vehicle body imaging blocks corresponding to the vehicle body objects in the third mapping image. The block chain vehicle body state monitoring system is compact in structure and effective in supervision. The method can carry out targeted identification on other vehicles which are not rebroadcast vehicles in the related urban roads in the holding process of the urban marathon, thereby maintaining the safety of the urban marathon roads.

Description

Block chain vehicle body state monitoring system

Technical Field

The invention relates to the field of block chain application, in particular to a block chain vehicle body state monitoring system.

Background

Currently, "blockchain 2.0" is a term used with respect to decentralized blockchain databases. For this second generation programmable blockchain, economists consider it to be a programming language that may allow users to write more sophisticated and intelligent protocols. Thus, when the profit reaches a certain level, it is possible to obtain a profit from completed shipping orders or the dividend of shared certificates. Blockchain 2.0 technology skips transactions and "brokers in value exchange that act as money and information arbitrage". They are used to keep people away from the global economy, to protect privacy, to "exchange mastered information for currency", and to have the ability to guarantee the owner of intellectual property rights to earn revenue.

Second generation blockchain technology makes it possible to store "permanent digital IDs and personalities" of individuals and provides a solution to "potential social wealth allocation" inequality. In the prior art, in order to improve the city awareness, the city name card is created, and many cities create long-distance running events of city marathons belonging to own brands, so that long-distance economic benefits are achieved with a small amount of economic cost. In the process of holding the city marathon, the relevant urban roads are closed, and other vehicles which are not rebroadcast vehicles forbid the urban roads, however, because the urban marathon roads are long and the supervision is difficult, the following other vehicles still invade the relevant urban roads, and the effect of holding and the achievement of athletes are adversely affected.

Disclosure of Invention

Compared with the prior art, the invention has at least the following two key points:

(1) identifying whether other abnormal vehicles of the non-rebroadcast vehicle exist in a competition field image formed by all urban roads forming the competition field of the urban marathon competition in real time so as to provide imaging pictures of the abnormal vehicles and all supervision service information of the names of the streets when identifying that other abnormal vehicles exist;

(2) the system comprises an introduction characteristic acquisition device, a data downloading device and a data processing device, wherein the introduction characteristic acquisition device is used for introducing characteristic information corresponding to each rebroadcasting vehicle of the urban marathon competition into a block chain management node for executing competition management, and the data downloading device is arranged in an urban management center for holding the urban marathon competition and is used for downloading a competition field image formed by each urban road forming a competition field of the urban marathon competition from a satellite, so that basic data are provided for subsequent urban marathon video supervision.

According to an aspect of the present invention, there is provided a blockchain vehicle body state monitoring system, the system including:

and the first mapping mechanism is used for carrying out horizontal sharpening operation on the received game field image so as to obtain a corresponding first mapping image.

More specifically, in the block chain vehicle body state monitoring system, the method further includes:

and the second mapping mechanism is connected with the first mapping mechanism and is used for executing artifact removing operation on the received first mapping image so as to obtain a corresponding second mapping image.

More specifically, in the block chain vehicle body state monitoring system, the method further includes:

a third mapping mechanism, connected to the second mapping mechanism, for performing a smooth spatial filtering operation on the received second mapping image to obtain a corresponding third mapping image;

the object extraction device is connected with the third mapping mechanism and used for identifying the vehicle body imaging blocks corresponding to the vehicle body objects in the third mapping image;

an anomaly detection device, connected to the object extraction device and the blockchain management node, respectively, for performing the following operations on each car body imaging block in the third mapping image: when the characteristic information corresponding to any one of the relay trucks stored by the block chain management node does not exist in the vehicle body imaging block, judging that a vehicle body object corresponding to the vehicle body imaging block is an abnormal vehicle body object;

the data transmission equipment is respectively connected with the block chain management node and the abnormality detection device and is used for determining the road name of the urban road where each abnormal vehicle body object is located based on the relative position of the vehicle body imaging block where each abnormal vehicle body object is located in the third mapping image when more than one abnormal vehicle body object exists in the third mapping image, and uniformly sending the vehicle body imaging block where each abnormal vehicle body object is located and the road name corresponding to the vehicle body imaging block to the block chain management node;

the system comprises a characteristic acquisition device, a block chain management node and a data processing device, wherein the characteristic acquisition device is used for importing characteristic information corresponding to each rebroadcast vehicle of the urban Marathon game into the block chain management node for executing the game management;

the data downloading equipment is arranged in a city management center for holding city marathon games, is connected with the first mapping mechanism and is used for downloading a game field image consisting of all city roads forming a game field of the city marathon games from a satellite;

the method for importing the characteristic information corresponding to each rebroadcasting vehicle of the urban marathon competition into the block chain management node for executing the competition management comprises the following steps: importing a standard roof pattern corresponding to each rebroadcast car of the urban marathon competition as characteristic information corresponding to the rebroadcast car into a block chain management node for executing competition management;

the method for importing the characteristic information corresponding to each rebroadcasting vehicle of the urban marathon competition into the block chain management node for executing the competition management comprises the following steps: and importing the license plate number corresponding to each rebroadcast car of the urban Marathon game as the characteristic information corresponding to the rebroadcast car into a block chain management node for executing the game management.

The block chain vehicle body state monitoring system is compact in structure and effective in supervision. Due to the fact that other vehicles which are not rebroadcast vehicles in related urban roads can be identified in a targeted mode in the holding process of the urban marathon, the supervision efficiency of the urban marathon roads is improved.

Detailed Description

An embodiment of the blockchain vehicle body state monitoring system of the present invention will be described in detail below.

The rebroadcasting vehicle is a vehicle with television rebroadcasting equipment. For live broadcasting. It has the functions of video recording and editing. The device can also be moved to the site for shooting work. The signal is transmitted to a television station by microwave equipment for playing. The TV relay vehicle is a small-sized vehicle-mounted TV station with the characteristics of flexible maneuvering and large range of motion. It can be far from TV center to carry out on-site video recording and on-site editing work, and can immediately transmit the recorded program to TV center to carry out on-site rebroadcasting.

The rebroadcasting vehicle is classified according to specifications: large-scale rebroadcasting vehicle, medium-small-scale rebroadcasting vehicle and micro rebroadcasting vehicle. In the prior art, in order to improve the city awareness, the city name card is created, and many cities create long-distance running events of city marathons belonging to own brands, so that long-distance economic benefits are achieved with a small amount of economic cost. In the process of holding the city marathon, the relevant urban roads are closed, and other vehicles which are not rebroadcast vehicles forbid the urban roads, however, because the urban marathon roads are long and the supervision is difficult, the following other vehicles still invade the relevant urban roads, and the effect of holding and the achievement of athletes are adversely affected.

In order to overcome the defects, the invention builds a block chain vehicle state monitoring system, and can effectively solve the corresponding technical problem.

The block chain vehicle body state monitoring system shown according to the embodiment of the invention comprises:

and the first mapping mechanism is used for carrying out horizontal sharpening operation on the received game field image so as to obtain a corresponding first mapping image.

Next, a detailed description of the block chain vehicle body state monitoring system according to the present invention will be further described.

In the block chain vehicle body state monitoring system, still include:

and the second mapping mechanism is connected with the first mapping mechanism and is used for executing artifact removing operation on the received first mapping image so as to obtain a corresponding second mapping image.

In the block chain vehicle body state monitoring system, still include:

a third mapping mechanism, connected to the second mapping mechanism, for performing a smooth spatial filtering operation on the received second mapping image to obtain a corresponding third mapping image;

the object extraction device is connected with the third mapping mechanism and used for identifying the vehicle body imaging blocks corresponding to the vehicle body objects in the third mapping image;

an anomaly detection device, connected to the object extraction device and the blockchain management node, respectively, for performing the following operations on each car body imaging block in the third mapping image: when the characteristic information corresponding to any one of the relay trucks stored by the block chain management node does not exist in the vehicle body imaging block, judging that a vehicle body object corresponding to the vehicle body imaging block is an abnormal vehicle body object;

the data transmission equipment is respectively connected with the block chain management node and the abnormality detection device and is used for determining the road name of the urban road where each abnormal vehicle body object is located based on the relative position of the vehicle body imaging block where each abnormal vehicle body object is located in the third mapping image when more than one abnormal vehicle body object exists in the third mapping image, and uniformly sending the vehicle body imaging block where each abnormal vehicle body object is located and the road name corresponding to the vehicle body imaging block to the block chain management node;

the system comprises a characteristic acquisition device, a block chain management node and a data processing device, wherein the characteristic acquisition device is used for importing characteristic information corresponding to each rebroadcast vehicle of the urban Marathon game into the block chain management node for executing the game management;

the data downloading equipment is arranged in a city management center for holding city marathon games, is connected with the first mapping mechanism and is used for downloading a game field image consisting of all city roads forming a game field of the city marathon games from a satellite;

the method for importing the characteristic information corresponding to each rebroadcasting vehicle of the urban marathon competition into the block chain management node for executing the competition management comprises the following steps: importing a standard roof pattern corresponding to each rebroadcast car of the urban marathon competition as characteristic information corresponding to the rebroadcast car into a block chain management node for executing competition management;

the method for importing the characteristic information corresponding to each rebroadcasting vehicle of the urban marathon competition into the block chain management node for executing the competition management comprises the following steps: and importing the license plate number corresponding to each rebroadcast car of the urban Marathon game as the characteristic information corresponding to the rebroadcast car into a block chain management node for executing the game management.

In the block chain vehicle body state monitoring system, still include:

the humidity sensing equipment is arranged on the left side of the object extraction device and used for measuring the field humidity of the current position of the object extraction device;

the parameter judgment device is connected with the humidity sensing device and used for sending a humidity alarm signal when the received field humidity exceeds the limit;

and the humidity analysis equipment is also used for sending a humidity reliable signal when the received field humidity is not over-limit.

In the block chain vehicle body state monitoring system, still include:

ADSL communication equipment, which is respectively connected with the object extraction device and the abnormality detection device and is used for receiving and reporting each fault code of the object extraction device or the abnormality detection device.

In the block chain vehicle body state monitoring system:

the object extraction device is internally provided with a first fault self-checking unit used for carrying out self-checking on internal faults of the object extraction device and sending fault codes.

In the block chain vehicle body state monitoring system:

a second fault self-checking unit is arranged in the abnormality detection device and is used for carrying out self-checking on internal faults of the abnormality detection device and sending fault codes;

the first fault self-checking unit and the second fault self-checking unit are respectively realized by editable logic devices with different models.

In the block chain vehicle body state monitoring system:

the object extraction device is also internally provided with a first electric quantity measuring unit used for measuring the current residual electric quantity of the object extraction device.

In the block chain vehicle body state monitoring system:

the abnormality detection device is also internally provided with a second electric quantity measurement unit for measuring the current residual electric quantity of the abnormality detection device;

the first electric quantity measuring unit and the second electric quantity measuring unit share the same quartz oscillation device.

In the block chain vehicle body state monitoring system, still include:

the load detection equipment is used for receiving the utilization rate of the current core of the object extraction device, and the utilization rate is a percentage;

the data identification equipment is connected with the load detection equipment and is used for sending a load overfill signal when the utilization rate exceeds the limit;

wherein the data discrimination apparatus is further configured to signal a sufficient load when the received utilization is not exceeded.

In addition, in the blockchain vehicle body state monitoring system, the abnormality detecting means is further configured to perform the following operations for each vehicle body imaging segment in the third mapping image: and when the characteristic information corresponding to a certain relay truck stored by the block chain management node exists in the car body imaging block, judging that the car body object corresponding to the car body imaging block is a working car body object.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A blockchain vehicle state monitoring system, the system comprising:

and the first mapping mechanism is used for carrying out horizontal sharpening operation on the received game field image so as to obtain a corresponding first mapping image.

2. The blockchain vehicle state monitoring system of claim 1, wherein the system further comprises:

and the second mapping mechanism is connected with the first mapping mechanism and is used for executing artifact removing operation on the received first mapping image so as to obtain a corresponding second mapping image.

3. The blockchain vehicle state monitoring system of claim 2, wherein the system further comprises:

a third mapping mechanism, connected to the second mapping mechanism, for performing a smooth spatial filtering operation on the received second mapping image to obtain a corresponding third mapping image;

the object extraction device is connected with the third mapping mechanism and used for identifying the vehicle body imaging blocks corresponding to the vehicle body objects in the third mapping image;

an anomaly detection device, connected to the object extraction device and the blockchain management node, respectively, for performing the following operations on each car body imaging block in the third mapping image: when the characteristic information corresponding to any one of the relay trucks stored by the block chain management node does not exist in the vehicle body imaging block, judging that a vehicle body object corresponding to the vehicle body imaging block is an abnormal vehicle body object;

the data transmission equipment is respectively connected with the block chain management node and the abnormality detection device and is used for determining the road name of the urban road where each abnormal vehicle body object is located based on the relative position of the vehicle body imaging block where each abnormal vehicle body object is located in the third mapping image when more than one abnormal vehicle body object exists in the third mapping image, and uniformly sending the vehicle body imaging block where each abnormal vehicle body object is located and the road name corresponding to the vehicle body imaging block to the block chain management node;

the system comprises a characteristic acquisition device, a block chain management node and a data processing device, wherein the characteristic acquisition device is used for importing characteristic information corresponding to each rebroadcast vehicle of the urban Marathon game into the block chain management node for executing the game management;

the data downloading equipment is arranged in a city management center for holding city marathon games, is connected with the first mapping mechanism and is used for downloading a game field image consisting of all city roads forming a game field of the city marathon games from a satellite;

the method for importing the characteristic information corresponding to each rebroadcasting vehicle of the urban marathon competition into the block chain management node for executing the competition management comprises the following steps: importing a standard roof pattern corresponding to each rebroadcast car of the urban marathon competition as characteristic information corresponding to the rebroadcast car into a block chain management node for executing competition management;

the method for importing the characteristic information corresponding to each rebroadcasting vehicle of the urban marathon competition into the block chain management node for executing the competition management comprises the following steps: and importing the license plate number corresponding to each rebroadcast car of the urban Marathon game as the characteristic information corresponding to the rebroadcast car into a block chain management node for executing the game management.

4. The blockchain vehicle state monitoring system of claim 3, wherein the system further comprises:

the humidity sensing equipment is arranged on the left side of the object extraction device and used for measuring the field humidity of the current position of the object extraction device;

the parameter judgment device is connected with the humidity sensing device and used for sending a humidity alarm signal when the received field humidity exceeds the limit;

and the humidity analysis equipment is also used for sending a humidity reliable signal when the received field humidity is not over-limit.

5. The blockchain vehicle state monitoring system of claim 3, wherein the system further comprises:

ADSL communication equipment, which is respectively connected with the object extraction device and the abnormality detection device and is used for receiving and reporting each fault code of the object extraction device or the abnormality detection device.

6. The blockchain vehicle body condition monitoring system of claim 3, wherein:

the object extraction device is internally provided with a first fault self-checking unit used for carrying out self-checking on internal faults of the object extraction device and sending fault codes.

7. The blockchain vehicle body condition monitoring system of claim 6, wherein:

a second fault self-checking unit is arranged in the abnormality detection device and is used for carrying out self-checking on internal faults of the abnormality detection device and sending fault codes;

the first fault self-checking unit and the second fault self-checking unit are respectively realized by editable logic devices with different models.

8. The blockchain vehicle body condition monitoring system of claim 3, wherein:

the object extraction device is also internally provided with a first electric quantity measuring unit used for measuring the current residual electric quantity of the object extraction device.

9. The blockchain vehicle body condition monitoring system of claim 8, wherein:

the abnormality detection device is also internally provided with a second electric quantity measurement unit for measuring the current residual electric quantity of the abnormality detection device;

the first electric quantity measuring unit and the second electric quantity measuring unit share the same quartz oscillation device.

10. The blockchain vehicle state monitoring system of claim 3, wherein the system further comprises:

the load detection equipment is used for receiving the utilization rate of the current core of the object extraction device, and the utilization rate is a percentage;

the data identification equipment is connected with the load detection equipment and is used for sending a load overfill signal when the utilization rate exceeds the limit;

wherein the data discrimination apparatus is further configured to signal a sufficient load when the received utilization is not exceeded.