Our research in this area focuses on:
- Multiphysics Analysis (Recent Publications )
- Microfluidics (Recent Publications )
- Uncertainty Quantification (Recent Publications )
In the area of microelectromechanical systems (MEMS), we are developing efficient full-Lagrangian based computational approaches for multiphysics analysis of coupled mechanical, electrical, thermal, magnetic and fluidic energy domains. Using our sophisticated computational tools, we are exploring both the static and dynamic properties of MEMS. Our recent work is to quantify uncertainties in MEMS, develop data-driven computational approaches to estimate probability density functions (pdfs) of uncertainties, and to develop efficient stochastic approaches for analysis of MEMS in the presence of uncertainties. In the area of microfluidics, our work focuses on electrokinetic flows.