This paper addresses the problem of generating uniform deterministic samples over the spheres and the three-dimensional rotation group, SO(3). The target applications include motion planning, optimization, and verification problems in robotics and in related areas, such as graphics, control theory and computational biology. We introduce an infinite sequence of samples that is shown to achieve: 1) low-dispersion, which aids in the development of resolution complete algorithms, 2) lattice structure, which allows easy neighbor identification that is comparable to what is obtained for a grid in R d, and 3) incremental quality, which is similar to that obtained by random sampling. The sequence is demonstrated in a samplingbased motion planning a...
AbstractWe review our recent progress on efficient algorithms for generating well-spaced samples of ...
Abstract. Nearest neighbor searching is a fundamental building block of most sampling-based motion p...
Many control problems are so complex that analytic techniques fail to solve them [2]. Furthermore, e...
This paper addresses the problem of generating uniform deterministic samples over the spheres and th...
Sampling-based path planners are giving very good results for problems with high degrees of freedom,...
We present deterministic sequences for use in sampling-based approaches to motion planning. They sim...
Probabilistic sampling-based algorithms, such as the probabilistic roadmap (PRM) and the rapidly-exp...
This paper presents a deterministic sequence with good and useful features for sampling-based motion...
What is a ‘uniform ’ rotation sample? How to randomly sample rotations For smaller sample sizes, we ...
There are two main philosophies for addressing the motion planning problem, in Formulation 4.1 from ...
We develop a novel sampling theorem on the sphere and corresponding fast algorithms by associating t...
In this paper, we discuss the field of sampling-based motion planning. In contrast to methods that c...
Automatically planning the motion of rigid bodies moving in 3D by translation and rotation in the pr...
Spherical Sampling by Archimedes ' Theorem In this paper we present a simple and efficient algo...
The sampling of certain solid angle is a fundamental operation in realistic image synthesis, where t...
AbstractWe review our recent progress on efficient algorithms for generating well-spaced samples of ...
Abstract. Nearest neighbor searching is a fundamental building block of most sampling-based motion p...
Many control problems are so complex that analytic techniques fail to solve them [2]. Furthermore, e...
This paper addresses the problem of generating uniform deterministic samples over the spheres and th...
Sampling-based path planners are giving very good results for problems with high degrees of freedom,...
We present deterministic sequences for use in sampling-based approaches to motion planning. They sim...
Probabilistic sampling-based algorithms, such as the probabilistic roadmap (PRM) and the rapidly-exp...
This paper presents a deterministic sequence with good and useful features for sampling-based motion...
What is a ‘uniform ’ rotation sample? How to randomly sample rotations For smaller sample sizes, we ...
There are two main philosophies for addressing the motion planning problem, in Formulation 4.1 from ...
We develop a novel sampling theorem on the sphere and corresponding fast algorithms by associating t...
In this paper, we discuss the field of sampling-based motion planning. In contrast to methods that c...
Automatically planning the motion of rigid bodies moving in 3D by translation and rotation in the pr...
Spherical Sampling by Archimedes ' Theorem In this paper we present a simple and efficient algo...
The sampling of certain solid angle is a fundamental operation in realistic image synthesis, where t...
AbstractWe review our recent progress on efficient algorithms for generating well-spaced samples of ...
Abstract. Nearest neighbor searching is a fundamental building block of most sampling-based motion p...
Many control problems are so complex that analytic techniques fail to solve them [2]. Furthermore, e...