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Neuroevolution of Humanoids that Walk Further and Faster with Robust Gaits

Channon

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Abstract

Bipedal locomotion requires precise rhythm and balance. Here we demonstrate two fitness-function enhancements applied to OpenAI?s 3D Humanoid-v1 walking task using a replica of Salimans et al.?s evolution strategy (Salimans et al., 2017). The first enhancement reduces control cost, following a start-up period, and the second enhancement penalises poor balance. Individually, each enhancement results in improved gaits and doubles both median speed and median distance walked. Combining the two enhancements results in little further improvement in the absence of noise but is shown to produce gaits that are much more robust to noise in their actions, with median speed, distance and time two to five times those of the default and individual-enhancement gaits at an intermediate noise level.

Citation

Channon. (2019). Neuroevolution of Humanoids that Walk Further and Faster with Robust Gaits. Artificial Life, 543 - 550. https://doi.org/10.1162/isal_a_00219

Acceptance Date Jul 15, 2019
Publication Date Jul 15, 2019
Journal Artificial Life
Print ISSN 1064-5462
Publisher Massachusetts Institute of Technology Press
Pages 543 - 550
DOI https://doi.org/10.1162/isal_a_00219
Keywords Neuroevolution, Humanoids, Robust Gaits.
Publisher URL https://www.mitpressjournals.org/doi/abs/10.1162/isal_a_00219#authorsTabList

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