Abstract: Silicon oscillating accelerometers have the potential to achieve navigation-grade precision due to their frequency-modulation nature. As a result, they present a promising alternative to ...

MEMS-based accelerometers are increasingly deployed in harsh environments where mechanical stress is not just expected but constant.

Microelectromechanical systems (MEMS) technology has allowed the realization of cost-effective, high-performance deformable mirrors for adaptive-optics-enhanced imaging. The idea of using an array of ...

Objective Self-reports of physical activity (PA) have been the mainstay of measurement in most non-communicable disease (NCD) surveillance systems. To these, other measures are added to summate to a ...

Abstract: We present a wearable intelligent MEMS accelerometer that performs in-sensor action recognition via a physical reservoir formed by a single nonlinear micro-resonant beam. The beam’s hybrid ...