Erratum: A power-efficient switched-capacitor stimulating system for electrical/optical deep-brain stimulation (IEEE Journal of Solid-State Circuits (2015) 50:1 (360-374))

Our research employs engineering approaches to understand and control neural function. We work on fundamental questions and applied development in electrical stimulation of the nervous system to restore function to individuals with neurological impairment or injury. Current projects include:• understanding the mechanisms of and developing advanced approaches to deep brain stimulation to treat movement disorders, • developing novel approaches to peripheral nerve e

My lab studies implantable and wearable devices for treating neurological impairment, namely with deep brain stimulation (DBS) and transcranial electrical stimulation (tES). Projects evolve through theoretical and preclinical stages of development, combining biophysical and dynamic causal modeling, medical imaging, and device prototyping, to test new concepts and strategies for these neurotechnologies. Noninvasive studies on tES are conducted in tissue phantoms and healthy human subjects in-hous