CN114399903A - Smart city road management system based on big data platform - Google Patents

Abstract

The invention discloses a smart urban road management system based on a big data platform, which comprises an expressway data acquisition module, an expressway transaction anti-theft module, an expressway service area system, an expressway evaluation module and a main control module, wherein the expressway data acquisition module is used for dividing different areas for the core according to each toll station and acquiring the weather conditions and the traffic flow in each area, the expressway transaction anti-theft module is used for avoiding that a rear vehicle follows the vehicle to enter an ETC channel of a front vehicle when the vehicle enters the ETC payment channel on an expressway, the expressway service area module is used for reasonably arranging the parking time of the vehicle in the service area, the expressway evaluation module is used for automatically evaluating and autonomously evaluating the distance after the distance is finished and uploading the distance to the main control module, and can timely warn the factors caused on the expressway according to a database, and alerts vehicles in the area to alert.

Description

Smart city road management system based on big data platform

Technical Field

The invention relates to the technical field of big data, in particular to a smart city road management system based on a big data platform.

Background

Along with the gradual development of the existing motor vehicles, more vehicles are additionally arranged on a highway to run on the highway, particularly, at the peak of the vehicles, the traffic flow on the highway is more in Wuyi, national celebration and spring festival, so that a plurality of vehicles often cannot enter a highway entrance at a highway entrance, the highway is seriously blocked, the scene is particularly disordered, and the highway is seriously paralyzed; in the peak period of the vehicle, as a lot of people can drive the vehicle to drive from a far place, the fatigue value of a driving user is increased due to long-time driving, and the user can choose to stop at a rest in a service area; therefore, a smart city road management system and method based on a big data platform are needed to solve the above problems.

Disclosure of Invention

The invention aims to provide a smart city road management system and a smart city road management method based on a big data platform, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the system comprises an expressway acquisition module, an expressway transaction anti-theft module, an expressway service area module, an expressway evaluation module and a main control module, wherein the expressway acquisition module is used for dividing different areas for cores according to each toll station and acquiring weather conditions and traffic flow in each area, the expressway transaction anti-theft module is used for preventing rear vehicles from following vehicles to enter an ETC channel of front vehicles when the vehicles enter the ETC payment channel, the expressway service area module is used for reasonably arranging the parking time of the vehicles in the service area, the expressway evaluation module is used for automatically evaluating and autonomously evaluating the distance after the distance is finished and uploading the distance to the main control module, and the main control module is used for respectively controlling the expressway acquisition module, the expressway transaction anti-theft module, the expressway service area module, the expressway evaluation module and the main control module, The system comprises an expressway transaction anti-theft module, an expressway service area module and an expressway evaluation module;

the expressway service area module comprises an owner fatigue degree determining module, a parking place type advanced arrangement module and a retention factor searching system, wherein the owner fatigue degree determining module is used for judging the fatigue degree of the user when the user faces of the vehicles detected above an ETC lane are detected to be simultaneously present in the service area system, the user driving time is judged, the parking place type advanced arrangement module is used for reasonably arranging the parking positions of the vehicles according to the size of the vehicles and calculating the time of the user vehicles completely parking into the parking places, and the retention factor searching system is used for collecting the reason of the retention vehicles and simultaneously verifying the truth degree when the vehicles are detected not to leave the service area within the preset time;

the detention factor tracking system comprises a seat sensing terminal and an automatic fee deduction module, wherein the seat sensing terminal is used for indicating that a user stays in a service area when a corresponding signal received on a parking space is not detected within a preset time, the automatic fee deduction module is used for collecting vehicle parking fee according to the stay time of the vehicle exceeding the set position when the position of the user is not found, and the seat sensing terminal is connected with a vehicle owner fatigue degree determining module and the automatic fee deduction module.

According to the technical scheme, the expressway acquisition module comprises a vehicle type statistical unit, an area weather factor unit, an area accident connection unit and an area reminding unit, wherein the vehicle type statistical unit is used for carrying out area division on the area by taking an ETC toll station as a core, counting vehicle flow in different areas, judging whether high-speed entrance congestion can be caused or not according to the number of vehicles, the area weather factor unit is used for detecting weather conditions in the area in real time and judging the influence condition of weather on traffic in the area, the area accident connection unit is used for judging whether accidents can be caused or not according to road conditions and weather conditions in the area, the area reminding unit is used for uploading accident information generated in the area, and the output end of the vehicle type statistical unit is connected with the area accident connection unit, The input ends of the weather factor unit and the reminding unit in the area are connected.

According to the technical scheme, the highway transaction anti-theft module comprises a high-speed entrance cluster distribution unit, a vehicle queuing waiting unit, a vehicle penetrating ETC judgment unit and an ETC window quantity allocation unit, wherein the high-speed entrance cluster distribution unit is used for detecting the quantity of vehicles in high-speed entrances in different areas in real time, when the detected vehicle flow of the high-speed entrance is larger than the preset quantity, other entrances in the high speed are replaced to drive in, the vehicle queuing waiting unit is used for detecting the quantity of the vehicles waiting in queuing at different station mouths of a high-speed toll station and calculating the time for paying the transaction in different station mouths, the vehicle penetrating ETC judgment unit is used for detecting the license plate number of a rear vehicle and the corresponding vehicle type when the vehicle has transacted in an ETC, and when the information of the rear vehicle is not detected in the preset time, and judging that the vehicle acts as a following vehicle and breaks into the highway station entrance, wherein the ETC window quantity allocating unit is used for replacing part of ETC windows into MTC artificial windows when the payment failure of part of vehicle ETC is detected, and the output end of the high-speed entrance cluster distributing unit is connected with the input ends of the vehicle queuing waiting unit, the vehicle penetrating ETC judging unit and the ETC window quantity allocating unit.

According to the technical scheme, the vehicle penetration ETC judgment unit sets the coordinates of the center of the vehicle where the front vehicle is located to be F = (x1, y1), the coordinates of the center of the vehicle where the rear vehicle is located to be Z = (x2, y2), the front vehicle enters an ETC scanning payment mode after scanning information, the driving speed of the front vehicle is j within the preset time C of a lifting bar, the corresponding coordinates are K (x3, y3), the detected coordinates of the rear vehicle are Q = (x4, y4), and when the front vehicle drives out of the lifting bar, the fact that the front vehicle follows the front vehicle is indicated when the first front-rear vehicle distance MFZ is smaller than the second detected front-rear vehicle distance MKQ;

wherein: MFZ refers to the distance between the first front vehicle and the rear vehicle, MKQ refers to the distance between the second front vehicle and the rear vehicle.

According to the technical scheme, the expressway evaluation module comprises a vehicle journey self-evaluation unit, an expressway self-service evaluation unit and an evaluation result uploading unit, the vehicle journey self-evaluation unit is used for evaluating according to the comparison between the distance and the corresponding time of the vehicle from the entrance of the expressway to the final destination of the expressway and the time stored in the database, the expressway self-service evaluation unit is used for evaluating the parking waiting time of the vehicle in the expressway service area and the time arranged in the service area, the evaluation result uploading unit is used for uploading the result commented by the user, and uploading the result to a main control module, wherein the output end of the vehicle journey self-evaluation unit is connected with the highway self-service evaluation unit and the evaluation result uploading unit.

According to the technical scheme, the method comprises the following steps:

s1: the highway acquisition module is used, so that the toll stations of the highway in different areas can be used as a core to acquire weather conditions and traffic flow conditions in different areas, whether accidents can occur or not is judged in the areas, vehicles in the areas cannot pass through continuously, corresponding accident data are uploaded to the main control module, and other users in the areas are vigilant in the driving process of the vehicles;

s2: when different vehicles pay in different ETC payment channels by using the highway transaction anti-theft module, detecting the information of the vehicle being paid, the face of a vehicle owner and the model of a rear vehicle, detecting the position of the vehicle in real time, judging whether the rear vehicle has a behavior of running into a station with the vehicle when the distance between the rear vehicle and a front vehicle is less than a preset distance in a preset time, and replacing a certain ETC payment channel into an MTC payment channel when the ETC failure of the vehicle is detected;

s3: the method comprises the steps that a highway service area module is used, fatigue values of users are judged according to driving time of the users on a highway, the time of the vehicles of the users staying in the service area is judged according to the fatigue values of the users, when it is detected that the vehicles of the type in the service area do not leave corresponding parking positions within preset time, self-service fee deduction is carried out according to the time of the excessive vehicles staying, the users can leave the service area within fixed time, and other vehicles of the users are guaranteed to have rest and stay in the service area during the peak driving period of the vehicles;

s4: the method comprises the steps of using a highway evaluation module to evaluate according to the running speed and time of a vehicle from a highway entrance to a destination position, meanwhile evaluating according to the parking waiting time of a user vehicle in a service area and the time arranged in the service area, and uploading the result commented by the user to a main control module.

According to the above technical solution, in the step S1, according to the detection of the highway acquisition module, the set of weather conditions corresponding to different time periods in the area is T = { T1, T2, t3... tm }, the set of time waiting for entering the highway station port in different time periods on the highway is x = { x1, x2, x3... xm }, and whether the overtaking vehicle collides with the front part of the rear vehicle in the corresponding different time periods;

in the two-dimensional plane model, the head position coordinates of the first vehicle are (a1, b 1), the tail position coordinates of the second vehicle are (m 1, n 1), the head position coordinates of the second vehicle are (a 2, b 2), the tail position coordinates of the second vehicle are (m 2, n 2), the vehicle coordinates are different due to different corresponding weather conditions, the speed set corresponding to the first vehicle is v = { v1, v2, v3... vm }, and the speed set corresponding to the second vehicle is o = { o1, o2, o3... om };

according to the formula:

the distance traveled by the first vehicle in the preset time r is w, and w = vi × r;

the coordinates of the first vehicle head are D = (a1+ w, b1+ w);

the distance traveled by a second vehicle in the preset time r is P, and P = oi r;

the second vehicle is deviated by an angle of

The angle of deviation when returning to the original lane after overtaking is

；

The new coordinate generated by the second vehicle tail is P

(m1，w-sin

P);

M=

;

When M is

H, indicates that two vehicles do not collide, when M

H, indicating that two vehicles can collide;

wherein: vi and oi refer to different speeds corresponding to a first vehicle and a second vehicle in different weather conditions, M is the distance between the first vehicle and the second vehicle after overtaking, and H is a preset distance.

According to the technical scheme, the user is set to travel from the target a to the target c, the passing high-speed station ports are a, b and c, the travel time of the user from a to b is e, when the user travels to the service area corresponding to b, the time needed for rest and the parking space corresponding to the type of the vehicle are sent to the main control module, after detection, the time needed for waiting of the type of the vehicle in the corresponding service area is W = { W1, W2, w3... wm }, when part of the vehicles of the user are detected and are not driven within the set time, the time exceeded by the part of the vehicles is charged, the charging within half hour is set as a1, the charging exceeds half hour and is set as b1, and the price to be paid by the part of the vehicles is set as a

Li

(wi

ws) *a1 wi

ws

0.5

Li

(wi

ws) *b1 wi

ws

0.5

When the vehicles arrive, arranging the vehicles of the type to run to corresponding parking spaces;

wherein: wi is the actual waiting time, ws is the preset waiting time, and a1 and b1 are the charging coefficients.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic diagram of the modular components of a smart city road management system and method based on a big data platform according to the present invention;

FIG. 2 is a schematic diagram of a smart city road management system and method based on a big data platform according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Referring to fig. 1-2, the present invention provides the following technical solutions: a smart urban road management system and method based on a big data platform comprises a smart urban road management system and method based on a big data platform, the system comprises an expressway acquisition module, an expressway transaction anti-theft module, an expressway service area module, an expressway evaluation module and a main control module, wherein the expressway acquisition module is used for dividing different areas for the core according to each toll station and acquiring the weather condition and the traffic flow in each area, the expressway transaction anti-theft module is used for preventing a rear vehicle from following the vehicle to enter an ETC channel of a front vehicle when the vehicle enters the ETC payment channel, the expressway service area module is used for reasonably arranging the parking time of the vehicle in the service area, and the expressway evaluation module is used for automatically evaluating and autonomously evaluating the distance after the distance is finished and uploading the distance to the main control module, the main control module is used for respectively controlling the highway acquisition module, the highway transaction anti-theft module, the highway service area module and the highway evaluation module;

the expressway service area module comprises an owner fatigue degree determining module, a parking place type advanced arrangement module and a retention factor searching system, wherein the owner fatigue degree determining module is used for judging the fatigue degree of the user when the user faces of the vehicles detected above the ETC lane are detected to be simultaneously present in the service area system, the user driving time is judged, the parking place type advanced arrangement module is used for reasonably arranging the parking position of the vehicles according to the size of the vehicles and calculating the time of the user vehicles completely parking into the parking places, and the retention factor searching system is used for collecting the reason of the vehicle retention and simultaneously verifying the truth degree when the vehicles are detected not to leave the service area within the preset time;

the stagnation factor tracking system comprises a seat sensing terminal and an automatic fee deduction module, wherein the seat sensing terminal is used for indicating that a user stays in a service area when a corresponding signal is not received on a parking space within preset time, the automatic fee deduction module is used for collecting vehicle parking fee according to the stay time of the vehicle exceeding the set stay time when the position of the user is not found, and the seat sensing terminal is connected with the vehicle owner fatigue degree determining module and the automatic fee deduction module.

According to the technical scheme, the expressway acquisition module comprises a vehicle type statistical unit, an area weather factor unit, an area accident connection unit and an area reminding unit, wherein the vehicle type statistical unit is used for carrying out area division on the area by taking an ETC toll station as a core, counting vehicle flow in different areas, judging whether high-speed entrance congestion can be caused or not according to the number of vehicles, the area weather factor unit is used for detecting weather conditions in the area in real time and judging the influence condition of weather in the area on traffic, the area accident connection unit is used for judging whether accidents can be caused or not according to the road conditions and the weather conditions in the area, the area reminding unit is used for uploading accident information generated in the area, and the output end of the vehicle type statistical unit is connected with the area accident connection unit, The input ends of the weather factor unit and the reminding unit in the area are connected.

According to the technical scheme, the highway transaction anti-theft module comprises a high-speed entrance cluster distribution unit, a vehicle queuing waiting unit, a vehicle penetrating ETC judgment unit and an ETC window quantity allocation unit, wherein the high-speed entrance cluster distribution unit is used for detecting the quantity of vehicles in high-speed entrances in different areas in real time, when the detected vehicle flow of the high-speed entrance is larger than the preset quantity, other entrances in the high speed are replaced to drive in, the vehicle queuing waiting unit is used for detecting the quantity of the vehicles waiting in queue at different entrances of the high-speed toll station and calculating the time for paying the transaction in the different entrances, the vehicle penetrating ETC judgment unit is used for detecting the license plate number of the rear vehicle and the corresponding vehicle type when the vehicle is already transacted in an ETC lane, and when the information of the rear vehicle is not detected in the preset time, the vehicle behavior is judged to be that the following vehicle intrudes into the highway station entrance, the ETC window quantity allocating unit is used for replacing part of ETC windows with MTC artificial windows when the payment failure of part of vehicle ETC is detected, and the output end of the high-speed entrance cluster distributing unit is connected with the input ends of the vehicle queuing waiting unit, the vehicle intrusion ETC judging unit and the ETC window quantity allocating unit.

According to the technical scheme, the vehicle penetration ETC judgment unit sets the coordinate of the center of the vehicle where the front vehicle is located to be F = (x1, y1), the coordinate of the center of the vehicle where the rear vehicle is located to be Z = (x2, y2), the front vehicle enters an ETC scanning payment mode after scanning information, the driving speed of the front vehicle is j within the preset time C of raising the lever, the corresponding coordinate is K (x3, y3), the detected coordinate of the rear vehicle is Q = (x4, y4), and when the front vehicle is lifted out of the lever and the first front-rear vehicle distance MFZ is smaller than the second detected front-rear vehicle distance MKQ, the rear vehicle is indicated to follow the front vehicle;

wherein: MFZ refers to the distance between the first front vehicle and the rear vehicle, MKQ refers to the distance between the second front vehicle and the rear vehicle.

According to the technical scheme, the expressway evaluation module comprises a vehicle journey self-evaluation unit, an expressway self-service evaluation unit and an evaluation result uploading unit, the vehicle journey self-evaluation unit is used for evaluating according to the comparison between the driving distance and the corresponding time of a vehicle starting from an expressway entrance to a destination and finally arriving at the expressway station entrance and the time stored in a database, the expressway self-service evaluation unit is used for evaluating according to the parking waiting time of the vehicle type in an expressway service area and the time arranged in the service area, the evaluation result uploading unit is used for uploading the result commented by a user and uploading the result to the main control module, and the output end of the vehicle journey self-evaluation unit is connected with the expressway self-service evaluation unit and the evaluation result uploading unit.

According to the technical scheme, the method comprises the following steps:

s1: the highway acquisition module is used, so that the toll stations of the highway in different areas can be used as a core to acquire weather conditions and traffic flow conditions in different areas, whether accidents can occur or not is judged in the areas, vehicles in the areas cannot pass through continuously, corresponding accident data are uploaded to the main control module, and other users in the areas are vigilant in the driving process of the vehicles;

s2: when different vehicles pay in different ETC payment channels by using the highway transaction anti-theft module, detecting the information of the vehicle being paid, the face of a vehicle owner and the model of a rear vehicle, detecting the position of the vehicle in real time, judging whether the rear vehicle has a behavior of running into a station with the vehicle when the distance between the rear vehicle and a front vehicle is less than a preset distance in a preset time, and replacing a certain ETC payment channel into an MTC payment channel when the ETC failure of the vehicle is detected;

s3: the method comprises the steps that a highway service area module is used, fatigue values of users are judged according to driving time of the users on a highway, the time of the vehicles of the users staying in the service area is judged according to the fatigue values of the users, when it is detected that the vehicles of the type in the service area do not leave corresponding parking positions within preset time, self-service fee deduction is carried out according to the time of the excessive vehicles staying, the users can leave the service area within fixed time, and other vehicles of the users are guaranteed to have rest and stay in the service area during the peak driving period of the vehicles;

s4: the method comprises the steps of using a highway evaluation module to evaluate according to the running speed and time of a vehicle from a highway entrance to a destination position, meanwhile evaluating according to the parking waiting time of a user vehicle in a service area and the time arranged in the service area, and uploading the result commented by the user to a main control module.

According to the above technical solution, in step S1, according to the detection of the highway acquisition module, the set of weather conditions corresponding to different time periods in an area is T = { T1, T2, t3... tm }, the set of time waiting for entering the highway station port in different time periods on the highway is x = { x1, x2, x3... xm }, and whether the overtaking vehicle collides with the front part of the rear vehicle is performed in the corresponding different time periods;

in the two-dimensional plane model, the head position coordinates of the first vehicle are (a1, b 1), the tail position coordinates of the second vehicle are (m 1, n 1), the head position coordinates of the second vehicle are (a 2, b 2), the tail position coordinates of the second vehicle are (m 2, n 2), the vehicle coordinates are different due to different corresponding weather conditions, the speed set corresponding to the first vehicle is v = { v1, v2, v3... vm }, and the speed set corresponding to the second vehicle is o = { o1, o2, o3... om };

according to the formula:

the distance traveled by the first vehicle in the preset time r is w, and w = vi × r;

the coordinates of the first vehicle head are D = (a1+ w, b1+ w);

the distance traveled by a second vehicle in the preset time r is P, and P = oi r;

the second vehicle is deviated by an angle of

The angle of deviation when returning to the original lane after overtaking is

；

The new coordinate generated by the second vehicle tail is P

(m1，w-sin

P);

M=

;

When M is

H, indicates that two vehicles do not collide, when M

H, indicating that two vehicles can collide;

wherein: vi and oi refer to different speeds corresponding to a first vehicle and a second vehicle in different weather conditions, M is the distance between the first vehicle and the second vehicle after overtaking, and H is a preset distance.

According to the technical scheme, the user is set to travel from the target a to the target c, the passing high-speed station ports are a, b and c, the travel time from the a to the b of the user is e, when the user travels to the service area corresponding to the b, the time needed for rest and the parking space corresponding to the type of the vehicle are sent to the main control module, after detection, the time needed for waiting of the type of the vehicle in the corresponding service area is W = { W1, W2, w3... wm }, when part of the vehicles of the user are detected and are not driven within the set time, the time exceeded by the part of the vehicles is charged, the charging within half hour is set as a1, the charging within half hour is set as b1, and the price to be paid by the part of the vehicles is set as b1

Li

(wi

ws) *a1 wi

ws

0.5

Li

(wi

ws) *b1 wi

ws

0.5

When a vehicle arrives, arranging the type of vehicle to drive to a corresponding parking space;

wherein: wi is the actual waiting time, ws is the preset waiting time, and a1 and b1 are the charging coefficients.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. 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 (3)

1. The utility model provides a wisdom urban road management system based on big data platform which characterized in that: the system comprises an expressway acquisition module, an expressway transaction anti-theft module, an expressway service area module, an expressway evaluation module and a main control module, wherein the expressway acquisition module is used for dividing different areas for cores according to each toll station and acquiring weather conditions and traffic flow in each area, the expressway transaction anti-theft module is used for avoiding that rear vehicles enter an ETC channel of front vehicles with the vehicles when the vehicles enter the ETC payment channel, the expressway service area module is used for reasonably arranging the parking time of the vehicles in the service area, the expressway evaluation module is used for automatically evaluating and autonomously evaluating the distance after the distance is finished and uploading the distance to the main control module, and the main control module is used for respectively controlling the expressway acquisition module, the expressway transaction anti-theft module, the expressway service area module, the main control module and the main control module, The system comprises an expressway service area module and an expressway evaluation module;

the expressway service area module comprises an owner fatigue degree determining module and a parking place type advanced arrangement module

The system comprises a vehicle owner fatigue determining module, a parking place type advance arrangement module, a block and stagnation factor searching system, wherein the vehicle owner fatigue determining module is used for judging the fatigue of the user when the face of a vehicle user detected above an ETC lane is detected to be simultaneously present in a service area system, the parking place type advance arrangement module is used for reasonably arranging the parking place of the vehicle according to the size of the vehicle and calculating the time of the user vehicle completely parking into the parking place, and the stagnation factor searching system is used for collecting reasons for vehicle stagnation and simultaneously verifying the truth when the vehicle is detected not to leave the service area within the preset time;

the detention factor tracking system comprises a seat induction terminal and an automatic fee deduction module, wherein the seat induction terminal induces the seat

The terminal is used for indicating that a user stays in a service area when the corresponding signal received on the parking space is not detected within the preset time, the autonomous fee deducting module is used for collecting the parking fee of the vehicle according to the stay time of the vehicle exceeding the set position when the position of the user is not found, and the seat induction terminal is connected with the vehicle owner fatigue degree determining module and the autonomous fee deducting module;

the management method of the intelligent city road management system comprises the following steps:

s1: the highway acquisition module is used, so that the toll stations of the highway in different areas can be used as a core to acquire weather conditions and traffic flow conditions in different areas, whether accidents can occur or not is judged in the areas, vehicles in the areas cannot pass through continuously, corresponding accident data are uploaded to the main control module, and other users in the areas are vigilant in the driving process of the vehicles;

s2: when different vehicles pay in different ETC payment channels by using the highway transaction anti-theft module, detecting the information of the vehicle being paid, the face of a vehicle owner and the model of a rear vehicle, detecting the position of the vehicle in real time, judging whether the rear vehicle has a behavior of running into a station with the vehicle when the distance between the rear vehicle and a front vehicle is less than a preset distance in a preset time, and replacing a certain ETC payment channel into an MTC payment channel when the ETC failure of the vehicle is detected;

s3: the method comprises the steps that a highway service area module is used, fatigue values of users are judged according to driving time of the users on a highway, the time of the vehicles of the users staying in the service area is judged according to the fatigue values of the users, when it is detected that the vehicles of the type in the service area do not leave corresponding parking positions within preset time, self-service fee deduction is carried out according to the time of the excessive vehicles staying, the users can leave the service area within fixed time, and other vehicles of the users are guaranteed to have rest and stay in the service area during the peak driving period of the vehicles;

s4: the method comprises the steps of using a highway evaluation module to evaluate according to the running speed and time of a vehicle from a highway entrance to a destination position, meanwhile evaluating according to the parking waiting time of a user vehicle in a service area and the time arranged in the service area, and uploading the result commented by the user to a main control module.

2. The smart city road management system based on big data platform as claimed in claim 1, wherein: in the step S1, according to the detection of the highway acquisition module, the set of weather conditions corresponding to different time periods in the area is T = { T1, T2, t3... tm }, the set of time waiting for entering the highway station port in different time periods on the highway is x = { x1, x2, x3... xm }, and whether the overtaking vehicle collides with the front part of the rear vehicle in different time periods is performed;

in the two-dimensional plane model, the head position coordinates of the first vehicle are (a1, b 1), the tail position coordinates of the first vehicle are (m 1, n 1), the head position coordinates of the second vehicle are (a 2, b 2), the tail position coordinates of the second vehicle are (m 2, n 2), and due to the corresponding different weather conditions, the speed set corresponding to the first vehicle is v = { v1, v2, v3... vm }, and the speed set corresponding to the second vehicle is o = { o1, o2, o3... om };

according to the formula:

the distance traveled by the first vehicle in the preset time r is w, and w = vi × r;

the coordinates of the first vehicle head are D = (a1+ w, b1+ w);

the distance traveled by a second vehicle in the preset time r is P, and P = oi r;

the second vehicle is deviated by an angle of

The angle of deviation when returning to the original lane after overtaking is

；

The new coordinates generated by the second vehicle's rear end areP

(m1，w-sin

P);

M=

;

When in useM

HWhen two vehicles do not collide with each otherM

HWhen, two vehicles would collide;

wherein: vi and oi refer to different speeds corresponding to a first vehicle and a second vehicle in different weather conditions, M is the distance between the first vehicle and the second vehicle after the first vehicle overtakes, and H is a preset distance.

3. The smart city road management system based on big data platform as claimed in claim 2, wherein: setting a user to travel from a target a to a target c, wherein a, b and c exist at the passing high-speed station mouths, the travel time of the user from a to b is e, when the user travels to a service area corresponding to b, the time required for rest and the parking space corresponding to the type of the vehicle are sent to a main control module, the time required for waiting of the vehicle in the corresponding service area is W = { W1, W2, w3... wm } after detection, when part of the vehicles of the user are detected not to be driven in the set time, the time exceeded by the part of the vehicles is charged, and the charging is set within half an hour as the charging

More than half an hour is charged as

The price to be paid by some vehicles is

When the vehicles arrive, arranging the vehicles of the type to run to corresponding parking spaces;

wherein:

it is referred to the time of the actual wait,

it is referred to a preset waiting time,

，

refers to the charging factor.

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