Research PaperAcuity in ranging based on delay-tuned combination-sensitive neurons in the auditory cortex of mustached bats

- For ranging, FM-FM neurons are tuned to a pulse-echo pair with a specific echo delay.
- Simulation with physiological data indicates the following high acuity in ranging.
- Acuity based on the location of maximally responding neurons is as small as 4.05 mm.
- Acuity based on the location of a center of all responses is as small as 0.30 mm.
- Acuity based on the weighted sum of all responses is as small as 0.14 mm.

A 1.0-ms echo delay from an emitted bio-sonar pulse at 25 °C corresponds to a 17.3-cm target distance. In the auditory cortex of the mustached bat, Pteronotus parnellii, neurons tuned to a specific delay (best delay) of an echo from an emitted pulse are clustered in the FF, dorsal fringe and ventral fringe areas. (“FF” stands for the frequency-modulated components of a pulse and its echo.) Those delay-tuned neurons are systematically arranged in the FF area according to their best delays and form a 18-ms-long delay axis. Using the neurophysiological data, the theoretical acuity at a 75% correct level was computed as just-noticeable changes in (a) the location of maximally responding delay-tuned neurons, (b) the location of the center of all responses in the FF area, and (c) the weighted sum of responses of all delay-tuned neurons. The acuity is range-dependent: the shorter the target range, the higher the acuity is. The just-noticeable changes in target range are 7.57-46.2, 0.50-2.32 and 0.22-2.53 mm at the target ranges of up to 140 cm for (a), (b) and (c), respectively. When the dorsal and ventral fringe areas are included in the computation, the just-noticeable changes become smaller than those in the FF area alone. Those acuities computed are comparable to certain behavioral acuities.