Adaptation of flipper-mud interactions enables effective terrestrial locomotion on muddy substrates

· 2023

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Failure Mechanisms and Risk Estimation for Legged Robot Locomotion on Granular Slopes

cs.RO · 2026-03-06 · conditional · novelty 7.0

Slope-induced speed loss in legged robots on granular media is driven by delayed anchoring and increased backward slip, enabling failure phase diagrams for quantitative risk estimation.

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Failure Mechanisms and Risk Estimation for Legged Robot Locomotion on Granular Slopes cs.RO · 2026-03-06 · conditional · none · ref 36
Slope-induced speed loss in legged robots on granular media is driven by delayed anchoring and increased backward slip, enabling failure phase diagrams for quantitative risk estimation.

Adaptation of flipper-mud interactions enables effective terrestrial locomotion on muddy substrates

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