In normal crickets, neurons that
receive auditory input from one cricket «ear» project up to the brain unilaterally, without crossing the cricket's «midline» (Figure 1A).
Not exact matches
In a standard dichotic test, listeners
receive different
auditory inputs delivered to each ear simultaneously.
In new research, published in an article in The Journal of Neuroscience, Burger and Oline — along with Dr. Go Ashida of the University of Oldenburg in Germany — have investigated
auditory brain cell membrane selectivity and observed that the neurons «tuned» to
receive high - frequency sound preferentially select faster
input than their low - frequency - processing counterparts — and that this preference is tolerant of changes to the
inputs being
received.
The process of
receiving and decoding spoken words takes place in the
auditory cortex, which is the part of the human brain's cerebral cortex that processes
auditory input.
People with chromesthesia are said to
receive a double «whack» of
input to color perception centers of the brain, from both visual and
auditory stimuli.