Fundamental observations and principles derived from traditional physiological studies of
multisensory integration have been difficult to reconcile with computational and …

Elegant sensory structures in the inner ear have evolved to measure head motion. These
vestibular receptors consist of highly conserved semicircular canals and otolith organs. Unlike …

According to Einstein’s equivalence principle, inertial accelerations during translational
motion are physically indistinguishable from gravitational accelerations experienced during …

Autism is a neurodevelopmental disorder that manifests as a heterogeneous set of social,
cognitive, motor, and perceptual symptoms. This system-wide pervasiveness suggests that, …

A critical step in self-motion perception and spatial awareness is the integration of motion
cues from multiple sensory organs that individually do not provide an accurate representation …

Human observers combine multiple sensory cues synergistically to achieve greater perceptual
sensitivity, but little is known about the underlying neuronal mechanisms. We recorded …

Integration of multiple sensory cues is essential for precise and accurate perception and
behavioral performance, yet the reliability of sensory signals can vary across modalities and …

The perception of self-motion direction, or heading, relies on integration of multiple sensory
cues, especially from the visual and vestibular systems. However, the reliability of sensory …

Responses of neurons that integrate multiple sensory inputs are traditionally characterized
in terms of a set of empirical principles. However, a simple computational framework that …

Recent findings of vestibular responses in part of the visual cortex—the dorsal medial
superior temporal area (MSTd)—indicate that vestibular signals might contribute to cortical …