In this series of papers, we present a motion planning framework for planning comfortable and customizable motion of nonholonomic mobile robots such as intelligent wheelchairs and autonomous cars. In this first one we present the mathematical foundation of our framework. The motion of a mobile robot that transports a human should be comfortable and customiz-able. We identify several properties that a trajectory must have for comfort. We model motion discomfort as a weighted cost functional and define comfortable motion planning as a nonlinear constrained optimization problem of computing trajectories that minimize this discomfort given the appropriate boundary conditions and constraints. The optimization problem is infinite-dimensional and ...
This paper aims to discuss the requirements of safe and smooth trajectory planning of transporter mo...
This MSc. thesis explores the design and implementation of a motion planner for non-holonomic autono...
This paper provides a new approach to the dynamic motion planning problems of mobile robots in uncer...
In this series of papers, we present a motion planning framework for planning comfortable and custom...
textAssistive mobile robots, such as intelligent wheelchairs, that can navigate autonomously in resp...
Optimization of high-level autonomous tasks requires solving the optimal motion planning problem for...
In our recent work [5], by explicitly considering kinematic model of the robot, the family of feasib...
Abstract—In this paper, we present a suboptimal and an-alytical solution to the trajectory generatio...
This paper describes the motion planning problems of mobile robots in uncertain dynamic environments...
In this paper, the problem of determining an optimal collision-free path is studied for a mobile rob...
The paper addresses a velocity planning problem for autonomous vehicles. Appropriate bounds on veloc...
The motion of nonholonomic mobile manipulators (NMMs) is inherently constrained by joint limits, joi...
A planning methodology for nonholonomic mobile manipulators that employs smooth and continuous funct...
This paper considers the problem of motion planning for a car-like robot (i.e., a mobile robot with ...
Most mobile robots use steering mechanisms to guide their motion. Such mechanisms have stops that co...
This paper aims to discuss the requirements of safe and smooth trajectory planning of transporter mo...
This MSc. thesis explores the design and implementation of a motion planner for non-holonomic autono...
This paper provides a new approach to the dynamic motion planning problems of mobile robots in uncer...
In this series of papers, we present a motion planning framework for planning comfortable and custom...
textAssistive mobile robots, such as intelligent wheelchairs, that can navigate autonomously in resp...
Optimization of high-level autonomous tasks requires solving the optimal motion planning problem for...
In our recent work [5], by explicitly considering kinematic model of the robot, the family of feasib...
Abstract—In this paper, we present a suboptimal and an-alytical solution to the trajectory generatio...
This paper describes the motion planning problems of mobile robots in uncertain dynamic environments...
In this paper, the problem of determining an optimal collision-free path is studied for a mobile rob...
The paper addresses a velocity planning problem for autonomous vehicles. Appropriate bounds on veloc...
The motion of nonholonomic mobile manipulators (NMMs) is inherently constrained by joint limits, joi...
A planning methodology for nonholonomic mobile manipulators that employs smooth and continuous funct...
This paper considers the problem of motion planning for a car-like robot (i.e., a mobile robot with ...
Most mobile robots use steering mechanisms to guide their motion. Such mechanisms have stops that co...
This paper aims to discuss the requirements of safe and smooth trajectory planning of transporter mo...
This MSc. thesis explores the design and implementation of a motion planner for non-holonomic autono...
This paper provides a new approach to the dynamic motion planning problems of mobile robots in uncer...