Research is an essential part of a scientific degree. Our faculty collaborates with colleagues locally and abroad to tackle the global challenges facing health, security, and sustainability. Designated an R1 National Research University, our portfolio boasts $87M in funding from grants and industry partners.
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Motor skills such as throwing a ball, eating with knife and fork or dancing are uniquely human and key to functional behavior. Optimizing the acquisition and preventing or reverting the degradation of skill requires a rigorous quantitative understanding. The Action Lab analyzes how human neurophysiology and task mechanics constrains sensorimotor skills and their change. This work has applications for and performance enhancement and recovery after neurological injury.
The Apfeld Lab seeks to dissect the interplay between redox processes and age-dependent changes in tissue function in the nematode C. elegans, in order to shed light on the association between the dysregulation of the cellular redox environment and many human diseases of aging.
Dr. Ayers’ research focus is on the neuroethology of motor systems in invertebrates and lower vertebrates and the application of this knowledge to the development of advanced robots.
The Center’s objective is simple: think networks. Research focuses on how networks emerge/evolve, how they look, and how they impact our understanding of complex systems. CCNR’s research has developed to unexpected areas, including the topology of the World Wide Web; complex networks inside the cell, and the Internet’s Achilles’ Heel.
CIRCS fosters collaborations between researchers from different scientific and engineering disciplines who share a common interest in elucidating fundamental aspects of the structure and function of complex physical and biological systems across multiple levels of organization using a combination of quantitative state-of-the-art experimental and theoretical research tools. Faculty include: Williams and Stepanyants.