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Disambiguation of "Müller, Roy"

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Grounded Running: An Overlooked Strategy for Robots.

, , , , and . AMS, page 79-87. Springer, (2012)

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Alexander Müller

Timo Müller University of Stuttgart

Niklas Müller University of Stuttgart

Theresa Müller University of Stuttgart

Johannes Müller University of Stuttgart

 

Other publications of authors with the same name

Die ermittler: a dialogue about displacement, refuge, and home., , , , , , , , , and 7 other author(s). MUM, page 527-533. ACM, (2017)Preparing the leg for ground contact in running: the contribution of feed-forward and visual feedback, , and . Journal of experimental biology, 218 (3): 451-457 (2015)Grounded Running: An Overlooked Strategy for Robots., , , , and . AMS, page 79-87. Springer, (2012)The Benefit of Combining Neuronal Feedback and Feed-Forward Control for Robustness in Step Down Perturbations of Simulated Human Walking Depends on the Muscle Function, , , , and . Frontiers in computational neuroscience, (2018)Using microservices for non-intrusive customization of multi-tenant SaaS., , , , , and . ESEC/SIGSOFT FSE, page 905-915. ACM, (2019)Evaluating anticipatory control strategies for their capability to cope with step-down perturbations in computer simulations of human walking, , , and . Scientific reports, 12 (1): 10075 (2022)Anticipatory compensation of step-down perturbation is influenced by muscle force decrease, , , and . Gait & posture, 100 (Supplement 1): 83-84 (2023)The Benefit of Combining Neuronal Feedback and Feed-Forward Control for Robustness in Step Down Perturbations of Simulated Human Walking Depends on the Muscle Function., , , , and . Front. Comput. Neurosci., (2018)Muscle Preactivation Control : Simulation of Ankle Joint Adjustments at Touchdown During Running on Uneven Ground, , and . Journal of applied biomechanics, 28 (6): 718-725 (2012)The benefit of combining neuronal feedback and feed-forward control for robustness in step down perturbations of simulated human walking depends on the muscle function, , , , and . Frontiers in computational neuroscience, (2018)