The modern smartphone is only possible because of sensors. Their svelte form factor conceals accelerometers, magnetometers, temperature sensors, a GPS unit, and gyroscopes. They all consume volume and ...

After successfully miniaturizing both clocks and magnetometers based on the properties of individual atoms, NIST physicists have now turned to precision gyroscopes, which measure rotation. NIST’s ...

Researchers have demonstrated a compact atomic gyroscope design that could, with further development, be portable, low power, and accurate enough to be used for navigation. Shrink rays may exist only ...

Those tiny gyroscopes—along with accelerometers, they’re the foundation of inertial guidance—keep getting better. The mechanical spinning-wheel and laser-based optical gyro have been supplanted in ...

CEA-Leti scientists, in collaboration with researchers at Politecnico di Milano, have developed the world’s smallest-footprint MEMS gyroscope that is capable of providing navigation-grade performance.

The rotating-mass gyroscope, which lies at the heart of inertial measurement units (IMUs), has served very successfully from the 1930s to the 1970s, guiding astronauts, spacecraft, missiles, and more.

Engineers now design systems and products that include MEMS sensors, particularly MEMS gyroscopes, as essential components. These applications range from portable and wearable devices to industrial ...

Mechanical Design Labs has created and launched a unique version of the traditional gyroscope, to provide a distraction or focus tool on your desk while studying, working or when you need a little ...