Steffen Heinrich describes a motion planning system for automated vehicles. The planning method is universally applicable to on-road scenarios and does not depend on a high-level maneuver selection automation for driving strategy guidance. The author presents a planning framework using graphics processing units (GPUs) for task parallelization. A method is introduced that solely uses a small set of rules and heuristics to generate driving strategies. It was possible to show that GPUs serve as an excellent enabler for real-time applications of trajectory planning methods. Like humans, computer-controlled vehicles have to be fully aware of their surroundings. Therefore, a contribution that maximizes scene knowledge through smart vehicle positioning is evaluated. A post-processing method for stochastic trajectory validation supports the search for longer-term trajectories which take ego-motion uncertainty into account.
Contents
  • AFramework for Universal Driving Strategy Planning
  • Sampling-Based Planning in Phase Space
  • A Universal Approach for Driving Strategies
  • Modeling Ego Motion Uncertainty
Target Groups
  • Scientists and students in the field of robotics, computer science, mechanical engineering
  • Engineers in the field of vehicle automation, intelligent systems and robotics
About the Author
Steffen Heinrich has a strong background in robotics and artificial intelligence. Since 2009 he has been developing algorithms and software components for self-driving systems in research facilities and for automakers in Germany and the US.



Autorentext

Steffen Heinrich has a strong background in robotics and artificial intelligence. Since 2009 he has been developing algorithms and software components for self-driving systems in research facilities and for automakers in Germany and the US.



Inhalt

A Framework for Universal Driving Strategy Planning.- Sampling-Based Planning in Phase Space.- A Universal Approach for Driving Strategies.- Modeling Ego Motion Uncertainty.

Titel
Planning Universal On-Road Driving Strategies for Automated Vehicles
EAN
9783658219543
Format
E-Book (pdf)
Digitaler Kopierschutz
Wasserzeichen
Dateigrösse
4.2 MB
Anzahl Seiten
133