Abstract: We present the first demonstration of our event-driven ultra-low power MEMS inertial switch for dry cabinet door lock monitoring.
Abstract—We present the first demonstration of our event- driven ultra-low power MEMS inertial switch for dry cabinet door lock monitoring.
Nov 1, 2023 · Ultra-Low Power MEMS Inertial Switch Based Wake-Up Wireless Sensing Node for Door Lock Monitoring ... This item is closed access and not available ...
Ultra-Low Power MEMS Inertial Switch Based Wake-Up Wireless Sensing Node for Door Lock Monitoring Sagnik Ghosh, Duan Jian Goh, Zhongshi Hu, Jaibir Sharma ...
Ultra-Low Power MEMS Inertial Switch Based Wake-Up Wireless Sensing Node for Door Lock Monitoring · Engineering. 2023 IEEE SENSORS · 2023.
Ultra-Low Power MEMS Inertial Switch Based Wake-Up Wireless Sensing Node for Door Lock Monitoring. 1-4. view. electronic edition via DOI · unpaywalled version ...
Oct 22, 2024 · The paper describes the design, simulation and fabrication of a micro-electromechanical system (MEMS) based acceleration threshold switch ...
Ultra-Low Power MEMS Inertial Switch Based Wake-Up Wireless Sensing Node for Door Lock Monitoring ... Sensing Node Based on a Low-G Threshold mems Inertial Switch ...
Oct 31, 2023 · 1240: Ultra-Low Power MEMS Inertial Switch Based Wake-Up Wireless Sensing Node for Door Lock. Monitoring. Sagnik Ghosh{2}, Duan Jian Goh{2} ...
A wake-up switch using a piezoelectric differential pressure sensor · Ultra-Low Power Event-Driven Wireless Sensor Node Using Piezoelectric Accelerometer for ...
Missing: Door Lock