Autonomous vehicles are rapidly advancing with a variety of applications, such as area surveillance, environment mapping, and intelligent transportation. These applications require coverage and/or time-optimal motion planning, where the major challenges include uncertainties in the environment, motion constraints of vehicles, limited energy resources and potential failures. While dealing with these challenges in various capacities, this dissertation addresses three fundamental motion planning problems: (1) single-robot complete coverage in unknown environment, (2) multi-robot resilient and efficient coverage in unknown environment, and (3) time-optimal risk-aware motion planning for curvature-constrained vehicles. First, the ε* algorithm is...
This paper proposes the real-time implementation of an algorithm for collision-free motion planning ...
grantor: University of TorontoThis dissertation presents a novel approach to mobile robot ...
Abstract—This paper presents a novel motion planning ap-proach inspired by the Dynamic Programming (...
Autonomous vehicles are rapidly advancing with a variety of applications, such as area surveillance,...
This dissertation investigates mission scenarios for autonomous vehicles in which the objective is t...
Nowadays, the field of wheeled robotics is undergoing an impressive growth and development. Differen...
The efficacy and efficiency of mobile robots operating in real-world environments are challenged whe...
We study motion planning problems, finding trajectories that connect two configurations of a system,...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 2008.In...
Motion planning, or trajectory planning, commonly refers to a process of converting high-level task ...
Multi-robot systems have received increasing attention from both research community and engineering ...
Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Appli...
This paper proposes the real-time implementation of an algorithm for collision-free motion planning ...
Within the last decades, autonomous multirobot systems have been received an increasing interest due...
Complete coverage relies on a path planning algorithm that will move one or more robots, including t...
This paper proposes the real-time implementation of an algorithm for collision-free motion planning ...
grantor: University of TorontoThis dissertation presents a novel approach to mobile robot ...
Abstract—This paper presents a novel motion planning ap-proach inspired by the Dynamic Programming (...
Autonomous vehicles are rapidly advancing with a variety of applications, such as area surveillance,...
This dissertation investigates mission scenarios for autonomous vehicles in which the objective is t...
Nowadays, the field of wheeled robotics is undergoing an impressive growth and development. Differen...
The efficacy and efficiency of mobile robots operating in real-world environments are challenged whe...
We study motion planning problems, finding trajectories that connect two configurations of a system,...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 2008.In...
Motion planning, or trajectory planning, commonly refers to a process of converting high-level task ...
Multi-robot systems have received increasing attention from both research community and engineering ...
Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Appli...
This paper proposes the real-time implementation of an algorithm for collision-free motion planning ...
Within the last decades, autonomous multirobot systems have been received an increasing interest due...
Complete coverage relies on a path planning algorithm that will move one or more robots, including t...
This paper proposes the real-time implementation of an algorithm for collision-free motion planning ...
grantor: University of TorontoThis dissertation presents a novel approach to mobile robot ...
Abstract—This paper presents a novel motion planning ap-proach inspired by the Dynamic Programming (...