Mindy F. Levin,
Maurizio Petrarca,
Daniele Piscitelli,
Susanna Summa
e.a.
Elsevier Science
e druk, 2023
9780443239878
Progress in Motor Control
From Neuroscience to Patient Outcomes
Specificaties
Paperback, blz.
|
Engels
Elsevier Science |
2023
ISBN13: 9780443239878
Rubricering
Levertijd ongeveer 9 werkdagen
Gratis verzonden
Samenvatting
Progress in Motor Control: From Neuroscience to Patient Outcomes updates the state-of-the-art of knowledge among scientists on basic and applied research on control of movements of biological systems through a clinical perspective. Motor control is a scientific area characterized by multidisciplinary approaches. This book promotes the application of this area into clinical practice. Chapters focus on topics in the field of motor control, including neural control of goal-oriented action, theories on rules of interaction during motor learning, and action coordination up to human and machine interaction.
Edited by experts in the field, this book translates current theoretical outcomes into neuroscience and therapeutic solutions.
Specificaties
Inhoudsopgave
<p>Section A – Action perception coupling<br>1. The equilibrium-point hypothesis: A major framework for the understanding of action and perception<br>Anatol G. Feldman<br>2. Synergic control of movement: From single muscles to the whole body<br>Mark Latash<br>3. Can nonlinear analysis of movement patterns reveal the status of the musculoskeletal system?<br>Sergio T. Fonseca, Thales R. Souza, Mariana R.C. Aquino, Camila G.M. Castor, Renatha Carvalho, Priscila A. Arau´ jo, Thiago R.T. Santos, Liria A. Okai-Nobrega, Renan A. Resende, and Juliana M. Ocarino<br>4. Toward a neural theory of goal-directed reaching movements<br>Gregor Schöner, Lukas Bildheim, and Lei Zhang<br>Section B – Coordination<br>5. The Perception-Action Coupling in Collective Dynamics<br>William H. Warren<br>6. Locomotor Coordination, Visual Perception and Head Stability<br>Richard Van Emmerik, C. Dane Napoli, Samuel R. Zeff, and Joseph Hamill<br>7. Computational joint action: From emergent coordination to artificial partners<br>Cecilia De Vicariis, Laura Bandini, Vinil T. Chackochan, and Vittorio Sanguineti<br>Section C – Translation of motor learning principles and rules of interaction<br>8. High-fidelity interfacing for bionic rehabilitation<br>Ivan Vujaklija<br>9. Exploring to learn synergies and its applications in injuries affecting the upper limb<br>Raoul M. Bongers<br>10. Translating movement analysis knowledge in rehabilitative tools<br>Maurizio Petrarca<br>Section D – Goal-oriented action<br>11. Translation of principles of motor control to improve sensorimotor outcomes following brain injury<br>Mindy F. Levin<br>12. Goal-Oriented Action: New Perspectives with Special Emphasis on Neurorehabilitation<br>Carolee J. Winstein<br> </p>