Hybrid Energy-Efficient Local Path Planning for Autonomous Vehicles in Dynamic Environments
Résumé
Efficient trajectory planning plays a crucial role
in the development of autonomous vehicles, ensuring safe and
optimized navigation in dynamic environments. This paper
proposes a novel energy-efficient hybrid trajectory planning
by integrating a sampling-based method with an optimizationbased path refining method. It uses the strength of the samplingbased methods to reduce the solution space and generate
a reactive trajectory in a dynamic environment. Following
path selection, a septic path is generated and utilized as
a reference for an energy-efficient path-refining optimization
problem, producing a jerk-controlled trajectory with enhanced
computational efficiency. The simulations were conducted in
a joint-simulation environment using Simulink/Matlab and
the Scaner Studio vehicle dynamics and driving environment
simulator. The findings demonstrate the effectiveness of our
approach in achieving significant energy savings while adeptly
addressing dynamically changing environments.
Domaines
Sciences de l'ingénieur [physics]Origine | Fichiers produits par l'(les) auteur(s) |
---|