The digitizing rate of the afferent signal was 3000 Hz.

When the body is not in motion, it perceives its position in space though the integration of multi-modal afferent signals.

This is because the afferent signal through one optic nerve connects to the Edinger-Westphal nucleus, whose axons run to both the right and the left oculomotor nerves.

The term "corticopontocerebellar" is sometimes used to denote afferent signals from the cerebral cortex.

The seventh system no longer provides tilt information in weightlessness; however, it does continue to signal translation, so the afferent signals to the CNS are confusing.

The loss of afferent signals induces functional changes in dorsal horn neurons.

The Ia afferent signals are transmitted monosynaptically to many alpha motor neurons of the receptor-bearing muscle.

Regular afferent signals and irregular afferent signals travel to the vestibular nuclei in the brain, although irregular signals are at least two times more sensitive.

Because of this, it has been questioned why humans have regular afferent signals.

It is thought that three main components contribute to dyspnea: afferent signals, efferent signals, and central information processing.