Explores resonant sensors for mass flow and measurement, emphasizing stability and precision.
Covers low power sensor technology for IoT and wearables, focusing on activity sensors based on MEMS and biosignals.
Explores sensor technologies in MEMS, focusing on pressure sensors, accelerometers, and gyroscopes, and highlights the significance of sensor fusion.
Covers the characteristics, fabrication, actuation, and detection of hollow cantilevers in micro/nanomechanical devices.
Explores transduction and downmixing in micro/nanomechanical devices, focusing on noise sources and signal processing.
Discusses the design and importance of flexible guides in microtechnology, highlighting their benefits and applications in MEMS devices.
Explores an accelerometer experiment with water-filled container dynamics and fluid pressure concepts.
Explores vibrating beam MEMS accelerometers for gravity, seismic measurements, and ground motion monitoring.
Explores stability, resonance, damping effects, and forced oscillations in harmonic systems.
Explores the general principles of resonant sensors, focusing on piezoelectric resonators and their applications in temperature sensing and mass measurement.
