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An Adaptive Path Tracking Controller Based on Reinforcement Learning with Urban Driving Application | IEEE Conference Publication | IEEE Xplore

An Adaptive Path Tracking Controller Based on Reinforcement Learning with Urban Driving Application


Abstract:

Urban driving requires the autonomous vehicles to drive with smooth control and track the planned path accurately. However, most of the existing path-tracking controllers...Show More

Abstract:

Urban driving requires the autonomous vehicles to drive with smooth control and track the planned path accurately. However, most of the existing path-tracking controllers pay more attention to the tracking errors than the smoothness because of the difficulties to balance them. This paper proposes a learning-based method to achieve the trade-off between the smooth control and the tracking-error control. An Reinforcement Learning algorithm, which is called Proximal Policy Optimization, is used to train a neural model to tune the weights of a designed controller PP_PID (Pure-Pursuit_Proportional Integral Derivative). The successfully trained model will adaptively select the optimal weights for the Pure-Pursuit and PID to guarantee the control smoothness and accuracy. Finally, the proposed controller will be tested in two path tracking scenarios. The results show that the proposed controller can change the weights adaptively to maintain a balance in the tracking error and lateral acceleration under the 35km/h.
Date of Conference: 09-12 June 2019
Date Added to IEEE Xplore: 29 August 2019
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Conference Location: Paris, France

References

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