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Jean-Jacques Slotine, Ph.D.
Professor of Mechanical Engineering and Information Sciences
Department of Mechanical Engineering
Building: 3-338
Lab: Slotine Lab
Email: jjs@mit.edu
Professor of Mechanical Engineering and Information Sciences
Department of Mechanical Engineering
Building: 3-338
Lab: Slotine Lab
Email: jjs@mit.edu
Adaptation and Learning in Robots; Principles of Biological Control
Professor Slotine is the Director of the Nonlinear Systems Laboratory which studies general mathematical principles of nonlinear system stability, adaptation, and learning, and how they apply to robots and to models of biological control. The lab is particularly interested in how stability and performance constraints shape system architecture, representation, and algorithms in robots, and in whether similar constraints may in some cases lead to similar mechanisms in biological systems. Tools from nonlinear control, such as sliding variables, wave variables, and contraction theory also suggest a number of simple models of physiological motor control, which may help understand the specific roles of hierarchies, motor primitives, and nerve transmission delays.
Current projects
include:
1. Fast motion-vision coordination in robots; robotic catching of free-flying
objects
2. Models of the cerebellum and stability of biological feedback loops under
nerve transmission delays
3. Adaptive multiresolution approximation networks for real-time control and
prediction
4. Stable control using motion primitives; performance of combinations of
local and centralized control mechanisms
5. Entrainment models in mechanical and biological systems
6. Nonlinear observer design techniques for real-time brain imaging
Pham, Q.C., and Slotine, J.J.E., "Stable Concurrent Synchronization in Dynamic System Networks," Neural Networks, 19(6), 2006.
Wang, W., and Slotine, J.J.E., "A Theoretical Study of Different Leader Roles in Networks," I.E.E.E. Transactions on Automatic Control, 51(7), 2006
Wang, W., and Slotine, J.J.E. 2004. On Partial Contraction Analysis for Coupled Nonlinear Oscillators. Biological Cybernetics: 91(6).
Hahnloser, R.H., Seung, H.S., and Slotine, J.J.E., Permitted and Forbidden Sets in Symmetric Threshold-Linear Networks. Neural Computation: 15, 2003.
Slotine, J.J.E. , Modular Stability Tools for Distributed Computation and Control. Int. J. Adaptive Control and Signal Processing: 17(6), 2003.
Slotine, J.J.E., and Lohmiller, W., "Modularity, Evolution, and the Binding Problem: A View from Stability Theory," Neural Networks, 14(2), 2001
Slotine J.J.E., Li, W., Applied nonlinear control. Englewood Cliffs, NJ: Prentice-Hall, 1991.
