T
Thierry Pozzo
Researcher at Istituto Italiano di Tecnologia
Publications - 189
Citations - 7275
Thierry Pozzo is an academic researcher from Istituto Italiano di Tecnologia. The author has contributed to research in topics: Body movement & Kinematics. The author has an hindex of 47, co-authored 183 publications receiving 6545 citations. Previous affiliations of Thierry Pozzo include University of Burgundy & Centre national de la recherche scientifique.
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Head stabilization during various locomotor tasks in humans. I. Normal subjects.
TL;DR: The study emphasizes the importance of head stabilization as part of the postural control system and described as a basis for inertial guidance.
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Head stabilization during various locomotor tasks in humans. II : Patients with bilateral peripheral vestibular deficits
TL;DR: In this article, the authors examined how head position is controlled during natural locomotor tasks in both normal subjects (N) and patients with bilateral vestibular deficits (V) and found that the amplitude and velocity of head rotation decreased for N subjects; these parameters increased for V subjects, especially during R and H.
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Improvement and generalization of arm motor performance through motor imagery practice.
TL;DR: The idea that mental training facilitates motor learning and allows its partial transfer to nearby workspaces is put forward, suggesting that motor prediction, a common process during both actual and imagined movements, is a fundamental operation for both sensorimotor control and learning.
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Encoding of human action in Broca's area.
Patrik Fazio,Anna Cantagallo,Laila Craighero,Alessandro D'Ausilio,Alice C. Roy,Thierry Pozzo,Thierry Pozzo,F. Calzolari,Enrico Granieri,Luciano Fadiga,Luciano Fadiga +10 more
TL;DR: This study provides a demonstration that frontal aphasics, not affected by apraxia, are specifically impaired in their capability to correctly encode observed human actions.
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Evidence for composite cost functions in arm movement planning: an inverse optimal control approach.
TL;DR: The results thus support the cost combination hypothesis and demonstrate that the recorded movements were closely linked to the combination of two complementary functions related to mechanical energy expenditure and joint-level smoothness.