Auditory Motion and 3-D References  

Ahissar, M., Ahissar, E., Bergman, H. and Vaadia, E. (1992) Encoding of sound-source location and movement: Activity of single neurons and interactions between adjacent neurons in the monkey and auditory cortex. J. Neurophysiology, 67, 203-215.
Altman, J. (1968) Are there neurons detecting direction of sound source motion? Experimental Neural., 22,13-25
Altman, J.(1975) Responses of cerebellar units to stimuli simulating sound source movement and visual moving stimuli. Experentia, 31, 818-821.
Altman, J.,(1984) Role of higher parts of the auditory system in the localization of a moving sound source. Neuroscience and Behacioral Physiology, 14, 200-205.
Altman, J.(1988) Information processing concerning moving sound sources in the auditory centers and its utilization by brain integrative and motor structures. In Auditory Pathway: Structure and Function, J. Syka and Masterton, R. (Eds), Plenum Press, New York, 349-354.
Altman, J. and Romanov, V. (1988) Psychophysical characteristics of the auditory image movemnt perception during dichotic stimulation. International J. Neuroscience, 38, 369-379.

Altman, J. and Viskov, O.(1977) Discrimination of perceived movement velocity for fused auditory image in dichotic stimulation. J. Acoust. Soc. Amer., 61, 816-819.
Altman, J., Belov, I., Vaitulevich, S. and Maltseva, N. (1983) Charateristics of human auditory ecoked potentials during lateralization of a moving acoustic image. Neuroscience and Behavioral Physiology, 13, 412-418.
Altman, J. and Kalmykova, I. (1986) Tole of the dog's auditory cortex in discrimination of sound signals simulating sound source movement. Hearing Research, 24,243,253.
Altman, J. and Vaitulevich, S. (1990) Auditory image movement in evoked potential. Electroencephalography and Clinical Neuphysiology, 75, 323-333.
Altman, Y., Nikitin, N. and Shakshaev, S. (1989) Sound image lateralization under conditions of immersion hypokinesia. Sensory Systems, 3, 306-312.

Anderson, D. and Moss, C. (1964) The auditory autokinetic effect. Amer. J. Psychology, 77, 502-503.

Anstis, S. (1967) Visual adaptation to a gradual change in intensity. Science, 155, 710-712.

Anstis, S. (1986) Motion perception in the frontal plane. In K.R. Boff, L. Kaufman and J.P. Thomas(eds.) Handbook of Perception adn Human Performance Vol. 1 Sensory Processes and Perception. New York: Wiley.

Bechterev, N. Syka, J. and Altman, J. (1975) Responses of cerevellar units to stimuli simulating sound source movement and visual moving stimuli. Experientia, 819-821.

Bernardin, A. and Gruber, H. (1957) An auditory autokinetic effect. Amer. J. Psychology, 70, 133-134

Blauert, J. (1970) zur Tragheit des Richungshorens bei Laufzeit-und Intensitatsstereophonie. Acoustica, 23, 287-293.
Blauert, J. (1972) On the lag of laterlaization caused by interaural time and intensity differences. Audiology, 11, 265-270.

Boring, E. (1942) Sensation and Perception in the History of Experimental Psychology. New York: Appleton.v .
Briggs, R. and Perrott, D.R.(1972) Auditory apparent movement under dichotic listening conditions. J. Experimental Psychology, 92, 83-91.
Burtt, H. (1917) Auditory illusions of movement: A preliminary study. J. Experimental Psychology, V 2, 63-74.
Cautela, J. and McLaughlin, D. (1965) The influence of suggestion on the audioautokinetic effect. J. Psychology, 60, 117-122.
Chandler, D. and Grantham, D.W. (1992) Minimum audible movement angle in the horizontal plane as a function of stimulus frequency and bandwith, source azimuth, and velocity. J. Acoust. Soc. Amer., 91, 1624-1636.

Derrington, A.M. (1985). Apparent motion from luminance change: swquence discriminators see it too. Vision Research, 25, 2003-2004.
Dooley, G. (1986) The perception of auditory dynamic stimuli. Doctoral Dissertation, Department of Experimental Psychology, University of Cambridge.
Ehrenstein, W.(1984) Richtungsspezifishe Adatation des Raum-und Bewegungshorens. In L. Spillmand and B. Wootenen (eds) Sensory Experience, Adaptation and Perception, New Jersey: Lawrence Erlbaum Assoc.
Ehrenstein, W. and Hellweg, F. (1976) Richtungs-spezifische akustische Nachwirkungen nanch vorangegangener Schallrotation. Pfluegers Arch., Supple R49:195, 365.
Fisher, G. (1966) Autokinesis in vision, audition and tactile-kinesthesia. Perceptual & Motor Skills, 22, 470-475.
Fisher, G. (1961) Autokinesis in the spatial senses. Bulletin of the Brithis Psychological Soc., 44, 16-17.
Fobes, J. and Perrott, D.R. (1972) Auditory autokinesis: Effects of signal frequency and intensity. Psychonomic Science, 26, 317-318.
Fobes, J. and Perrott, D.R. (1973) Auditory autoklinesis as a function of intramodal fields. F. Experimental Psychology, 97, 13-15.
Gatehouse, R. and Frankie, G. (1980) The Development if an auditory concept of speed. J. Genetic Psyhology, 136, 221-229.
Gauthier, G. and Hofferer, J. (1976) Eye movements in response to real and apparent motion of acoustic targets. Perception and Motor Skills, 42, 963-971.

Grantham, D.W. (1984) Discrimination of dynamic interaural intensity differences., J. Acoust. Soc. Amer., 76, 71-76.

Grantham, D.W. (1986) Detection and discrimination of simulated motion of auditory targets in the horizontal plane. J. Acoust. Soc. Amer., 79, 1939-1949.
Grantham, D.W. (1989) Motion aftereffects with horizontally moving sound sources in the free field. Perception and Psychophysics, 45, 129-136.
Grantham, D.W. (1989) Auditory motion perception via successive "snapshot" analysis. Sound Localization by Human Observers: Symposium Proceedings(National Academy of Sciences), 35.
Grantham, D.W. (1992) Adaptation to auditory motion in the horizontal plane: Effect of prior exposure to motion detectability. Perception and Psychophysics, 52, 144-150.

Granthamm, D.W. and Robinson, D. (1977) Role of dynamic cues in monaural and binaural signal detection. J. Acoust. Soc. Amer., 61, 542-551.
Grantham, D.W. and Wightman, F. (1978) Detectability of varying interaural temporal differences. J. Acoust. Soc. Amer., 63, 511-523.
Grantham, D.W. and Wightman F. (1979) Detectability of a pilsed tone in the presence of a masker with time-varying interaural correlation. J. Acoust. Soc. Amer., 65, 1509-1517.
Grantham, D.W. and Wightman, F. (1979) Auditory motion aftereffects. Perception and Psychophysics, 26, 403-408.
Gregory, R.L. and Heard, P.F. (1983). Visual dissociations of movement, position, and streo depth: Some phenomenal phenomena. Quarterly Journal of Experimental Psychology, 35A, 2117-2237.
Halliday, R. and Callaway, E. (1978) Time shift evoked potentials (TSEPs): Method and basic results. Electroenchephalography & Clinical Neurophysiology, 45, 118-121.
Halverson, H. (1922) Binaural localization of phase and intensity. Amer. J. Psychology, 33, 178-212.
Halverson, H.(1927) The upper limints of auditory localization. Amer. J. Psychology, 38, 97-106.
Harris, J.(1972) A florilegium of experiments on directional hearing. Acta Oto-Laryngolica (Supplement #298).
Harris, J. and Sergeant, R. (1971) Monaural/binaural minimum audible angle for a moving sound source. J. Speech & Hearing, 14, 618-629.
Hisata, T. (1934) Experimentelle Untersuchungen ueber die-"Scheinbewegungen" in akustischen Gebeit. Japanese J. Psych., 9, 25-26.
Kester, P. (1926) Uber Lokalisation-und Bewegungs-Ersheinungen bei Geraushpaaren Psychol. Forsch.,8, 75-113.
Klemm, O. (1918) untersuchungen uber die Lokalisation von Schallreizen. 3. Mitteilung: Uber der Anteil des beidohrigen horens. Arch. F. D. ges. Psychol., 38, 71-114.
Klemm, O. (1920) Untersuchungen uber die Lokalisation von Schallreizen.4 Mitteilung: Uber den Eingluss des binaualen Zeituntershiedes auf die Lokalisation. Arch. F. d. ges. Psychol., 40, 116-146.
Kodimer, M. and Strybel, T.Z.(1991). Auditory apparent motion under dichotic, diotic and monaural listening conditions. Presented at the annual meeting of the Western Psychological Association, San Francisco, CA.
Kolers, P. (1979) A difference between auditory and visual apparen movement. Bulletin Psychonomic Soc., 13, 303-304.
Kuwada, S. Yin, T. and Wickensberg, R. (1979) Response of cat inferior colliculus neurons to binaurl beat stimuli: Possible mechanisms for sound localization. Science, 228, 1331-1333.

Lackner, J. (1977) Induction of illusory self-rotation and nystagmus by a rotating sound-field. Aviation, Space and Enviromental Medicine, 48, 139-131.

Lakatos, S. (1993) Temporal constraints on apparent motion in auditory space. Perception and Psychophysics, 54, 139-144.
Lane, C. (1925) Binaural beats. Physics Review, 26, 401-412.
Licklider, J. and Webster, J. (1950) On the frequency limits of binaural beats. J. Acoust. Soc. Amer., 22, 468-473.

Manligas, C., Strybel, T. and Perrott, D. (1987) Auditory apparent motion at differnt locations in space. Paper read at the Spring meeting of the Western Psychologica Association, Long Beach, CA
Masterbroek, H.A.K. and Zaagman, W.H. (1988). Apparent movements induced by luminance modulations: a model study. Perception, 17, 667-679.
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Mateef, S. and Hohnsbein, J. (1988) Dynamic auditory localization: Perceived position of a moving sound source. Acta Physiologica et Pharmacologica, 14, 32-38.
Matheisen, A. (1931) Apparent movements in auditory perception. Psyhological Monographs, 41, 74-131.
Mather, G.(1984). Luminance change generates apparent movement: implication for models of directional specificity in the human visual system. Vision Research, 24, 1399-1405
Mills, A. (1958) ON the minimum audible angle. J. Acoust. Soc. Amer., 30, 237-246.
Moore, C., Cranford, J., and Rahn, A. (1990) tracking of a "moving" fused auditory image under conditions that elicit the precedence effect. J. Speech and Hearing Reasearch, 33, 141-148.
Mosseff, A. and Haresign, T. (1922) Response of auditory units in the barn owl's inferior colliculus to continuously varying interaural phase differences. J. Neurophysiology, 67, 1428-1436.
Mukhamedrakhimov, R. (1989) Role of the hippocampus in hte short-term retention of moving and unmoving sound image localization in human beings. Sensory Systems, 3, 150-158.

Odenthal, D. (1964) Perception and neural representation of simultaneous dichotic pure tone stimuli. Acta Physiol. Pharamacol. Neerl. 12, 453-496.

Ohmura, H. (1987) Intersensory influences on the perception of apparent movement. Japanese Psychological Research, 29, 1-9.
Perrott, D.R. (1974) Auditory apparent movement. J. Auditory Research, 14, 163-169.
Perrott, D.R. (1988) Are there motion detectors in the auditory system? Sound Localization by Human Observers: Symposium Proceedings (National Academy of Sciences), 36. 

Perrott, D.R. and Briggs, R. (1973) Effects of the apparent motion of the masker uponb the binaural masking funtion. J. Auditory Research, 13, 328-332.
Perrott, D.R., Brooks, R. and Fobes, J.L. (1973) The instability of auditory perceptual experience II: Reports of spontaneious shifts in pitch, loudness and locus. J. Auditoey Research, 13, 220-223.
Perrott, D.R., Buck, V., Waugh, W., and Strybel, T. (1979) Dynamic auditory localization Systematic replication of the auditory velocity function. J. Auditory research, 19, 277-285.
Perrott, D.R., Constantino, B., and Ball, J. (1993) Discrimination of moving events which accelerate of decelerate over the listening interbal. J. Acoust. Soc. Amer., 93, 1053-1057.
Perrott, D.R., and Fobes, J. (1971) Autokinesis as a binaural localization phenomenon: Effects of signal bandwidth. J. Experimental Psychology, 87, 1972-1975.
Perrott, D.R. and French, D. (1969) Apparent movements of sounds: Auditory autokinesis Psychonomic Science, 17, 207-208.
Perrott, D.R., and Marlborough, D. (1989) Minimum audible movement angle: Marking the end points of the path traveled by a moving sound source. J. Acoust. Soc. Amer., 85, 1773-1775.
Perrott, D.R., Mason, R., and Fobes, J.(1973 The instability of auditory perceptual experience I: Auditory audokinesis. J. Auditory Research, 13, 80-86.
Perrott, D.R. and Musicant, A. (1977) Minimum auditory movement angle: Binaural localization of moving sound sources. J. Acoust. Soc. Amer., 62, 1463-1466.
Perrott, D.R. and Musicant, A.(1977) Rotating tones and binaural beats, J. Acoust. Soc. Amer., 61, 1288-1292.
Perrott, D.R. and Musicant, A. (1981) Dynamic minimum audible angle: Binaural spatial acuity with moving sound sources. J. Auditory Research, 21, 287-295.
Perrott, D.R. and Nelson, M. (1969) Limits for the detection of binaurl beats. J. Acoustical. Soc. Amer., 46, 1477-1481.
Perrott, D.R. and Pacheco, S. (1989) minimum audible angle thresholds for broad band noise as a function of the delay between the onset of the lead and lag signals. J. Acoustical Soc. Amer., 85, 2669-2672.
Perrott, D.R., Strybel, T., and Manligas, C. (1987) Conditions under which the Haasprecedence effect may or may not occur. J. Auditory Research, 27, 59-72.
Perrott, D.R. and Tucker, J. (1988) Minimum audible movement angle as a function of signal frequency and the velocity of the source. J. Acoust. Soc. Amer., 83, 1522-1527.
Perrott, D.R. and Strybel, T.Z. (1997) Some observations regarding motion-without-direction. In Binaurl & Spatial Hearing, Edited by T. Anderson and R. Gilkey, Lawrence Erlbaum Associates, Publishers, 275-294.
Peterson, J. (1916) The nature and probable origin of binaurl beats. Psychological Review, 23, 333-352.
Pierce, A. (1901) Auditory and Visual Space Perception. New York: Longmans, Green and Company.
Rauschecker, J. and Harris, L. (1989) Auditory and visual neurons in the cat's superior colliculus selective for the direction of apparent motion stimuli. Brain Research, 490, 56-63.
Reinhardt-Rutland, A.H. (1992) Changing -loudness aftereffect following simulated movement: Implication for channel hypotheses concering sound level change and movement. Journal General Psychology, 119, 113-121.
Reinhardt-Rutland, A.H. (1988) Interaural transfer of a changing sound level in a tone. Journal General Psychology, V 114, 69-73.
Rosenblum, L., Carello, C. and Pastore, R. (1987) Relatice effectiveness of three stimulus variable for localizing a moving sound source. Perception, 16, 175-186.

Russell, G. and Nobel, W.(1974) Effects of signal frequency on a auditory autokinesis, J. Experimental Psychology, 103, 173-174.
Saberi, K. and Perrott, D.R. (1990) Minimum audible movement angle as a function of sound source trajectory. J. Acoust. Soc. Amer., 88, 2639-2644.
Saberi, K., Dostal, L., Sadralodabai, T. and Perrott, D.R. (1991) Minimum audible angels for horizontal, vertical and oblique orientations. Acoustica, 75, 57-61.
Sakarauskas, P. and Cynader, M. (1991). Aural intensity for a moving source. Hearing Research. 52, 223-244.
Scholz, W. (1924) Expermentelle Untersuchungen uber die phanomenale Grosse von Raumstrecken, die durch Sukzessiv-Darbietung zweier Reize begrenzt werden. Psychol Forch., 5, 219-272.
Sovijarvi, A., Hyvarinen, J. and Koskinen, K. (1973) Specific neurons in the auditory cortex of the cat for detecting the direction fo sound source movement. Scandinavian J. Clinical and Laboratory Investigations, 3,1962.

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