During a typical experiment, we measure motor control as people learn to interact with novel tools.

We measure eye movements and quantify how the brain integrates visual information with proprioceptive information.

We use transcranial magnetic stimulation to briefly disrupt neural processing of information in the brain to assess how it impacts control of movements.

We use functional magnetic resonance imaging to measure correlates of neural activity in the brain during tool use.

We use positron emission tomography to measure blood flow in the brain, a correlates of neural activity, during adaptive control of reaching.

In collaboration with Dr. Fred Lenz in Hopkins Neurosurgery, we record from single cells in the brain during adaptive control of reaching.

A two-arm robotic system to help investigate coordination and control in healthy people and in patients with neurological disorders.

In collaboration with Dr. David Zee in Hopkins Neurology, we measure eye trajectory during saccades in order to better understand control of eye movements in healthy people and in patients with neurological disorders.