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Current Researchers


Neuroengineering Photograph

This unique laboratory allows us to quantify spatial localization across different sensory modalities

What is Neuroengineering?

The combination of quantitative method, the physical sciences, and the biological sciences has provided remarkable contributions to our understanding of biomedical phenomena, including pathologic processes and interventional strategies to correct them. There is no more obvious and enduring area of synergy than that between biomedical engineering and neuroscience. This synergy commonly termed neuroengineering refers to the application of engineering principles to:

  1. Understand the biological mechanisms of neural systems (reverse engineering, e.g. sensation, neuronal disorders, etc.)
  2. Design or construct devices that interface or interact with the nervous system (forward engineering, e.g. neural prosthetics, equipment for treatment or diagnostics, etc.).

Why Rochester?

The Departments of Biomedical Engineering and Neurobiology & Anatomy have constructed a nationally recognized research and training enterprise in neuroengineering at the University of Rochester. In sum, neuroengineering at Rochester offers unique graduate training opportunities for individuals seeking the exciting intersection between engineering and neuroscience. Nearly every faculty member associated with this track is a primary member of both departments. The laboratories are clustered together in the NBA wing of the School of Medicine and Dentistry. The partnership between departments means that Neuroengineering students have more resources, more exposure and more choices in research, more diversity in scientific culture, and a larger faculty and staff supporting them, than anywhere else on campus.

Affiliated Center:

  • Center for Navigation and Communication Sciences (CNCS)

    CNCS logo

    We have established the Center for Navigation and Communication Sciences, supported by the National Institute on Deafness and Other Communication Disorders (NIDCD), that is specifically dedicated to research on the sensory, motor, and integrative mechanisms underlying these essential functions.