Auditory detection and sound localization for computer-generated individual combatants

Michaud, John C.

06 1900

Soldiers rely predominantly on vision to detect targets, yet other senses may cue their sense of sight. Contrarily, most army combat simulations employ only visual cues. The focus of this thesis is to enhance combat simulations by providing a method by which computer-generated entities can detect and locate objects via a phenomenon known as "sound localization." The Auditory Detection Program is used to represent a human's hearing, and data from a sound localization experiment are analyzed to determine how to best represent the event in which an individual hears a sound and then estimates the location of the sound's source. The resulting algorithms are coded into the Army's combat simulation, COMBAT XXI, and the "face-validation" method is used to determine if the algorithms enhance the realism of the simulation. The data analysis consists of Shapiro-Wilks Tests for Normaility, Friedman's Tests for Randomized Block Experiment, and Wilcoxon Rank-Sum Tests using the Bonferroni Correction. Implementing this model in COMBAT XXI improves the simulation by making it more realistic.

Directional hearing

Towards mass-customizing up/down sound cues for listeners : issues concerning inter-subject variability /

Au, John Tsun Lam.

January 2007

Thesis (M.Phil.)--Hong Kong University of Science and Technology, 2008. / Includes bibliographical references (leaves 59-61). Also available in electronic version.

Directional hearing

The phase difference and amplitude ratio at the ear due to a source of pure tone

Firestone, Floyd Alburn,

January 1900

Thesis (Ph. D.)--University of Michigan, 1933. / From the Journal of the Acoustical society of America, October, 1930, vol. II, no. 2. Bibliography: p. 270.

Directional hearing.

Auditory detection and sound localization for computer-generated individual combatants /

Michaud, John C.

January 2005

Thesis (M.S. in Operations Research)--Naval Postgraduate School, June 2005. / Thesis Advisor(s): Jeff Crowson. Includes bibliographical references (p. 89-91). Also available online.

Directional hearing.

The effect of sound spatialization on responses to overlapping messsages /

Campbell, James R.

January 2002

Thesis (M.S.)--Naval Postgraduate School, 2002. / Thesis advisor(s):Russell D. Shilling, Robert R. Read. Includes bibliographical references (p. 117). Also available online.

Neural encoding of ultrasound direction in a cricket (T. oceanicus) interneuron

Samson, Annie-Helene.

January 2002

Binaural comparison of intensity is the basis of sound localisation in crickets. Two features of the neural response, response strength and response latency, can encode intensity. Therefore, binaural difference in spike-count and in latency can be used as sound localisation cues. In this work, I investigate the effects of ultrasound intensity and pulse-rate on sound localisation cues as well as the directionality of the response in an ultrasound-sensitive interneuron, AN2. I found that habituation, a decline in neural response, decreases binaural cues encoded in spike-count but increases the cues encoded in first-spike latency. In addition, binaural spike-count and latency difference encode the exact location of ultrasound pulses with similar reliability. As crickets are submitted to habituating stimuli in their natural environment, latency difference is a more useful cue than spike-count difference to locate an ultrasound, although comparison of these results with a previous study suggests that crickets use predominantly binaural difference in spike-count to localise ultrasound.

Crickets.

Directional hearing.

Sound localization in the bottlenose porpoise, Tursiops truncatus (Montagu)

Renaud, Donna McDonald

January 1974

Typescript. / Bibliography: leaves 177-187. / xi, 187 leaves ill. (some col.)

Bottlenose dolphin

Directional hearing

Binaural localization of pure tones

Wightman, Earl Russell,

January 1900

Thesis (Ph. D.)--University of Michigan, 1930. / From the Journal of the Acoustical Society, Oct., 1930.

Directional hearing. Hearing.

Neural encoding of ultrasound direction in a cricket (T. oceanicus) interneuron

Samson, Annie-Helene.

January 2002

No description available.

Directional hearing.

Crickets.

Detection of scattered ambient noise by fish : possible passive perception of potential predators and prey from palpable pressure and particle path perturbations

Lewis, Thomas N.

08 1900

No description available.

Directional hearing

Fishes Sense organs