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ISRR
2005
Springer

Field D*: An Interpolation-Based Path Planner and Replanner

14 years 6 months ago
Field D*: An Interpolation-Based Path Planner and Replanner
Abstract. We present an interpolation-based planning and replanning algorithm for generating smooth paths through non-uniform cost grids. Most grid-based path planners use discrete state transitions that artificially constrain an agent’s motion to a small set of possible headings (e.g. 0, π 4 , π 2 , etc). As a result, even the ‘optimal’ grid planners produce unnatural, suboptimal paths. Our approach uses linear interpolation during planning to calculate accurate path cost estimates for arbitrary positions within each grid cell and to produce paths with a continuous range of headings. Consequently, it is particularly well suited to planning smooth, least-cost trajectories for mobile robots. In this paper, we present a number of applications and results, a comparison to related algorithms, and several implementations on real robotic systems.
Dave Ferguson, Anthony Stentz
Added 28 Jun 2010
Updated 28 Jun 2010
Type Conference
Year 2005
Where ISRR
Authors Dave Ferguson, Anthony Stentz
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