Biomedical Related Applications: cellular mechanics, tissue engineering, cellular micro-manipulations, cell membrane mechanics and transport, modeling of protein motion, human skeletal motion analysis.
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Biomedical Related Applications|computational design|Computational Shape Modeling,Design and Optimization|Computer Aided Design(CAD) modling|Computer Aided Engineering(CAE)|Computer Aided Mechanics(CAM)|Current|design|Geometric Computing|Physical Computing|Synthesis of Mechanical Systems
horea.ilies@uconn.edu
analytical kinematics|Biomedical Related Applications|computational kinematics|Computational Shape Modeling,Design and Optimization|Current|design|design optimization|gear systems|machine systems|Nano-bio mechanical systems
kazem.kazerounian@uconn.edu
Biomedical Related Applications|cellular mechanics|cellular membrane dynamics|Current|dynamic frictional sliding modes|incoherent interfaces|Micro and Nano-scale Systems
george.lykotrafitis@uconn.edu
biomaterials|Biomedical Related Applications|biomems|bionano interface|cell/neuronal mechanics|Current|drug delivery|microfluidics|nano-micro technology|nanopiezoelectrics
nguyentd@uconn.edu
Biomedical Related Applications|computational design|Computational Shape Modeling,Design and Optimization|Current|design optimization|multi-disciplinary optimization|topology optimization
julian.norato@uconn.edu
active vibration suppression|bio-engineering applications|Biomedical Related Applications|control of multi-body systems|Current|design for vibrating structures|dynamic systems|Dynamics, Sensing and Control|micro-controls|robust nonlinear controls|systems and controls|vibrations
nejat.olgac@uconn.edu
