Projects

• HARMONIE: A Hybrid Augmented Reality Multimodal Operation Neural Integration Environment

  Semi-autonomous brain-machine interface that uses an intelligent control scheme to aid users in neutrally controlling a robotic limb.

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• Haptic feedback enhances rhythmic motor control by reducing variability, not improving convergence rate

  force 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

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• Understanding complexity in Markovian Interaction Networks

  Theoretical and computational approach for characterizing and analyzing complexity in nonlinear interaction networks with Markovian dynamics.

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• Modeling sterol regulatory system

  Validating mathematical models of the yeast sterol regulatory pathway.

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• Simulating cell division

  Computational models that describe two different stages of cell division: mitotic spindle formation and cytokinesis.

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• Understanding mechanosensation

  Understanding how cells sense and interpret forces, and how this mechanosensation influences various physiological processes.

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• Understanding signaling pathways regulating chemotaxis

  Mathematical/computational models that help to understand how cells achieve chemotaxis effectively.

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