Adaptation is an essential feature of auditory neurons, which reduces their responses to
unchanging and recurring sounds and allows their response properties to be matched to the …

Our concepts of sound localization in the vertebrate brain are widely based on the general
assumption that both the ability to detect air-borne sounds and the neuronal processing are …

Precise timing of synaptic inputs is a fundamental principle of neural circuit processing. The
temporal precision of postsynaptic input integration is known to vary with the computational …

Previous studies have shown that normal-hearing (NH) listeners' spatial perception of non-
stationary interaural time differences (ITDs) is dominated by the carrier ITD during rising …

In mammals with good low-frequency hearing, the medial superior olive (MSO) computes
sound location by comparing differences in the arrival time of a sound at each ear, called …

Auditory research has a rich history of combining experimental evidence with computational
simulations of auditory processing in order to deepen our theoretical understanding of how …

Simple Summary The listening brain must resolve the mix of sounds that reaches our ears
into events, sources, and meanings. In this process, noise—sound that interferes with our …

Localization of sounds in the horizontal plane depends on interaural differences established
by the sound source location, environment, and anatomy of the listener. Important interaural …

A method (called binaural enhancement) for enhancing interaural level differences at low
frequencies, based on estimates of interaural time differences, was developed and …

Sound-source localization in the horizontal plane relies on detecting small differences in the
timing and level of the sound at the two ears, including differences in the timing of the …