Litcius/Paper detail

A Hybrid Trajectory Planning Strategy for Intelligent Vehicles in On-Road Dynamic Scenarios

Mingqiang Wang, Lei Zhang, Zhiqiang Zhang, Zhenpo Wang

2022IEEE Transactions on Vehicular Technology38 citationsDOI

Abstract

Efficient trajectory planning for intelligent vehicles in dynamic environments is a non-trivial task due to the diversity and complexity of driving scenarios. It requires the planner to be capable of responding to the changes in driving scenarios in real-time. This paper proposes a hybrid trajectory planning framework by combining the sampling- and numerical optimization-based approaches to cope with the complex driving scenarios. First, a risk field model is introduced to assess the risks with the static and moving obstacles. Then, the sampling-based approach is used to generate collision-free trajectory candidates via the Path Velocity Decomposition method. Thus, the optimal behavior trajectory can be obtained by considering curve smoothness, collision risk, and travel time. The optimization-based method is adopted to optimize the behavior trajectory to guarantee safety, vehicle dynamics stability, and driving comfort using the Sequential Quadratic Programming within the spatio-temporal boundaries. Finally, the proposed framework is examined in typical dynamic driving scenarios through simulation, and the results verify its competency in generating high-quality trajectories in real-time.

Topics & Concepts

TrajectoryComputer scienceMotion planningVehicle dynamicsSmoothnessQuadratic programmingSampling (signal processing)Trajectory optimizationPath (computing)Collision detectionTask (project management)CollisionSimulationControl theory (sociology)Control engineeringMathematical optimizationEngineeringRobotArtificial intelligenceMathematicsAutomotive engineeringPhysicsControl (management)Filter (signal processing)Computer securityMathematical analysisSystems engineeringComputer visionProgramming languageAstronomyVehicle Dynamics and Control SystemsAutonomous Vehicle Technology and SafetyRobotic Path Planning Algorithms