NAS: N-step computation of All Solutions to the footstep planning problem - Archive ouverte HAL
Communication Dans Un Congrès Année : 2024

NAS: N-step computation of All Solutions to the footstep planning problem

Résumé

How many ways are there to climb a staircase in a given number of steps? Infinitely many, if we focus on the continuous aspect of the problem. A finite, possibly large number if we consider the discrete aspect, i.e. on which surface which effectors are going to step and in what order. We introduce NAS, an algorithm that considers both aspects simultaneously and computes all the possible solutions to such a contact planning problem, under standard assumptions. To our knowledge NAS is the first algorithm to produce a globally optimal policy, efficiently queried in real time for planning the next footsteps of a humanoid robot.

Our empirical results (in simulation and on the Talos platform) demonstrate that, despite the theoretical exponential complexity, optimisations reduce the practical complexity of NAS to a manageable bilinear form, maintaining completeness guarantees and enabling efficient GPU parallelisation. NAS is demonstrated in a variety of scenarios for the Talos robot, both in simulation and on the hardware platform. Future work will focus on further reducing computation times and extending the algorithm's applicability beyond gaited locomotion. Our companion video is available at https://youtu.

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hal-04730135 , version 1 (10-10-2024)

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Jiayi Wang, Saeid Samadi, Hefan Wang, Pierre Fernbach, Olivier Stasse, et al.. NAS: N-step computation of All Solutions to the footstep planning problem. International Conference on Humanoid Robotics 2024, Nov 2024, Nancy, France. ⟨hal-04730135⟩
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