Abstract
In an automated steering system of the self-driving vehicles, the steering wheel angle is measured by the absolute angular displacement sensors or relative angle sensors. However, these sensors either encompass global navigation satellite systems (GNSS)/gyroscope – Micro Electromechanical-Sensor (MEMS) based solutions or comprise of the complex gear-based mechanical structure which results in latency and additive bias in the accumulative steering angle assessment. To address these issues, we propose a novel steering angle assessment system based on enhanced gear mechanism along with the adapted rotation paradigm for the customized self-driving vehicles. Additionally, a digital signal processing system has been introduced to resolve the issues in the identification of absolute central and max-bounding steering wheels position in self-driving vehicles. In assistance with the proposed mechanism, an algorithm has also been proposed to optimize the computed steering angle to minimalize the effect of additive bias in the accuracy. The proposed mechanism has been installed in the customized self-driving testbed vehicle and rigor validation has been performed in the straight and curvy road scenarios. Finally, the comparison study has been carried out between the conventional relative sensor and the proposed mechanism to show the accuracy and effectiveness of the proposed mechanism in terms of error rate, stability, and deviation.
Highlights
Steering wheel angle assessment is one of the most critical aspects of the Electric Steering Control (ESC) system which plays an important role in lateral stability control and safety of Autonomous Vehicles (AVs)
The autonomous industrial logistic vehicle has been driven for 240 s on the straight track of 0.4 km with variable velocity as shown in Figure 3 to evaluate the performance of the proposed sensor and the conventional angle sensor
The reference angle of the road track has been manually measured in 8° intervals to verify the output steering angle of conventional sensor and proposed angle sensor mechanism
Summary
Steering wheel angle assessment is one of the most critical aspects of the Electric Steering Control (ESC) system which plays an important role in lateral stability control and safety of Autonomous Vehicles (AVs). The ESC system processes the received information and performs the control action . These sensors are considerably fast enough to retort the minimal rate of change in the lateral rotation/displacement in the steering wheel of the vehicles.[1] In the last couple of decades, the steering wheel angle estimation sensors have been classified into two categories: (i) absolute angular displacement sensor, and (ii) relative angle sensor.[2]. Certain absolute angle displacement sensors (ADSs) that is, Magnetic or electrical measure the rate of change in position between the designed range without any reference point. The Fiber Optical Displacement (FOD) based theoretical
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