Sandro Mussa-Ivaldi, PhD
Professor, Physiology, PM&R and Biomedical Engineering, Northwestern University
My Lab
My Lab
Robotics Lab
The Robotics Lab's research is aimed at understanding the sensory-motor system through close interaction with artificial systems & how the brain executes motor behaviors.
view labAbout Me
Areas of interest and expertise include robotics, neurobiology of the sensory-motor system and computational neuroscience. Among Dr. Mussa-Ivaldi’s achievements are the first measurement of human arm multi-joint impedance, the development of a technique for investigating the mechanisms of motor learning through the application of deterministic force fields, the discovery of a family of integral generalized inverses for redundant kinematic chains, the discovery of functional modules within the spinal cord that generate a discrete family of force-fields, the development of a theoretical framework for the representation, generation and learning of limb movements and the development of the first neuro-robotic system in which a neural preparation in-vitro - the brainstem of a lamprey - controls the behavior of a mobile-robot through a closed-loop interaction. In recent years Dr. Mussa-Ivaldi’s team has been developing and testing a “body-machine interface” for people with tetraplegia following cervical spinal cord injury. The interface captures residual motion abilities and muscle activities to facilitate the use of devices such as powered wheelchairs and personal computer systems with the dual purpose of providing assistance and engaging the users in targeted therapeutic exercises.
Location
Shirley Ryan 小恩雅
355 East Erie
Chicago, IL 60611
Education & Training
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Education
1986 – 1988
PhD, Politecnico di Milano
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Fellowship
1987 – 1988
Postdoctoral Fellowship, Massachusetts Institute of Technology
Featured Research
Recent Publications
Grants
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Collaborative Machines Enhancing Therapies (COMETNational Institute on Disability, Independent Living, and Rehabilitation Research
, 2018 - 2019 -
Human and Machine Learning for Customized Control of Assistive RobotsNational Institute of Neurological Disorders and Stroke, 2017 - 2022
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"NSF/SBE-BSF:Integration of kinesthetic and tactileNational Science Foundation
, 2016 - 2019 -
Motor Learning in a Customized Body-Machine Interface for Persons with ParalysisNATIONAL INSTITUTE OF BIOMEDICAL IMAGING AND BIOENGINEERING
, 2012 - 2019