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We consider the problem P _curve of minimizing (int_{0}^{ell} sqrt{eta^2 +|kappa(s)|^2}{ m d}s ) for a planar curve having fixed initial and final positions and directions. Here κ is the curvature of the curve with free total length ℓ. This problem comes from a 2D model of geometry of vision due to Petitot, Citti and Sarti. Here we will provide a general theory on cuspless sub-Riemannian geodesics within a sub-Riemannian manifold in SE(d), with d ≥ 2, where we solve for their momentum in the general d-dimensional case. We will explicitly solve the curve optimization problem P _curve in 2D (i.e. d = 2) with a corresponding cuspless sub-Riemannian geodesic lifted problem defined on a sub-Riemannian manifold within SE(2). We also derive the solutions of P _curve in 3D (i.e. d = 3) with a corresponding cuspless sub-Riemannian geodesic problem defined on a sub-Riemannian manifold within SE(3). Besides exact formulas for cuspless sub-Riemannian geodesics, we derive their geometric properties, and we provide a full analysis of the range of admissible end-conditions. Furthermore, we apply this analysis to the modeling of association fields in neurophysiology.

DOI: 10.1007/978-3-642-34444-2_5

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