Path planning by fractional differentiation

A.  Oustaloup; B.  Orsoni; P.  Melchior; H.  Linarès

doi:10.1017/S0263574702004319

Abstract

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In path planning design, potential fields can introduce force constraints to ensure curvature continuity of trajectories and thus facilitate path-tracking design. The parametric thrift of fractional potentials permits smooth variations of the potential in function of the distance to obstacles without requiring design of geometric charge distribution. In the approach we use, the fractional order of differentiation is the risk coefficient associated to obstacles. A convex danger map towards a target and a convex geodesic distance map are defined. Real-time computation can also lead to the shortest minimum danger trajectory, or to the least dangerous of minimum length trajectories.

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Path planning by fractional differentiation

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Path planning by fractional differentiation

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