Fast Motions in Biomechanics and Robotics : Optimization and Feedback Control / edited by Moritz Diehl, Katja Mombaur.

Springer eBooks

Re-injecting the Structure in NMPC Schemes Application to the Constrained Stabilization of a Snakeboard -- Recent Advances on the Algorithmic Optimization of Robot Motion -- A Spring Assisted One Degree of Freedom Climbing Model -- Fast Direct Multiple Shooting Algorithms for Optimal Robot Control -- Stability Analysis of Bipedal Walking with Control or Monitoring of the Center of Pressure -- Multi-Locomotion Control of Biped Locomotion and Brachiation Robot -- On the Determination of the Basin of Attraction for Stationary and Periodic Movements -- Task-Level Control of the Lateral Leg Spring Model of Cockroach Locomotion -- Investigating the Use of Iterative Learning Control and Repetitive Control to Implement Periodic Gaits -- Actuation System and Control Concept for a Running Biped -- Dynamical Synthesis of a Walking Cyclic Gait for a Biped with Point Feet -- Performing Open-Loop Stable Flip-Flops — An Example for Stability Optimization and Robustness Analysis of Fast Periodic Motions -- Achieving Bipedal Running with RABBIT: Six Steps Toward Infinity -- Velocity-Based Stability Margins for Fast Bipedal Walking -- Nonlinear Model Predictive Control and Sum of Squares Techniques -- Comparison of Two Measures of Dynamic Stability During Treadmill Walking -- Simple Feedback Control of Cockroach Running -- Running and Walking with Compliant Legs -- Self-stability in Biological Systems — Studies based on Biomechanical Models -- Holonomy and Nonholonomy in the Dynamics of Articulated Motion -- Dynamic Stability of a Simple Biped Walking System with Swing Leg Retraction.

This volume contains a selection of papers presented at the First Ruperto-Carola-Symposium \Fast Motions in Biomechanics and Robotics - Optimization & Feedback Control", held at the International Science Forum Heidelberg (IWH), on September 7 - 9, 2005. The aim of this symposium was to provide a forum for an interdisciplinary community of researchers from robotics, biomechanics, control engineering and applied mathematics to enhance the understanding of the control of fast motions in nature and engineering.

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