Semi-autonomous brain-machine interface that uses an intelligent control scheme to aid users in neutrally controlling a robotic limb.
Learn Moreforce impulse to the hand at the moment of ball-paddle collision categorically improves performance over visual feedback alone, not by regulating the rate of convergence to steady state, but rather by reducing cycle-to-cycle variability
Learn MoreTheoretical and computational approach for characterizing and analyzing complexity in nonlinear interaction networks with Markovian dynamics.
Learn MoreValidating mathematical models of the yeast sterol regulatory pathway.
Learn MoreComputational models that describe two different stages of cell division: mitotic spindle formation and cytokinesis.
Learn MoreUnderstanding how cells sense and interpret forces, and how this mechanosensation influences various physiological processes.
Learn MoreMathematical/computational models that help to understand how cells achieve chemotaxis effectively.
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