SummaryAlignment of the body to the gravitational vertical is considered to be the key to human bipedalism. However, changes to the semicircular canals during human evolution [1–3] suggest that the sense of head rotation that they provide is important for modern human bipedal locomotion. When walking, the canals signal a mix of head rotations associated with path turns, balance perturbations, and other body movements. It is uncertain how the brain uses this information. Here, we show dual roles for the semicircular canals in balance control and navigation control. We electrically evoke a head-fixed virtual rotation signal from semicircular canal nerves [4–6] as subjects walk in the dark with their head held in different orientations. Depend...
During the brief, high frequency, head rotations associated for example with the stepping jolts of n...
Spatial learning and navigation depend on neural representations of location and direction within th...
Humans are capable of moving about the world in complex ways. Every time we move, our self-motion mu...
Alignment of the body to the gravitational vertical is considered to be the key to human bipedalism....
Contains fulltext : 36032.pdf (publisher's version ) (Closed access)Using vestibul...
SummaryThe ability to orient and navigate through the terrestrial environment represents a computati...
The source of visual motion is inherently ambiguous such that movement of objects in the environment...
Effective navigation and locomotion depend critically on an observer\u27s ability to judge direction...
Registration of ego-motion is important to accurately navigate through space. Movements of the head ...
During eccentric yaw rotations around an Earth-vertical axis the semi-circular canals are stimulated...
Oscillating an animal out-of-phase simultaneously about the roll and pitch axes ("wobble") changes c...
Humans are capable of moving about the world in complex ways. Every time we move, our self-motion mu...
SummaryThe vestibular organs in the inner ear are commonly thought of as sensors that serve balance,...
Contains fulltext : 51167.pdf (publisher's version ) (Open Access)This thesis desc...
The vestibular system conveys information regarding head motion to the central nervous system (CNS)....
During the brief, high frequency, head rotations associated for example with the stepping jolts of n...
Spatial learning and navigation depend on neural representations of location and direction within th...
Humans are capable of moving about the world in complex ways. Every time we move, our self-motion mu...
Alignment of the body to the gravitational vertical is considered to be the key to human bipedalism....
Contains fulltext : 36032.pdf (publisher's version ) (Closed access)Using vestibul...
SummaryThe ability to orient and navigate through the terrestrial environment represents a computati...
The source of visual motion is inherently ambiguous such that movement of objects in the environment...
Effective navigation and locomotion depend critically on an observer\u27s ability to judge direction...
Registration of ego-motion is important to accurately navigate through space. Movements of the head ...
During eccentric yaw rotations around an Earth-vertical axis the semi-circular canals are stimulated...
Oscillating an animal out-of-phase simultaneously about the roll and pitch axes ("wobble") changes c...
Humans are capable of moving about the world in complex ways. Every time we move, our self-motion mu...
SummaryThe vestibular organs in the inner ear are commonly thought of as sensors that serve balance,...
Contains fulltext : 51167.pdf (publisher's version ) (Open Access)This thesis desc...
The vestibular system conveys information regarding head motion to the central nervous system (CNS)....
During the brief, high frequency, head rotations associated for example with the stepping jolts of n...
Spatial learning and navigation depend on neural representations of location and direction within th...
Humans are capable of moving about the world in complex ways. Every time we move, our self-motion mu...