gravisensing

Gravisensing is the process of sensing and interpreting gravity-related signals to determine orientation, motion, and gravity-field properties. In practice, gravisensing uses data from gravity-sensitive sensors such as accelerometers and gravimeters, often within a larger inertial measurement framework that includes gyroscopes and magnetometers, to estimate the direction and magnitude of the Earth's gravity vector while separating gravitational acceleration from other body accelerations. In geophysics and space science, gravisensing also refers to methods that measure the local gravity field and its spatial variations to infer subsurface structure or mass redistribution.

In mobile and robotic contexts, gravisensing typically focuses on deriving a stable gravity vector from inertial

Key challenges include distinguishing gravity from dynamic accelerations, sensor bias, noise, and drift, as well as

Advances in MEMS sensors and algorithmic fusion continue to expand gravisensing capabilities in consumer devices, vehicles,