Litcius/Paper detail

A Learning-Based Model Predictive Trajectory Planning Controller for Automated Driving in Unstructured Dynamic Environments

Zhiyuan Li, Pan Zhao, Chunmao Jiang, Weixin Huang, Huawei Liang

2022IEEE Transactions on Vehicular Technology38 citationsDOI

Abstract

This paper presents a learning-based model predictive trajectory planning controller for automated driving in unstructured, dynamic environments with obstacle avoidance. We first address the problem of lacking prior knowledge in unstructured environments by introducing a risk map that maps the density and motion of obstacles and the road to an occupancy risk. Model predictive control is then used to integrate trajectory planning and tracking control into one framework to bridge the gap between planning and control. Meanwhile, we use Gaussian Process (GP) regression to learn the residual model uncertainty for improving the model accuracy. An objective function considering both risks within the feasible region and vehicle dynamics is carefully formulated to obtain collision-free and kinematically-feasible local trajectories. Field experiments are performed on real unstructured environments with our automated vehicle. Experimental results demonstrate the effectiveness of the proposed algorithm for successful obstacle avoidance in various complex unstructured scenarios.

Topics & Concepts

Obstacle avoidanceModel predictive controlTrajectoryGaussian processCollision avoidanceController (irrigation)Computer scienceVehicle dynamicsArtificial intelligenceMotion planningControl engineeringBridge (graph theory)Control theory (sociology)EngineeringMachine learningCollisionGaussianControl (management)Mobile robotRobotInternal medicinePhysicsMedicineQuantum mechanicsAgronomyBiologyAutomotive engineeringAstronomyComputer securityAutonomous Vehicle Technology and SafetyReal-time simulation and control systemsRobotic Path Planning Algorithms