Section 1 Action perception coupling 1. The Perception-Action Coupling in Collective Dynamics 2. The equilibrium-point hypothesis: A major framework for the understanding of action and perception 3. Can movement patterns reveal the status of the musculoskeletal system? A complex approach to injury and recovery
Section 2 Coordination 4. Synergic control of movement: From single muscles to the whole body 5. Locomotor Coordination, Visual Perception and Head Stability 6. High-fidelity interfacing for bionic rehabilitation
Section 3 Translation of motor learning principles and rules of interaction 7. Computational joint action: from joint coordination to artificial partners 8. Exploring to learn synergies and its applications in injuries affecting the upper limb 9. Translating movement analysis knowledge in rehabilitative tools
Section 4 Goal-oriented action 10. Toward a neural theory of goal-directed reaching Movements 11. Translation of principles of motor control to improve sensorimotor outcomes following brain injury 12. Goal-Oriented Action: New Perspectives with Special Emphasis on Neurorehabilitation