Using frequency-modulated echolocation sound, bat can capture a moving target in real three-dimensional (3-D) space. It is impossible to locate multiple targets in 3-D space by using only the delay time between an emission and the resultingechoes received at two points (i.e., two ears). To locate multiple targets in 3-D space requires directional information for each target. The spectrum of the echoes from nearly equidistant targets includes spectral components of both the interference between the echoes and the interference resulting from the physical process of reception at the external ear. The frequency of the spectral notch, which is the frequency corresponding to the minimum of the external ear's transfer function (EEDNF), provides a crucial cue for directional localization. In the model we present, a computational model todiscriminate multiple close targets in 3-D space utilizing echoes evoked by a single emission by distinguishing the interference of echoes from each object and the EEDNF corresponding to each target.
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