Collision-prevention control method for vehicle
A control method and vehicle technology, applied in the direction of control devices, vehicle components, external condition input parameters, etc., can solve the problem of insufficient consideration of the limitations of ride comfort and road adhesion ability, the failure to exert the potential of braking and steering collision avoidance, and the actual driving Large differences in working conditions and other problems, to achieve the effect of improving the level of road traffic safety, improving the ability to avoid collisions, and having a wide range of applications
Inactive Publication Date: 2018-02-27
CHANGAN UNIV
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Problems solved by technology
However, the current collision avoidance control for intelligent vehicles is mostly through the coordinated control of the throttle opening and brake pressure to maintain the inter-vehicle distance and follow the vehicle speed, and insufficient consideration is given to the ride comfort and road adhesion during the braking process.
The few other collision avoidance control systems are based on the lane change collision avoidance trajectory, and the lateral controll
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[0062] The present invention is described in further detail below in conjunction with accompanying drawing:
[0063] A vehicle collision avoidance control system, comprising a steering / braking collision avoidance decision-making unit, a steering collision avoidance reference path planning unit, a lateral fuzzy PID controller, a longitudinal LQR desired acceleration controller and a vehicle inverse longitudinal dynamics model;
[0064] Such as Figure 1 to Figure 11 As shown, a vehicle collision avoidance control method includes the following steps:
[0065] Step 1. Obtain the information of the vehicle's own moving speed, vehicle's own acceleration, vehicle's own valve opening and vehicle's own braking pressure, obtain the speed and acceleration of the front vehicle, and obtain the longitudinal distance D between the vehicle itself and the front vehicle adj ;
[0066] Step 2, according to the motion state information of the vehicle itself and the vehicle in front, establish ...
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The invention discloses a collision-prevention control method for a vehicle. The speed of the vehicle itself, the accelerated speed of the vehicle itself, the speed of the front car, the accelerated speed of the front car and the information of the spacing between the vehicle itself and the front car are obtained through the environmental perception capacity of the vehicle, and a steering/brake collision-prevention action decision-making mechanism is constructed. If the current vehicle collision risk degree meets the expression shown in the description and the vertical spacing Dadj between thevehicle itself and the front car is not smaller than the minimum vertical spacing DM-Fd between the vehicle itself and the front car, steering collision prevention is conducted; if the current vehicle collision risk degree meets the expression shown in the description or the current road condition does not meet the steering collision prevention condition, vertical brake collision prevention control is conducted. Through the combination of the steering collision prevention and the brake collision prevention control, it is ensured that the brake collision prevention action or the steering collision prevention action which is highest in safety benefit is selected when the vehicle is in danger, the collision-prevention capacity of the intelligent vehicle is greatly improved, and the road traffic safety level is improved.
Description
technical field [0001] The invention belongs to the field of intelligent vehicle control, in particular to a vehicle collision avoidance control method. Background technique [0002] With the continuous increase of the number of vehicles in the world, the problem of road traffic safety is becoming increasingly serious. At the same time, the intelligence level of automobiles continues to improve, and more and more automobiles integrate advanced driver assistance (ADAS) functions, which effectively improve the active safety of vehicles. However, the current collision avoidance control for intelligent vehicles is mostly through the coordinated control of the throttle opening and brake pressure to maintain the inter-vehicle distance and follow the vehicle speed, and insufficient consideration is given to the ride comfort and road adhesion during braking. The few other collision avoidance control systems are based on the lane change collision avoidance trajectory, and the latera...
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Patent Timeline
Login to view more IPC IPC(8): B60W30/09B60W30/095B60W10/06B60W10/184B60W10/20
CPCB60W10/06B60W10/184B60W10/20B60W30/09B60W30/0953B60W2510/0614B60W2510/182B60W2520/10B60W2520/105B60W2554/801B60W2554/804B60W2710/0616B60W2710/182B60W2710/207
Inventor 蒋拯民白艳谢宁猛王曌刘通郭应时
Owner CHANGAN UNIV
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