CN114973697A

CN114973697A - Vehicle priority passing control method and related equipment

Info

Publication number: CN114973697A
Application number: CN202110222765.XA
Authority: CN
Inventors: 魏吉敏; 张长隆; 马潍; 戴金钢; 黄达
Original assignee: Changsha Intelligent Driving Research Institute Co Ltd
Current assignee: Changsha Intelligent Driving Research Institute Co Ltd
Priority date: 2021-02-26
Filing date: 2021-02-26
Publication date: 2022-08-30

Abstract

The embodiment of the invention discloses a vehicle priority traffic control method and related equipment, wherein a road side unit responds to a priority traffic request of a target vehicle to acquire real-time dynamic traffic information of a crossing where the target vehicle enters, and the priority traffic request comprises a vehicle ID of the target vehicle; the road side unit sends a first query frame to a signal controller to request for issuing a current traffic light phase of the intersection; the signal controller responds to the first query frame to reply the first query response frame; the road side unit analyzes the first query response frame to obtain the current traffic light phase; and the road side unit determines priority passing control information for enabling the target vehicle to pass through the intersection preferentially according to the real-time dynamic traffic information of the intersection, the current traffic light phase and the vehicle information corresponding to the vehicle ID. By the method, the priority traffic control information corresponding to the target vehicle can be obtained, and the target vehicle can pass through the intersection preferentially by the priority traffic control information, so that the time required by the vehicle to pass through the intersection is effectively reduced.

Description

Vehicle priority passing control method and related equipment

Technical Field

The invention relates to the technical field of vehicle passing control, in particular to a vehicle priority passing control method and related equipment.

Background

In the prior art, when a vehicle passes through an intersection, especially during rush hours, the consumed or waiting time is very long, the traveling experience is very influenced, the travel arrangement of a vehicle user cannot be completed normally, and the traveling efficiency is reduced.

Disclosure of Invention

The embodiment of the invention provides a vehicle priority passing control method and related equipment, which can realize that a vehicle passes through an intersection preferentially and effectively reduce the time required by the vehicle to pass through the intersection.

In a first aspect, an embodiment of the present invention provides a vehicle priority traffic control method, which is applied to a road side unit of a vehicle priority traffic control system, where the vehicle priority traffic control system further includes a signal controller communicatively connected to the road side unit, and an on-board unit installed on a target vehicle and communicatively connected to the road side unit, and the method includes:

receiving a priority passing request sent by the vehicle-mounted unit, wherein the priority passing request comprises a vehicle ID of the target vehicle;

responding to the priority passing request, and acquiring real-time dynamic traffic information of the intersection which the target vehicle enters;

sending a first query frame to the signal controller so that the signal controller replies a first query response frame in response to the first query frame, wherein the first query response frame carries the current traffic light phase of the intersection;

analyzing the first query response frame to obtain the current traffic light phase;

and determining priority traffic control information for enabling the target vehicle to pass through the intersection preferentially according to the real-time dynamic traffic information of the intersection, the current traffic light phase and the vehicle information corresponding to the vehicle ID.

Optionally, the priority pass request further includes vehicle information corresponding to the vehicle ID, where the vehicle information includes at least one of a speed, a position, a heading angle, a driving route, a number of passengers, and a vehicle type of the target vehicle.

Optionally, before determining the priority traffic control information, the method further comprises:

and acquiring vehicle information corresponding to the vehicle ID from the vehicle-mounted unit, wherein the vehicle information comprises at least one of the speed, the position, the course angle, the driving route, the passenger carrying number and the vehicle type of the target vehicle.

Optionally, when the vehicle information includes the speed, the position, and the heading angle of the target vehicle, the determining, according to the real-time dynamic traffic information of the intersection, the current traffic light phase, and the vehicle information corresponding to the vehicle ID, priority traffic control information for allowing the target vehicle to preferentially pass through the intersection specifically includes:

determining the dynamic minimum green light duration of each phase of the intersection according to the real-time dynamic traffic information of the intersection;

determining the time when the target vehicle reaches a stop line of the intersection according to the speed and the position of the target vehicle;

determining a traffic light phase required by the target vehicle to pass through the intersection according to the course angle of the target vehicle and a preset corresponding relation, wherein the preset corresponding relation is the corresponding relation between the course and the traffic light phase;

and determining the priority traffic control information according to the dynamic minimum green light duration of each phase, the time of the target vehicle reaching the stop line of the intersection, the required traffic light phase and the current traffic light phase.

Optionally, the real-time dynamic traffic information comprises real-time pedestrian traffic information, real-time non-motor vehicle traffic information, and real-time motor vehicle traffic information; the determining the dynamic minimum green light duration of each phase of the intersection according to the real-time dynamic traffic information of the intersection specifically comprises:

respectively determining a first minimum green light time length required by a pedestrian to pass through each phase of the intersection, a second minimum green light time length required by a non-motor vehicle to pass through each phase of the intersection and a third minimum green light time length required by the motor vehicle to pass through each phase of the intersection according to the real-time pedestrian traffic information, the real-time non-motor vehicle traffic information and the real-time motor vehicle traffic information;

and determining the maximum value of the first minimum green light time length, the second minimum green light time length and the third minimum green light time length corresponding to each phase of the intersection as the final minimum green light time length corresponding to the phase.

Optionally, before sending the first query frame to the signal controller, the method further includes:

and informing the signal controller of preparing to carry out traffic light priority traffic control and preparing to send the current traffic light phase of the intersection through a setting frame.

Optionally, the frame format of the data frame includes at least one of the following fields: the system comprises a starting domain, a type domain, a control domain, a length domain, a data domain, a check domain and an ending domain; the data frame is at least one of the first query frame, the first query response frame and the setting frame.

Optionally, in the data frame, the start field includes a first start field and a second start field, and the type field is disposed between the first start field and the second start field.

Optionally, the method further comprises:

and sending the priority traffic control information to the signal controller so that the signal controller adjusts the phase of traffic lights at the intersection according to the priority traffic control information to enable the target vehicle to pass through the intersection preferentially.

and when the passenger carrying rate of the target vehicle is determined to be larger than a passenger carrying rate threshold value, executing the step of determining the priority communication control information.

In a second aspect, an embodiment of the present invention provides a vehicle priority traffic control method, which is applied to a signal controller of a vehicle priority traffic control system, where the vehicle priority traffic control system further includes a road side unit communicatively connected to the signal controller, and an on-board unit mounted on a target vehicle and communicatively connected to the road side unit, and the method includes:

receiving a first query frame sent by the road side unit, wherein the first query frame is used for requesting a current traffic light phase of a crossing into which the target vehicle enters;

responding to the first query frame to reply a first query response frame to the road side unit, wherein the first query response frame carries the current traffic light phase, so that the road side unit determines priority traffic control information enabling the target vehicle to preferentially pass through the intersection according to real-time dynamic traffic information of the intersection, the current traffic light phase and vehicle information corresponding to the target vehicle.

Optionally, the method further comprises:

and receiving a setting frame sent by the road side unit to prepare for carrying out traffic light priority passing control and issuing the current traffic light phase of the intersection.

Optionally, the method further comprises:

receiving the priority traffic control information sent by the road side unit;

and adjusting the phase of the traffic lights at the intersection according to the priority traffic control information so as to enable the target vehicle to pass through preferentially.

In a third aspect, an embodiment of the present invention provides a roadside unit of a vehicle priority traffic control system, where the vehicle priority traffic control system further includes a signal controller communicatively connected to the roadside unit, and an on-board unit installed on a target vehicle and communicatively connected to the roadside unit, and the roadside unit includes:

the first receiving module is used for receiving a priority passing request sent by the vehicle-mounted unit, and the priority passing request comprises a vehicle ID of the target vehicle;

the acquisition module is used for responding to the priority passing request and acquiring real-time dynamic traffic information of the intersection where the target vehicle enters;

the first sending module is used for sending a first query frame to the signal controller so that the signal controller replies a first query response frame in response to the first query frame, and the first query response frame carries the current traffic light phase of the intersection;

the analysis module is used for analyzing the first query response frame to obtain the current traffic light phase;

and the determining module is used for determining priority traffic control information for enabling the target vehicle to pass through the intersection preferentially according to the real-time dynamic traffic information of the intersection, the current traffic light phase and the vehicle information corresponding to the vehicle ID.

In a fourth aspect, an embodiment of the present invention provides a signal controller of a vehicle priority traffic control system, where the vehicle priority traffic control system further includes a roadside unit communicatively connected to the signal controller, and an on-board unit mounted on a target vehicle and communicatively connected to the roadside unit, and the signal controller includes:

the second receiving module is used for receiving a first query frame sent by the road side unit, wherein the first query frame is used for requesting the current traffic light phase of the intersection where the target vehicle enters;

and the second sending module is used for responding to the first query frame and replying a first query response frame to the road side unit, wherein the first query response frame carries the current traffic light phase, so that the road side unit determines priority passing control information for enabling the target vehicle to pass through the intersection preferentially according to the real-time dynamic traffic information of the intersection, the current traffic light phase and the vehicle information corresponding to the target vehicle.

In a fifth aspect, an embodiment of the present invention provides a vehicle priority traffic control system, where the vehicle priority traffic control system includes a road side unit, a signal controller communicatively connected to the road side unit, and an on-board unit mounted on a target vehicle and communicatively connected to the road side unit, where:

the road side unit for performing the steps of the method according to the first aspect;

the signal controller is configured to perform the steps of the method according to the second aspect.

In a sixth aspect, an embodiment of the present invention provides a vehicle priority passage control apparatus, including: a processor and a memory;

the processor is connected with the memory, wherein the memory is used for storing program codes, and the processor is used for calling the program codes to execute the vehicle priority passing control method according to the first aspect and/or the second aspect.

In a seventh aspect, an embodiment of the present invention provides a computer storage medium, which is characterized in that the computer storage medium stores a computer program, the computer program includes program instructions, and the program instructions, when executed by a processor, execute the vehicle priority passage control method according to the first aspect and/or the second aspect.

In the vehicle priority traffic control method in the embodiment of the invention, a road side unit responds to a priority traffic request of a vehicle-mounted unit installed on a target vehicle to acquire real-time dynamic traffic information of a crossing where the target vehicle enters, wherein the priority traffic request comprises a vehicle ID of the target vehicle; the road side unit sends a first query frame to a signal controller to request for issuing a current traffic light phase of the intersection; the signal controller responds to the first query frame to reply the first query response frame, and the first query response frame carries the current traffic light phase; the road side unit analyzes the first query response frame to obtain the current traffic light phase; and the road side unit determines priority passing control information for enabling the target vehicle to pass through the intersection preferentially according to the real-time dynamic traffic information of the intersection, the current traffic light phase and the vehicle information corresponding to the vehicle ID. By the method, the priority traffic control information corresponding to the target vehicle can be obtained, and the target vehicle can pass through the intersection preferentially by the priority traffic control information, so that the time required by the vehicle to pass through the intersection is effectively reduced.

Drawings

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

Fig. 1 is a schematic structural diagram of a vehicle priority passing control system provided by an embodiment of the invention;

FIG. 2 is an interactive schematic diagram of a vehicle priority traffic control method according to an embodiment of the present invention;

FIG. 3 is a flow chart of a method for controlling priority traffic of a vehicle according to an embodiment of the present invention;

FIG. 4 is a detailed flowchart of a method for controlling priority traffic of a vehicle according to an embodiment of the present invention;

fig. 5 is a flowchart illustrating a method for determining a minimum green light duration of each phase dynamic at an intersection according to an embodiment of the present invention;

FIG. 6 is a flow chart of another method for controlling priority traffic of a vehicle according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a vehicle priority passage control device according to an embodiment of the invention;

fig. 8 is a schematic structural diagram of a roadside unit according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a signal controller according to an embodiment of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

It should be understood that the terms "first," "second," and the like in the description and claims of this application and in the drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference in the specification to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by the person skilled in the art that the described embodiments of the invention can be combined with other embodiments.

Herein, the vehicle includes transportation means such as a car, a bus, a truck, a bus, an ambulance, a sprinkler, a cement truck, and the like, and in the following embodiments, the bus is taken as an example for explanation.

In the prior art, when a vehicle passes through an intersection, especially during rush hours, the consumed or waiting time is very long, the traveling experience is very influenced, the travel arrangement of a vehicle user cannot be completed normally, and the traveling efficiency is reduced. Therefore, the vehicle priority passing control method can achieve the effect that vehicles pass through the intersection preferentially, and effectively reduces the time required for the vehicles to pass through the intersection.

The vehicle priority passage control method in the embodiment of the application can be executed by a vehicle priority passage control system. Referring to fig. 1, fig. 1 is a schematic structural diagram of a vehicle priority traffic control system according to an embodiment of the present invention, where a vehicle is a bus, and in this case, the vehicle priority traffic control system includes a road side unit RSU 107 disposed at an intersection, a signal controller TSC108 connected to the RSU 107 in a communication manner, and an on board unit OBU 104 mounted on the bus and connected to the RSU 107 in a communication manner. Optionally, the vehicle priority passing control system may further include a laser radar 111, a camera 112, an edge calculation unit 110, a traffic light 109, and a traffic sign 106 disposed at the intersection; further, the vehicle priority passage control system can also comprise a passenger counting device arranged on the bus, a tail screen 101 and an in-vehicle display screen 102. Wherein:

the on-board unit OBU 104 is installed on a bus, and can acquire information of detection devices (such as passenger counting devices, vehicle speed acquisition devices, and the like) on the bus and send the information to the road side unit RSU in a broadcast manner.

The road side unit RSU 107 can receive the message sent by the OBU 104, and has the ability to sense the traffic situation of the intersection through the edge calculation unit 110.

In particular, the on-board unit can obtain the heading angle information of the vehicle through a built-in GPS module and a GPS antenna.

The signal controller TSC108 is configured to execute a timing scheme to control the phase and period of the traffic lights. Wherein, the RSU and the TSC may be a one-to-one deployment.

The traffic sign 106 is installed at each direction of the intersection to display information such as priority traffic control information.

The tail screen 101 is arranged at the tail part of a bus, the display interface of the tail screen faces the outside of the bus, and is used for prompting the bus behind the bus, so that the light color and the countdown information of traffic lights in multiple directions (including left-turn, straight-going, right-turn, head-off and the like) when the bus enters the intersection can be displayed on the tail screen of the bus, the situation that the red light rushes through due to the fact that the bus shields the traffic lights at the intersection in front of the bus is avoided, and the safety of other social vehicles passing through the intersection is improved. The in-vehicle display screen 102 is used for displaying the light color of the traffic lights, the remaining time of the traffic lights, priority traffic control information and the like, and is used for prompting a driver driving the bus and prompting passengers of the bus, so that the driving safety of the driver and the riding experience of the passengers are improved.

The number of the passenger counting devices can be more than one, in this embodiment, referring to fig. 1, the passenger counting devices include a first passenger counting device 103 and a second passenger counting device 105, which are respectively installed at positions of front and rear doors of the bus, and detect the situations of getting on or off the bus by using cameras contained in the passenger counting devices, so as to finally obtain the number of passengers on the bus. In order to avoid the situation that the passenger counting is wrong due to the fact that passengers stand at the front door and the rear door of the bus in the driving process of the bus, when the door of the bus is closed, the vehicle-mounted unit keeps the number of the passengers counted at the moment unchanged.

The laser radar 111 and the camera 112 are used to detect traffic dynamics information of vehicles, pedestrians, riders, and the like at an intersection.

The edge calculation unit 110 is configured to process raw data of the laser radar 111 and the camera 112, perform processing and multi-sensor data fusion on the raw data, and obtain intersection structured dynamic traffic information.

In addition, in a possible embodiment, the road side unit can be connected with the signal controller through interfaces such as an RS-232-C interface/an RS485 interface/an RS422 interface and the like, so that the phase and the countdown information of traffic lights at the intersection of the signal controller are obtained. The road side unit communicates with the edge computing unit through Ethernet to realize the transmission of dynamic traffic information of the intersection. The road side unit and the traffic notice board realize the display of the prior traffic control information such as the vehicle priority strategy, the priority duration and the like through Ethernet communication. The edge calculation unit, the laser radar and the camera realize the transmission of the original data of the sensor through Ethernet communication. And the vehicle-mounted unit and the passenger counting equipment obtain passenger information of getting on or off passengers of each vehicle door through Ethernet or WIFI communication. The vehicle-mounted unit, the tail screen and the display screen in the vehicle realize the transmission of the prior traffic control information through Ethernet or WIFI communication.

Next, referring to fig. 2 and fig. 3, fig. 2 is an interactive schematic diagram of a vehicle priority traffic control method according to an embodiment of the present invention, and fig. 3 is a flowchart of the vehicle priority traffic control method according to the embodiment of the present invention; the vehicle priority traffic control method is applied to a road side unit of a vehicle priority traffic control system, and the vehicle priority traffic control system further comprises a signal control machine in communication connection with the road side unit and an on-board unit which is installed on a target vehicle and is in communication connection with the road side unit. The vehicle priority passing control method comprises the following steps:

step 301, receiving a priority passing request sent by an on-board unit, wherein the priority passing request comprises a vehicle ID of a target vehicle;

specifically, when the target vehicle drives to approach the intersection, the target vehicle is a bus as an example, and the OBU 104 on the bus sends a priority pass request to the RSU 107 arranged at the intersection, wherein the bus priority request includes a vehicle ID of the bus for requesting the RSU to perform priority pass control on the bus.

Step 302, responding to a priority traffic request, and acquiring real-time dynamic traffic information of a crossing where a target vehicle enters;

specifically, according to the priority traffic request, the road side unit RSU acquires real-time dynamic traffic information of the intersection into which the target vehicle is to enter, and the real-time dynamic traffic information can be understood as real-time perception information of traffic participants (pedestrians, non-motor vehicles, and the like) in the intersection.

Step 303, sending a first query frame to the signal controller, so that the signal controller replies a first query response frame in response to the first query frame, wherein the first query response frame carries the current traffic light phase of the intersection;

specifically, the RSU sends a first query frame to the TSC to request traffic light phase information of the intersection where the target vehicle is about to enter, and the TSC returns a first query response frame in response to the first query frame, where the first query response frame carries the current traffic light phase of the intersection. Particularly, one road side unit can be arranged at one intersection, and a signal control machine is correspondingly arranged for controlling the traffic lights of the intersection.

Step 304, analyzing the first query response frame to obtain the current traffic light phase;

specifically, the road side unit will parse the first query response frame to obtain the current traffic light phase of the intersection.

And 305, determining priority passing control information for enabling the target vehicle to pass through the intersection preferentially according to the real-time dynamic traffic information of the intersection, the current traffic light phase and the vehicle information corresponding to the vehicle ID.

Specifically, the road side unit can control the target vehicle to pass through the intersection preferentially according to the real-time dynamic traffic information of the intersection, the current traffic light phase and the vehicle information corresponding to the vehicle ID, namely, determine the preferential traffic control information for enabling the target vehicle to pass through the intersection preferentially.

By using the method of fig. 3, the road side unit can obtain the priority traffic control information corresponding to the target vehicle, and by using the priority traffic control information, the target vehicle can pass through the intersection preferentially, so that the time required by the vehicle to pass through the intersection is effectively reduced, and the user experience is improved.

In one possible embodiment, before determining the priority traffic control information, the vehicle priority traffic control method further includes:

and when the passenger carrying rate of the target vehicle is determined to be larger than the passenger carrying rate threshold value, executing the step of determining the priority communication control information.

Specifically, before the step of determining the priority communication control information is executed, the passenger carrying rate of the target vehicle may be determined, and when the passenger carrying rate of the target vehicle is determined to be greater than the passenger carrying rate threshold, priority traffic control is performed on the target vehicle, that is, the step of determining the priority communication control information is executed; on the contrary, if the passenger carrying rate of the target vehicle is smaller than the passenger carrying rate threshold value, the target vehicle is not subjected to priority traffic control. The load factor threshold may be set according to actual situations, for example, the load factor threshold is set to be 5%, 10%, 50%, or 80%.

By the method, the target vehicle is subjected to priority traffic control after meeting the passenger carrying rate condition. In an actual scene, other conditions except the passenger carrying rate condition can be set according to actual conditions so as to control whether priority passing control is carried out on the vehicles as requests or not, and different requirements of the actual use scene are met.

In one possible embodiment, the vehicle priority passage control method further includes:

and sending the priority traffic control information to a signal controller so that the signal controller adjusts the phase of traffic lights at the intersection according to the priority traffic control information to enable the target vehicle to pass through the intersection preferentially.

Specifically, the road side unit sends the priority traffic control information to the signal controller, so that the signal controller can adjust the phase of the traffic lights of the intersection according to the priority traffic control information, so that the target vehicle can smoothly and preferentially pass through the intersection. In one possible embodiment, the roadside unit may actively transmit the priority traffic control information of the target vehicle to a signal controller of the intersection after obtaining the priority traffic control information. In another possible embodiment, the rsu may send the priority traffic control information of the target vehicle to the signal controller in response to a request from the signal controller, where, referring to fig. 2, the signal controller may send a second query frame to the rsu at regular time to request to send the current priority traffic control information, and the rsu may send a second query response frame to the signal controller in response to the second query frame, so that the signal controller may obtain the priority traffic control information and adjust the phase of the traffic lights at the intersection according to the priority traffic control information.

In one possible embodiment, the priority traffic control information includes a priority vehicle ID (i.e., a vehicle ID of a target vehicle allowed to pass preferentially), a vehicle priority policy, a direction of priority traffic, and a priority traffic light duration, although the priority traffic control information includes, but is not limited to, the above-listed cases.

In one possible embodiment, the embodiment of the present invention provides an obtaining method for a roadside unit to obtain vehicle information of a target vehicle, that is, vehicle information of the target vehicle is carried in a priority pass request, that is, the priority pass request may further include vehicle information corresponding to a vehicle ID, where the vehicle information includes at least one of a speed, a position, a heading angle, a driving route, a number of passengers (or a passenger carrying rate), and a vehicle type of the target vehicle.

In a possible embodiment, another method for acquiring vehicle information of a target vehicle by a road side unit is further provided in the embodiments of the present invention, and before determining the priority traffic control information, specifically, after the road side unit receives the priority traffic request and before determining the priority traffic control information, the method for controlling vehicle priority traffic further includes:

Specifically, the roadside unit and the on-board unit of the target vehicle may communicate by means of DSRC/LTE-V/NR-V2X or the like to acquire vehicle information corresponding to the vehicle ID in the priority passage request, and the vehicle information may include information such as the speed, position, travel route, number of passengers (or passenger carrying rate), vehicle type, and the like of the target vehicle.

In one possible embodiment, the roadside unit may further perform the determination according to the vehicle type of the target vehicle when determining whether to perform the priority traffic control for the target vehicle, and perform the step of determining the priority communication control information when determining that the target vehicle belongs to a preset vehicle type, where the preset vehicle type may be set according to actual conditions, for example, the preset vehicle type may be set as at least one of a bus, an ambulance, a sprinkler, a cement truck, and the like.

In one possible embodiment, referring to fig. 4, fig. 4 is a specific flowchart of a method for controlling priority traffic of a vehicle according to an embodiment of the present invention; in fig. 4, taking the vehicle information corresponding to the vehicle ID obtained from the on-board unit as an example, when the vehicle information includes the speed, the position, the course angle and the number of passengers of the target vehicle, in practice, after receiving the priority passing request of the target vehicle, the number of passengers of the target vehicle may be obtained to determine the passenger carrying rate of the target vehicle, and then it is determined whether the passenger carrying rate satisfies the passenger carrying rate condition, when the passenger carrying rate of the target vehicle is greater than the passenger carrying rate threshold, the subsequent processing steps in fig. 4 are performed, and when the passenger carrying rate of the target vehicle is less than or equal to the passenger carrying rate threshold, the priority passing control is not performed on the target vehicle, and the processing flow is directly ended.

Further, determining priority traffic control information for enabling the target vehicle to preferentially pass through the intersection according to the real-time dynamic traffic information of the intersection, the current traffic light phase and the vehicle information corresponding to the vehicle ID, specifically comprising:

and determining priority traffic control information according to the dynamic minimum green light duration of each phase, the time of the target vehicle reaching a stop line of the intersection, the required traffic light phase and the current traffic light phase.

Specifically, referring to fig. 4, a distance L of the target vehicle from the stop line of the intersection may be determined according to the position of the target vehicle, and a time t of the target vehicle reaching the stop line of the intersection may be determined as L/v according to the current vehicle speed v of the target vehicle. The road side unit is stored with the lane level map information of the intersection, when the target vehicle approaches the intersection, the information of the intersection map (namely the course) and the traffic light phase corresponding table can be inquired through the course angle information of the target vehicle so as to obtain the traffic light phase required by the target vehicle to pass through the intersection, namely the intersection passing phase. Wherein, in the corresponding table, each driving direction of each intersection corresponds to the phase of one traffic light; taking a bus as an example, because the route of the bus is fixed and the driving direction of the bus at each intersection is fixed, the phase information of the traffic light required by the bus to pass through the intersection can be accurately obtained according to the driving direction and the corresponding table.

Further, referring to fig. 4, when determining the priority traffic control information, the roadside unit may determine to adopt one of three vehicle priority strategies of green light extension, red light cutoff, and phase maintenance according to the time when the target vehicle reaches the intersection stop line, the phase of the current traffic light, and the phase of the green light required by the target vehicle to pass through the intersection. Specifically, the target vehicle is a bus as an example, and if the corresponding traffic light is a green light phase when the bus is driven to the intersection, and the bus can pass through the intersection within the corresponding remaining green light time, a phase holding mechanism is adopted. If the corresponding traffic light is in the green light phase, the bus can not pass through the intersection within the corresponding residual green light time, and then a green light prolonging mechanism is adopted. And if the current traffic light is in the red light phase and the signal light can be normally switched to the green light before the bus drives to the stop line of the intersection, adopting a phase holding mechanism. If the current traffic light is in the red light phase, the bus drives to the stop line of the intersection or is in the red light, a red light cut-off mechanism is adopted, and the signal control machine performs red light early-cut control, namely green light time in other passing directions is compressed. The vehicle priority strategy ensures that the target vehicle can pass through the intersection in a green light phase, and reduces the waiting time of the target vehicle at the intersection.

When a vehicle priority strategy is generated, when the longer queuing length of a lane at the intersection is detected, the green light time corresponding to the lane is not compressed or is less compressed, so that the intersection jam caused by the compression of the green light time is avoided; when detecting that more pedestrians and non-motor vehicles need to pass through the intersection, compressing the corresponding phases of the passerby passing and the non-motor vehicle passing less; when the number of passengers of the target vehicle is small, the right of preferential passage of the target vehicle is not given, and waste of preferential passage time is avoided.

Further specifically, when the red light cutoff strategy is adopted, the cutoff time length needs to be determined: the maximum time that can be truncated is the total green time minus the total minimum green time for the other directions of clearance. For example, if the current direction of travel of the target vehicle is a straight-ahead direction in the north-south direction, the other directions of travel include east-west straight-ahead, east-west left turn, north-south left turn. In the embodiment, the laser radar, the camera and the edge calculation unit are arranged at the intersection, so that the dynamic minimum green light duration of each phase can be obtained according to the real-time dynamic traffic information of the target vehicle passing through the intersection, when a red light cut-off strategy is adopted, the maximum time for the target vehicle to be cut off preferentially is dynamically adjusted according to the actual situation of the site, and the influence of the target vehicle on other social vehicles preferentially is reduced to the maximum extent.

The time required to be extended when the green light extension is employed is the time required for the target vehicle to reach the stop line at the current speed-the remaining green light time.

In one possible embodiment, the real-time dynamic traffic information includes real-time pedestrian traffic information, real-time non-motor traffic information, and real-time motor traffic information; determining the dynamic minimum green light duration of each phase of the intersection according to the real-time dynamic traffic information of the intersection, which specifically comprises the following steps:

Specifically, the real-time pedestrian traffic information includes pedestrian information (information such as position, number, speed, and the like) near the intersection (including the pedestrian crossing the street safety island); the real-time non-motor vehicle traffic information comprises information of non-motor vehicles on the road (information of position, speed, driving direction and the like), and the real-time motor vehicle traffic information comprises information of motor vehicles on the road (information of position and lanes where the vehicles are located, queuing length corresponding to each lane, traffic flow of each lane, vehicle type, driving speed and the like). According to the real-time pedestrian traffic information, the real-time non-motor vehicle traffic information and the real-time motor vehicle traffic information of the intersection which are dynamically acquired in real time, the minimum green light time of each phase dynamic of the intersection can be determined. In fact, referring to fig. 1 and fig. 5 in combination, fig. 5 is a flowchart illustrating a method for determining a minimum green light duration for each phase dynamic of an intersection according to an embodiment of the present invention. Firstly, point cloud data of the intersection can be obtained through a laser radar installed at the intersection, and information such as positions, speeds, types and course angles of pedestrians, non-motor vehicles and motor vehicles can be obtained through the steps of point cloud ROI extraction, point cloud clustering and target tracking in an edge calculation unit. The edge calculation unit can obtain original video data of the intersection through the camera, and information such as the type, the speed and the position of a detection target can be obtained by utilizing an artificial intelligent algorithm such as a deep learning YOLO detection algorithm. Then, the number n of vehicles passing through the stop line of the intersection corresponding to each lane within a preset time (e.g., 10 minutes) may be counted, so that a traffic flow of 6n (pcu/h) corresponding to each lane (corresponding to the preset time of 10 minutes) may be obtained according to a traffic flow calculation formula (the traffic flow is the number of passing vehicles/time). The vehicle type influences the calculation of the number n of vehicles, and different coefficients can be set according to the vehicle type, so that the number n of vehicles can be finally calculated. For example, the number of cars is a, corresponding to a coefficient a, the number of medium trucks is B, corresponding to B, and the number of large trucks is C, corresponding to C, where the number of vehicles n is a + B + C. For another example, the number of vehicles n is 1.0 × (the number of cars + the number of cars) +1.5 × (the number of buses + the number of medium-sized trucks) +2.0 the number of large-sized trucks. In addition, the number of pedestrians, the number of non-motor vehicles and vehicle data of each lane at each pedestrian intersection of the intersection need to be counted in real time; and calculating the distance from the vehicle farthest away from each lane to the lane stop line to obtain the queuing length of each lane.

Then, by using the obtained information, the roadside unit can calculate a first minimum green light time length required by the pedestrian to pass through each phase of the intersection, a second minimum green light time length required by the non-motor vehicle to pass through each phase of the intersection, and a third minimum green light time length required by the motor vehicle to pass through each phase of the intersection, and determine the maximum value of the first minimum green light time length, the second minimum green light time length, and the third minimum green light time length corresponding to each phase of the intersection as the final minimum green light time length corresponding to the phase.

For the first minimum green time period, since the real-time street crossing number of the pedestrians is known and the width L (m) of the intersection is fixed, assuming that the walking speed of the pedestrians is about 1.0m/s (the accurate walking speed of the pedestrians can be determined according to the actual real-time pedestrian traffic information or set as other empirical values), the shortest time L/1.0(s) required by the pedestrian intersection can be obtained. On the basis of the time, the shortest time required for the pedestrians to cross the street can be predicted according to the number of the pedestrians multiplied by the corresponding multiple (as shown in the following table 1), and therefore the minimum green light duration of the traffic light phase corresponding to the pedestrian crossing the street can be set.

TABLE 1

Number of people	Multiple of
		Less than 5 persons	1.0
5-15 people	1.5
		More than 15 people	2.0

The calculation method of the second minimum green light time length corresponding to the non-motor vehicles is similar to that of the first minimum green light time length of the pedestrians, wherein the speed value adopted by the non-motor vehicles can be set to be 5.5m/s (the accurate speed of the non-motor vehicles can be determined according to actual real-time traffic information of the non-motor vehicles, or other empirical values are set), the corresponding multiplying power relation table is the same as that in the table 1, and the number of people in the table 1 is the number of the non-motor vehicles.

In addition, the traffic flow and the queuing length of each lane can be used as input quantities of the following formulas, and the third minimum green time for the motor vehicle passing through the corresponding phase of each lane can be calculated.

T＝w1*T1+w2*T2

T1＝ts+n*3600/S

T2＝C*q/(S*Ds)

Wherein, T is the third minimum green time of the motor vehicle passing, w1 and w2 are weight coefficients, w1+ w2 is 1, for example, w1 can be 0.5, w2 can be 0.5, and the specific value can be adjusted according to the actual situation on site.

T1 is the minimum green time calculated according to the queuing length, ts is the vehicle starting time, and the value can be 0.3-0.5 s. n is the number of vehicles converted into the standard, and is L/5.5, wherein L is the queuing length corresponding to each lane and the unit is m. S is saturated flow, 1650pcu/h can be taken in a straight lane, 1500pcu/h can be taken in a left-turn lane, and 1500pcu/h can be taken in a right-turn lane.

T2 is the minimum green time calculated according to the traffic flow, C is the period of the signal lamp at the intersection, the unit is s, q is the traffic flow corresponding to each lane, and the unit is veh/h. Ds is a conversion coefficient, and the value can be 0.9.

In the embodiment of the invention, the signal control machine adjusts the phase of the traffic lights at the intersection according to the inquired vehicle priority strategy, so that the target vehicle can pass through the intersection without stopping, and the operating efficiency of the vehicle is effectively improved. Particularly, the vehicle priority passing control method in the embodiment of the application not only obtains passing vehicle information on a road, but also obtains passing information of pedestrians and non-motor vehicles at the intersection, realizes holographic perception of all traffic participant information at the intersection, and accordingly can achieve the purpose of target vehicle priority more accurately, and improves the passing efficiency at the intersection.

In one possible embodiment, referring to fig. 1 and 2, before sending the first query frame to the signal controller, the method further comprises:

and setting a frame notification signal controller to prepare for traffic light priority passing control and to issue the current traffic light phase of the intersection.

Specifically, after receiving the priority passing request of the target vehicle, the roadside unit sends a setting frame to the TSC108 to notify the TSC of preparing to control the priority traffic lights of the vehicle and prepare to issue the current traffic light phase of the intersection, so that the TSC of the signal controller makes relevant preparations in advance, and the efficiency of the priority passing of the vehicle is improved.

In one possible embodiment, the frame format of the data frame includes at least one of the following fields: the system comprises a starting domain, a type domain, a control domain, a length domain, a data domain, a check domain and an ending domain; the data frame is at least one of a first query frame, a second query frame, a first query response frame, a second query response frame and a setting frame. Further, in the data frame, the start field includes a first start field and a second start field, and the type field is disposed between the first start field and the second start field.

Specifically, the start domain includes a first start domain and a second start domain, both of which are 1 byte, and 2 bytes between the first start domain and the second start domain are a type domain, and the type domain is used for indicating a device type and a device address; the reliability of data transmission is increased by arranging two initial domains, and the problem that field information cannot be correctly analyzed due to the loss of a single initial domain is avoided.

The control field is 2 bytes after the second initial field and is used for representing the type of the current frame and the information ID; the length field is 2 bytes after the control field and is used for indicating the length of the data field so as to determine the position of the data field, namely the unit byte. Further, the length of the data field is variable, so that different data frames can carry data with different sizes.

In particular, the data field of the frame is set for carrying vehicle priority traffic scene information. The scene information may be specifically identified by at least 2 bits, such as 11, indicating a traffic priority scene.

The data field of the first query frame is used for bearing traffic light phase request information; and the data field of the first query response frame is used for bearing the traffic light phase of the current intersection.

The data field of the second query frame bears the priority traffic control information request information; and the data field of the second inquiry response frame is used for bearing priority traffic control information, wherein the vehicle priority strategy can be specifically marked by 2 bits, such as 00 represents that (first) a green light is prolonged, (01) a red light is cut off, and (10) phase maintenance.

The 1 byte behind the data field is a check field used for checking whether the information is correct or not. The data range (originally type field to data field) processed by the check field can be reduced in reliability moderately, for example, the type field part is not included any more, because the type field mainly indicates the device information of the RSU, and the TSC does not receive the data frames of other RSUs in the one-to-one deployment scenario, the data range can be reduced appropriately to reduce the check complexity and improve the efficiency. And 1 byte after the check field is an end field which is a frame end mark.

the road side unit broadcasts priority traffic control information to vehicles at the intersection, the vehicles at the intersection perform vehicle ID matching, and the vehicles with the matched vehicle IDs display the priority traffic control information on a vehicle-mounted display screen of the vehicles.

Specifically, the road side unit broadcasts priority traffic control information to vehicles at the whole intersection, each vehicle passing through the intersection matches the ID of the priority vehicle with the vehicle ID of the vehicle through the vehicle-mounted unit to determine whether the vehicle is the priority vehicle, and if the vehicle is the priority traffic vehicle, the vehicle-mounted unit of the vehicle displays the priority traffic control information such as the type of a vehicle priority policy and the priority traffic light duration on an in-vehicle display screen in a mode of pictures and the like through a wired or wireless communication mode. The preferential vehicle takes the bus as an example, when the vehicle is determined to be the preferential vehicle, through the display of the internal screen of the vehicle, on one hand, a driver of the bus can know the preferential result of the bus, the driver of the bus can make a decision in advance, the safety of the driver passing through the intersection is improved, and on the other hand, the experience of taking the bus by passengers is improved.

In addition, the vehicle-mounted unit of the priority vehicle can also control the voice playing equipment in the vehicle to perform voice broadcast (broadcast the priority traffic control information such as the vehicle priority policy and the priority traffic light time length). The driver of the vehicle can conveniently know the prior traffic control information without checking, and the driving safety is further improved.

In one possible embodiment, referring to fig. 1, the vehicle priority passage control method further includes:

and the road side unit sends the priority traffic control information to the traffic notice board and indicates the traffic notice board to display the priority traffic control information.

Specifically, the roadside unit communicates with traffic signboards arranged in all directions of the intersection, displays priority traffic control information such as a priority traffic direction and priority traffic time on the signboards, and informs social vehicles without priority traffic authority in advance, so that the traffic safety of the whole intersection is improved, the influence of the priority vehicles on other social vehicles is reduced, and the traffic efficiency of the whole intersection is improved.

Based on the above embodiment of the vehicle priority passage control method, the embodiment of the present invention further provides a vehicle priority passage control method applied to a signal controller of a vehicle priority passage control system, referring to fig. 6, where fig. 6 is a schematic flow chart of another vehicle priority passage control method provided in the embodiment of the present invention; the method comprises the following steps:

601, receiving a first query frame sent by a road side unit, wherein the first query frame is used for requesting a current traffic light phase of a crossing into which a target vehicle enters;

step 602, responding to the first query frame, and replying a first query response frame to the roadside unit, where the first query response frame carries the current traffic light phase, so that the roadside unit determines, according to the real-time dynamic traffic information of the intersection, the current traffic light phase, and the vehicle information corresponding to the target vehicle, priority traffic control information for allowing the target vehicle to preferentially pass through the intersection.

In one possible embodiment, the method further comprises:

receiving priority traffic control information sent by a road side unit;

In one possible embodiment, the method further comprises:

sending a second query frame to the road side unit to request the prior traffic control information;

receiving a second query response frame sent by the road side unit in response to the second query frame;

and analyzing the second inquiry response frame to obtain the priority traffic control information.

In one possible embodiment, the data frame includes a start field, a type field, a control field, a length field, a data field, a check field, and an end field, and the data frame includes at least one of a setup frame, a first query frame, a second query frame, a first query response frame, and a second query response frame.

The specific implementation process of the vehicle priority traffic control method in the embodiment of the present invention may refer to the description of the vehicle priority traffic control method embodiment, and the description of the corresponding beneficial effects is not repeated.

Based on the above various embodiments of the vehicle priority passing control method, an embodiment of the present invention further provides a vehicle priority passing control device, please refer to fig. 7, which is a schematic structural diagram of the vehicle priority passing control device provided in the embodiment of the present invention. As shown in fig. 7, the vehicle priority passage control apparatus 700 may include: the processor 701, the network interface 704, and the memory 705, and the vehicle priority passage control apparatus 700 may further include: a user interface 703, and at least one communication bus 702. Wherein a communication bus 702 is used to enable connective communication between these components. The user interface 703 may include a Display screen (Display) and a Keyboard (Keyboard), and the optional user interface 703 may also include a standard wired interface and a standard wireless interface. The network interface 704 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 705 may be a high-speed RAM memory or a non-volatile memory (e.g., at least one disk memory). The memory 705 may optionally be at least one memory device located remotely from the processor 701. As shown in fig. 7, the memory 705, which is a type of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and a device control application program.

In the vehicle priority passage control apparatus 700 shown in fig. 7, the network interface 704 may provide a network communication function; the user interface 703 is mainly used as an interface for providing input to the user; and the processor 701 may be configured to invoke the device control application stored in the memory 705 to implement the vehicle priority traffic control method according to any of the above-described method embodiments.

It should be understood that the vehicle priority passage control apparatus 700 described in the embodiment of the present invention may perform the method described above, and will not be described in detail herein. In addition, the beneficial effects of the same method are not described in detail.

Based on the above embodiments of various vehicle priority traffic control methods, the embodiment of the present invention further provides a road side unit of a vehicle priority traffic control system, where the vehicle priority traffic control system further includes a signal controller in communication connection with the road side unit, and an on-board unit installed on a target vehicle and in communication connection with the road side unit, and referring to fig. 8, fig. 8 is a schematic structural diagram of the road side unit provided in the embodiment of the present invention; the roadside unit includes:

a first receiving module 801, configured to receive a priority passing request sent by an on-board unit, where the priority passing request includes a vehicle ID of a target vehicle;

an obtaining module 802, configured to, in response to a priority passing request, obtain real-time dynamic traffic information of an intersection where a target vehicle enters;

a first sending module 803, configured to send a first query frame to the signal controller, so that the signal controller replies a first query response frame in response to the first query frame, where the first query response frame carries a current traffic light phase at the intersection;

the analyzing module 804 is configured to analyze the first query response frame to obtain a current traffic light phase;

the determining module 805 is configured to determine, according to the real-time dynamic traffic information of the intersection, the current traffic light phase, and the vehicle information corresponding to the vehicle ID, priority traffic control information for enabling the target vehicle to preferentially pass through the intersection.

It is to be noted that, for a specific implementation manner of the function of the rsu, reference may be made to the above description of the embodiment of the vehicle priority passing control method applied to the rsu, and details are not repeated here. Each unit or module in the roadside unit may be respectively or completely merged into one or several other units or modules to form, or some unit(s) or module(s) thereof may be further split into a plurality of functionally smaller units or modules to form, which may achieve the same operation without affecting the achievement of the technical effect of the embodiments of the present invention. The units or modules are divided based on logic functions, and in practical applications, the functions of one unit (or module) may also be implemented by a plurality of units (or modules), or the functions of a plurality of units (or modules) may be implemented by one unit (or module).

Based on the above embodiments of various vehicle priority traffic control methods, an embodiment of the present invention further provides a signal controller of a vehicle priority traffic control system, where the vehicle priority traffic control system further includes a road side unit in communication connection with the signal controller, and an on-board unit installed on a target vehicle and in communication connection with the road side unit, referring to fig. 9, fig. 9 is a schematic structural diagram of the signal controller provided in the embodiment of the present invention, and the signal controller includes:

a second receiving module 901, configured to receive a first query frame sent by a roadside unit, where the first query frame is used to request a current traffic light phase at a crossing where a target vehicle enters;

the second sending module 902 is configured to respond to the first query frame to reply to the roadside unit with a first query response frame, where the first query response frame carries a current traffic light phase, so that the roadside unit determines, according to real-time dynamic traffic information of the intersection, the current traffic light phase, and vehicle information corresponding to the target vehicle, priority traffic control information for enabling the target vehicle to preferentially pass through the intersection.

It should be noted that, for the specific implementation of the function of the signal controller, reference may be made to the above description of the embodiment of the vehicle priority traffic control method applied to the signal controller, and details are not repeated here. Each unit or module in the signal controller may be respectively or entirely combined into one or several other units or modules to form the signal controller, or some unit(s) or module(s) thereof may be further split into multiple functionally smaller units or modules to form the signal controller, which may implement the same operation without affecting the implementation of the technical effects of the embodiments of the present invention. The above units or modules are divided based on logic functions, and in practical applications, the functions of one unit (or module) may also be implemented by a plurality of units (or modules), or the functions of a plurality of units (or modules) may be implemented by one unit (or module).

Furthermore, it is to be noted here that: an embodiment of the present invention further provides a computer storage medium, where the computer storage medium stores a computer program executed by the roadside unit and the signal controller mentioned above, and the computer program includes program instructions, and when the processor executes the program instructions, the description of the vehicle priority passing control method mentioned above can be executed, and therefore, details will not be repeated here. In addition, the beneficial effects of the same method are not described in detail. For technical details not disclosed in the embodiments of the computer storage medium to which the present invention relates, reference is made to the description of the method embodiments of the present invention.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware related to instructions of a computer program, which can be stored in a computer-readable storage medium, and when executed, the processes of the embodiments of the methods described above can be included. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims

1. A vehicle priority traffic control method is applied to a road side unit of a vehicle priority traffic control system, the vehicle priority traffic control system further comprises a signal control machine connected with the road side unit in a communication mode, and an on-board unit installed on a target vehicle and connected with the road side unit in a communication mode, and the method comprises the following steps:

2. The method of claim 1, wherein the priority pass request further comprises vehicle information corresponding to the vehicle ID, the vehicle information comprising at least one of a speed, a location, a heading angle, a driving route, a number of passengers, and a vehicle type of the target vehicle.

3. The method of claim 1, wherein prior to determining the priority traffic control information, the method further comprises:

4. The method according to claim 2 or 3, wherein when the vehicle information includes a speed, a position, and a heading angle of the target vehicle, the determining, according to the real-time dynamic traffic information of the intersection, the current traffic light phase, and the vehicle information corresponding to the vehicle ID, priority traffic control information for allowing the target vehicle to preferentially pass through the intersection specifically includes:

5. The method of claim 4, wherein the real-time dynamic traffic information comprises real-time pedestrian traffic information, real-time non-automotive traffic information, and real-time automotive traffic information; the determining the dynamic minimum green light duration of each phase of the intersection according to the real-time dynamic traffic information of the intersection specifically comprises:

6. A method according to any one of claims 1 to 3, wherein prior to sending the first query frame to the signal controller, the method further comprises:

7. The method of claim 6, wherein the frame format of the data frame comprises at least one of: the system comprises a starting domain, a type domain, a control domain, a length domain, a data domain, a check domain and an ending domain; the data frame is at least one of the first query frame, the first query response frame and the setting frame.

8. The method of claim 7, wherein the start field comprises a first start field and a second start field, and wherein the type field is disposed between the first start field and the second start field in the data frame.

9. The method according to any one of claims 1 to 3, further comprising:

10. The method of any of claims 1 to 3, wherein prior to determining the priority traffic control information, the method further comprises:

11. A vehicle priority passing control method is characterized by being applied to a signal controller of a vehicle priority passing control system, the vehicle priority passing control system further comprises a road side unit in communication connection with the signal controller, and an on-board unit which is installed on a target vehicle and is in communication connection with the road side unit, and the method comprises the following steps:

responding the first query frame to reply a first query response frame to the road side unit, wherein the first query response frame carries the current traffic light phase, so that the road side unit determines priority traffic control information for enabling the target vehicle to pass through the intersection preferentially according to real-time dynamic traffic information of the intersection, the current traffic light phase and vehicle information corresponding to the target vehicle.

12. The method of claim 11, further comprising:

and receiving the setting frame sent by the road side unit to prepare for carrying out traffic light priority passing control and sending down the current traffic light phase of the intersection.

13. The method according to claim 11 or 12, characterized in that the method further comprises:

receiving the priority traffic control information sent by the road side unit;

14. A road side unit of a vehicle priority traffic control system, the vehicle priority traffic control system further comprising a signal controller communicatively connected with the road side unit, and an on-board unit mounted on a target vehicle and communicatively connected with the road side unit, the road side unit comprising:

and the determining module is used for determining the priority traffic control information which enables the target vehicle to pass through the intersection preferentially according to the real-time dynamic traffic information of the intersection, the current traffic light phase and the vehicle information corresponding to the vehicle ID.

15. The signal control machine of the vehicle priority traffic control system is characterized by further comprising a road side unit in communication connection with the signal control machine, and an on-board unit which is installed on a target vehicle and is in communication connection with the road side unit, wherein the signal control machine comprises:

16. A vehicle priority passing control system is characterized by comprising a road side unit, a signal control machine in communication connection with the road side unit, and an on-board unit which is installed on a target vehicle and is in communication connection with the road side unit, wherein:

the road side unit for performing the steps in the method of any of claims 1-10;

the signal controller for performing the steps of the method according to any of claims 11-13.

17. A priority traffic control apparatus for a vehicle, characterized by comprising: a processor and a memory;

the processor is connected with the memory, wherein the memory is used for storing program codes, and the processor is used for calling the program codes to execute the vehicle priority passing control method according to any one of claims 1-13.

18. A computer storage medium characterized in that the computer storage medium stores a computer program comprising program instructions that, when executed by a processor, perform the vehicle priority passage control method according to any one of claims 1 to 13.