Impact of gravity on the perception of linear motion
Megan J. Kobel, Andrew R. Wagner, Daniel M. Merfeld
Abstract
Perception of gravity and translation are fundamental for self-motion perception, balance, and motor control. The central nervous system must accurately disambiguate peripheral otolith signals encoding both linear acceleration and gravity. In contrast to past reports, we show that perception of translation depends on both motion relative to gravity and motion relative to the head. These results provide fundamental insights into otolith-mediated perception and suggest that the nervous system must compensate for the presence of gravity.
Topics & Concepts
PerceptionMotion perceptionOtolithLinear accelerationMotion (physics)PhysicsAccelerationContrast (vision)NeuroscienceCommunicationComputer sciencePsychologyClassical mechanicsComputer visionBiologyFisheryFish <Actinopterygii>Visual perception and processing mechanismsVestibular and auditory disordersTactile and Sensory Interactions