Abstract
Vehicles with variable steering characteristics have long been studied and compared with those having typical fixed gear ratio steering, and the variable gear ratio properties are reported to have improved maneuverability and stability in high-speed lane changes and on slippery low-friction road surfaces. However, it is not clear how gear ratios should be set for individual vehicle characteristics. Therefore, the present study has investigated a variable steering gear system using body slip angle feedback for the purpose of improved maneuverability and stability in the critical cornering range and upwards, in excess of the critical limit, and into the countersteer range. The results of a driving simulator experiment show that the steering effect improves and maneuverability and stability increase in the critical cornering range and upwards, in excess of the critical limit, and into the countersteer range by applying linear-variable control to the steering ratio from a body slip angle of 5?. This result is seen both in double lane changes, such as in hazard avoidance, and in J-turns with long drifting. Moreover, it shows an improvement in drift controllability through prompt countersteering. Overall, the present system can enhance the driver’s hazard avoidance capability.
Highlights
Vehicles with variable steering characteristics have long been studied, and the effectiveness of variable gear ratio control in particular has been shown [1]-[4]
Nozaki ratio is varied according to the vehicle speed and steering wheel angle, and Variable Gear Ratio Steering (VGRS), where the gear ratio is varied according to the vehicle speed, steering angular velocity, as well as split friction roads
For VGR1 and No Control, the vehicle was unable to follow the course at the end of the single lane change around 150 m and exited the course
Summary
Vehicles with variable steering characteristics have long been studied, and the effectiveness of variable gear ratio control in particular has been shown [1]-[4]. Nozaki reports that when the rear wheels fall into the drift range, a vehicle is easier to control (even when unstable) through the use of variable steering gear control where a steering gear ratio of 7.5 9.0 is achieved [6]. It is not necessarily clear how gear ratios should be set for individual vehicle characteristics. The present study has investigated a variable steering gear system with body slip angle feedback for the purpose of improved maneuverability and stability in the critical cornering range and upwards, in excess of the critical limit, and into the countersteer range
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