Path Planning (PP) is one of the prerequisites in ensuring safe navigation and manoeuvrability control for driverless vehicles. Due to the dynamic nature of the real world, PP needs to address changing environments and how autonomous vehicles respond to them. This book explores PP in the context of road vehicles, robots, off-road scenarios, multi-robot motion, and unmanned aerial vehicles (UAVs )
Trajectory planning is an important component of autonomous driving. It takes the result of route-le...
Autonomous vehicles have the potential to drastically improve the safety, efficiency and cost of tra...
International audienceThis paper presents the design and simulation results of a vehicle path planni...
Driving a road vehicle is a very complex task in terms of controlling it, substituting a human drive...
Autonomous vehicles have been at the forefront of academic and industrial research in recent decades...
Unmanned aerial vehicles (UAVs) have demonstrated their effectiveness in performing diverse missions...
AbstractCurrently autonomous or self-driving vehicles are at the heart of academia and industry rese...
Providing mobile robots with autonomous capabilities is advantageous. It allows one to dispense with...
We describe a practical path-planning algorithm that gener-ates smooth paths for an autonomous vehic...
Robots are currently replacing humans in different tasks in various sectors. Among the vital feature...
Safe and smooth mobile robot navigation through cluttered environment from the initial position to g...
Recent years have seen a dramatic rise in the popularity of autonomous mobile robots (AMRs) due to t...
Path planning algorithms are used by mobile robots, unmanned aerial vehicles, and autonomous cars in...
In modern society cars are one of the most important means of transportation. Unfortunately, many pe...
International audienceIn recent years, the role of robots in science, technology, and research, has ...
Trajectory planning is an important component of autonomous driving. It takes the result of route-le...
Autonomous vehicles have the potential to drastically improve the safety, efficiency and cost of tra...
International audienceThis paper presents the design and simulation results of a vehicle path planni...
Driving a road vehicle is a very complex task in terms of controlling it, substituting a human drive...
Autonomous vehicles have been at the forefront of academic and industrial research in recent decades...
Unmanned aerial vehicles (UAVs) have demonstrated their effectiveness in performing diverse missions...
AbstractCurrently autonomous or self-driving vehicles are at the heart of academia and industry rese...
Providing mobile robots with autonomous capabilities is advantageous. It allows one to dispense with...
We describe a practical path-planning algorithm that gener-ates smooth paths for an autonomous vehic...
Robots are currently replacing humans in different tasks in various sectors. Among the vital feature...
Safe and smooth mobile robot navigation through cluttered environment from the initial position to g...
Recent years have seen a dramatic rise in the popularity of autonomous mobile robots (AMRs) due to t...
Path planning algorithms are used by mobile robots, unmanned aerial vehicles, and autonomous cars in...
In modern society cars are one of the most important means of transportation. Unfortunately, many pe...
International audienceIn recent years, the role of robots in science, technology, and research, has ...
Trajectory planning is an important component of autonomous driving. It takes the result of route-le...
Autonomous vehicles have the potential to drastically improve the safety, efficiency and cost of tra...
International audienceThis paper presents the design and simulation results of a vehicle path planni...