Mitsuhide Kuroda scite author profile

Re-planning of gait trajectory is a crucial ability to compensate for external disturbances. To date, a large number of methods for re-planning footsteps and timing have been proposed. However, robots with the ability to change gait from walking to running or from walking to hopping were never proposed. In this paper, we propose a method for re-planning not only for footsteps and timing but also for the types of gait which consists of walking, running and hopping. The re-planning method of gait type consists of parallel computing and a ranking system with a novel cost function. To validate the method, we conducted push recovery experiments which were pushing in the forward direction when walking on the spot and pushing in the lateral direction when walking in the forward direction. Results of experiments showed that the proposed algorithm effectively compensated for external disturbances by making a gait transition.

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Mitsuhide Kuroda

Development of experimental legged robot for inspection and disaster response in plants

Robust vertical ladder climbing and transitioning between ladder and catwalk for humanoid robots

The Experimental Humanoid Robot E2-DR: A Design for Inspection and Disaster Response in Industrial Environments

Real-time collision detection based on one class SVM for safe movement of humanoid robot

Push Recovery Strategy of Dynamic Gait Transition between Walking, Running and Hopping

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