Walking Control Based on Step Timing Adaptation
April 05, 2017 Β· Declared Dead Β· π IEEE Transactions on robotics
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Authors
Majid Khadiv, Alexander Herzog, S. Ali A. Moosavian, Ludovic Righetti
arXiv ID
1704.01271
Category
cs.RO: Robotics
Citations
89
Venue
IEEE Transactions on robotics
Last Checked
4 months ago
Abstract
Step adjustment can improve the gait robustness of biped robots, however the adaptation of step timing is often neglected as it gives rise to non-convex problems when optimized over several footsteps. In this paper, we argue that it is not necessary to optimize walking over several steps to ensure gait viability and show that it is sufficient to merely select the next step timing and location. Using this insight, we propose a novel walking pattern generator that optimally selects step location and timing at every control cycle. Our approach is computationally simple compared to standard approaches in the literature, yet guarantees that any viable state will remain viable in the future. We propose a swing foot adaptation strategy and integrate the pattern generator with an inverse dynamics controller that does not explicitly control the center of mass nor the foot center of pressure. This is particularly useful for biped robots with limited control authority over their foot center of pressure, such as robots with point feet or passive ankles. Extensive simulations on a humanoid robot with passive ankles demonstrate the capabilities of the approach in various walking situations, including external pushes and foot slippage, and emphasize the importance of step timing adaptation to stabilize walking.
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