Vehicle transverse stability control method based on heuristic algorithm

A lateral stability and heuristic algorithm technology, applied in the field of vehicle stability control, can solve the problem of not considering the uncertainty factors of vehicle parameters and not guaranteeing stability.

Active Publication Date: 2020-04-24
GUANGDONG UNIV OF TECH
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[0003] In the prior art, Chinese patent CN107215329A discloses an ATSM-based distributed drive electric vehicle lateral stability control method, which is also a control method for vehicle lateral dynamic stability, and the method used is a second-order sliding mode variable structure algorithm The spiral sliding mode control algorithm in , however, does not take into account the uncertainty of vehicle parameters, so the designed controller cannot guarantee stability when the vehicle speed changes greatly

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  • Vehicle transverse stability control method based on heuristic algorithm
  • Vehicle transverse stability control method based on heuristic algorithm
  • Vehicle transverse stability control method based on heuristic algorithm

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[0080] The present invention will be further described in detail below in conjunction with the embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

[0081] During the driving process of the car, in order to ensure safety and comfort, it is necessary to control the side slip angle and yaw rate of the car within a certain range. When the car is running at high speed, it is required to have a fast response, good stability, and high safety. When the car is running at a low speed, it is required to maintain the lateral stability while improving the mobility of the electric car. Therefore, It is required that the response value of the side slip angle of the car's center of mass should be as close to zero as possible. The yaw rate refers to the deflection of the car around the vertical axis, and the magnitude of the deflection represents the stability of the car. If the yaw angular velocity reaches a threshold, it means th...

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Abstract

The invention discloses a vehicle transverse stability control method based on a heuristic algorithm. The method comprises the following steps: parameters of a vehicle are collected, wherein the parameters needing to be collected comprise intrinsic parameters and real-time parameters, and the intrinsic parameters comprise the total mass m of the vehicle, the rotational inertia Iz, the distances lfand lr from a front axle and a rear axle to the gravity center of the vehicle, and the cornering stiffnesses Cf and Cr of a front wheel and a rear wheel, and the parameters are inherent to the vehicle and can be collected and stored in advance. The heuristic algorithm is adopted to solve the output feedback controller, so that complex iteration in a traditional solving method is avoided; the longitudinal speed of the vehicle and the cornering stiffness of the tire are considered as uncertain parameters; the controller designed by the invention is better in robustness, can calculate an appropriate yawing moment, controls the side slip angle and the yawing angular velocity to be within an appropriate range, improves the maneuverability of an vehicle, improves the transverse stability of thevehicle, and reduces the possibility of dangerous situations in the operation process of the vehicle.

Description

technical field [0001] The invention relates to the technical field of vehicle stability control, in particular to a vehicle lateral stability control method based on a heuristic algorithm. Background technique [0002] With the continuous improvement of people's living standards, China's car ownership has risen rapidly, and with the increase in the number of cars, traffic safety has become a social problem. China is one of the countries with the highest rate of traffic accidents in the world, which has aroused people's great attention to the safety performance of automobiles. Automobile safety protection can be divided into two aspects: passive safety and active safety according to the difference in its action time: passive safety protection is equipped with airbags, high-strength body and other protective measures, and achieves the protective effect by reducing the impact damage to passengers in the event of an accident Active safety technology includes chassis dynamics c...

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Application Information

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IPC IPC(8): B60W30/02B60W40/10B60W40/12
CPCB60W30/02B60W40/10B60W40/12
Inventor 李攀硕李鹏旭鲁仁全李鸿一
Owner GUANGDONG UNIV OF TECH
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