Explores transduction through actuation mechanisms, covering force-based and deformation-based methods, shape memory polymers, electrostatic and magnetic actuation principles, and examples like Texas Instruments DLP & DMD.
Explores Molecular Dynamics simulations for studying cement materials and diffusion processes, covering algorithms, force fields, data analysis, and recommended resources.
Explores scaling laws and applications of electrostatics in MEMS, covering topics like parallel plate capacitors, zipping actuators, and MEMS gyroscopes.
Covers spontaneous brain network activity, neural simulation, and validation, emphasizing the importance of in-vitro and in-vivo conditions for accurate network modeling.
