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2005.05725
Cited By

Effective Viscous Damping Enables Morphological Computation in Legged
Locomotion

v1v2 (latest)

Effective Viscous Damping Enables Morphological Computation in Legged Locomotion

12 May 2020

Alexander Badri-Spröwitz

ArXiv (abs)PDF HTML

Papers citing "Effective Viscous Damping Enables Morphological Computation in Legged Locomotion"

5 / 5 papers shown

MIMo: A Multi-Modal Infant Model for Studying Cognitive Development

MIMo: A Multi-Modal Infant Model for Studying Cognitive Development

Dominik Mattern

Pierre Schumacher

Marcel C. Raabe

169

7

0

07 Dec 2023

Slack-based tunable damping leads to a trade-off between robustness and
efficiency in legged locomotion

Slack-based tunable damping leads to a trade-off between robustness and efficiency in legged locomotionScientific Reports (Sci Rep), 2022

Emre Cemal Gönen

Alexander Badri-Spröwitz

186

8

0

01 Dec 2022

Diaphragm Ankle Actuation for Efficient Series Elastic Legged Robot
Hopping

Diaphragm Ankle Actuation for Efficient Series Elastic Legged Robot HoppingIEEE/RJS International Conference on Intelligent RObots and Systems (IROS), 2022

Alexander Badri-Spröwitz

120

9

0

03 Mar 2022

Contact Information Flow and Design of Compliance

Contact Information Flow and Design of Compliance

Richard Hartisch

213

7

0

24 Oct 2021

Hybrid leg compliance enables robots to operate with sensorimotor delays
and low control update frequencies

Hybrid leg compliance enables robots to operate with sensorimotor delays and low control update frequenciesFrontiers in Robotics and AI (Front. Robot. AI), 2021

M. Shafiee-Ashtiani

A. A. Sarvestani

Alexander Badri-Spröwitz

140

24

0

28 Jan 2021

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