Journal ArticleDOI
An asymptotically stable collision-avoidance system
Reads0
Chats0
TLDR
In this article, an asymptotically stable point-mass system governed by differential equations is proposed for point stabilization of a planar mobile car-like robot moving in the presence of a static obstacle.Abstract:
Artificial potential fields, which are widely used in robotics for path planning and collision avoidance, are normally beset by difficulties arising from the existence of local minima. This article proposes a solution that involves an asymptotically stable point-mass system governed by differential equations. The system represents a planar point robot moving from its initial position to the desired goal whilst avoiding a static obstacle. Because the system is asymptotically stable, its Lyapunov function, which produces artificial potential fields around the goal and the obstacle, has no local minima other than the goal configuration in the pathwise-connected proper subset of free space which contains the goal configuration. As an application, we consider the point stabilization of a planar mobile car-like robot moving in the presence of a static obstacle.read more
Citations
More filters
Proceedings ArticleDOI
Robot path planning in dynamic environments using a simulated annealing based approach
Hui Miao,Yu-Chu Tian +1 more
TL;DR: The contributions of the work include the employment of the simulated annealing algorithm for robot path planning in dynamic environments, and the development of a new algorithm planner for enhancement of the efficiency of the path planning algorithm.
Journal ArticleDOI
Motion planning and posture control of multiple n-link doubly nonholonomic manipulators
TL;DR: The approach to developing the controllers, which are novel decentralized nonlinear acceleration controllers, is based on a Lyapunov control scheme that is not only intuitively understandable but also allows simple but rigorous development of the controllers.
Journal ArticleDOI
Optimal motion planning of non-linear dynamic systems in the presence of obstacles and moving boundaries using SDRE: application on cable-suspended robot
TL;DR: In this paper, a closed-loop non-linear optimal controller is designed via State Dependent Riccati Equation (SDRE) and employed for a spatial six-cable robot.
Journal ArticleDOI
Mobile Robot Collision Avoidance in Human Environments
Lingqi Zeng,Gary M. Bone +1 more
TL;DR: Both active and critical regions are used to deal with the uncertainty of human motion and the proposed algorithm is compared with five state-of-the-art navigation algorithms for an environment with one human walking with an unpredictable change in direction.
Journal ArticleDOI
A new stabilizing solution for motion planning and control of multiple robots
TL;DR: A new scalable algorithm for motion planning and control of multiple point-mass robots and applications to a team of two planar (RP) manipulators working together in a common workspace are presented.
References
More filters
Journal ArticleDOI
Real-time obstacle avoidance for manipulators and mobile robots
TL;DR: This paper reformulated the manipulator con trol problem as direct control of manipulator motion in operational space—the space in which the task is originally described—rather than as control of the task's corresponding joint space motion obtained only after geometric and geometric transformation.
Journal ArticleDOI
Spatial Planning: A Configuration Space Approach
TL;DR: In this article, the authors propose an approach based on characterizing the position and orientation of an object as a single point in a configuration space, in which each coordinate represents a degree of freedom in the position or orientation of the object.
Journal ArticleDOI
Exact robot navigation using artificial potential functions
Elon Rimon,Daniel E. Koditschek +1 more
TL;DR: A methodology for exact robot motion planning and control that unifies the purely kinematic path planning problem with the lower level feedback controller design is presented.
Book
Spatial planning: a configuration space approach
TL;DR: Algorithms for computing constraints on the position of an object due to the presence of ther objects, which arises in applications that require choosing how to arrange or how to move objects without collisions are presented.
Journal ArticleDOI
Dynamic Motion Planning for Mobile Robots Using Potential Field Method
Shuzhi Sam Ge,Y. J. Cui +1 more
TL;DR: A new potential field method for motion planning of mobile robots in a dynamic environment where the target and the obstacles are moving is proposed and the problem of local minima is discussed.