C J Dong, N V Swindale, P Zakarauskas, V Hayward, M S Cynader. Percept Psychophys 2000
Times Cited: 25
Times Cited: 25
Times Cited
Times Co-cited
Similarity
Motion aftereffects with horizontally moving sound sources in the free field.
D W Grantham. Percept Psychophys 1989
D W Grantham. Percept Psychophys 1989
56
Encoding of sound-source location and movement: activity of single neurons and interactions between adjacent neurons in the monkey auditory cortex.
M Ahissar, E Ahissar, H Bergman, E Vaadia. J Neurophysiol 1992
M Ahissar, E Ahissar, H Bergman, E Vaadia. J Neurophysiol 1992
40
Detection and discrimination of simulated motion of auditory targets in the horizontal plane.
D W Grantham. J Acoust Soc Am 1986
D W Grantham. J Acoust Soc Am 1986
40
Right parietal cortex is involved in the perception of sound movement in humans.
T D Griffiths, G Rees, A Rees, G G Green, C Witton, D Rowe, C Büchel, R Turner, R S Frackowiak. Nat Neurosci 1998
T D Griffiths, G Rees, A Rees, G G Green, C Witton, D Rowe, C Büchel, R Turner, R S Frackowiak. Nat Neurosci 1998
36
A movement-sensitive area in auditory cortex.
F Baumgart, B Gaschler-Markefski, M G Woldorff, H J Heinze, H Scheich. Nature 1999
F Baumgart, B Gaschler-Markefski, M G Woldorff, H J Heinze, H Scheich. Nature 1999
36
Auditory aftereffects following simulated motion produced by varying interaural intensity or time.
W H Ehrenstein. Perception 1994
W H Ehrenstein. Perception 1994
36
The effect of trajectory on the auditory motion aftereffect.
Michael F Neelon, Rick L Jenison. Hear Res 2003
Michael F Neelon, Rick L Jenison. Hear Res 2003
81
Auditory cortex neurons sensitive to correlates of auditory motion: underlying mechanisms.
J M Toronchuk, E Stumpf, M S Cynader. Exp Brain Res 1992
J M Toronchuk, E Stumpf, M S Cynader. Exp Brain Res 1992
32
Neurons in cat primary auditory cortex sensitive to correlates of auditory motion in three-dimensional space.
E Stumpf, J M Toronchuk, M S Cynader. Exp Brain Res 1992
E Stumpf, J M Toronchuk, M S Cynader. Exp Brain Res 1992
28
Responses of neurons in the inferior colliculus to dynamic interaural phase cues: evidence for a mechanism of binaural adaptation.
D McAlpine, D Jiang, T M Shackleton, A R Palmer. J Neurophysiol 2000
D McAlpine, D Jiang, T M Shackleton, A R Palmer. J Neurophysiol 2000
28
Perception of sound-source motion by the human brain.
Jason D Warren, Brandon A Zielinski, Gary G R Green, Josef P Rauschecker, Timothy D Griffiths. Neuron 2002
Jason D Warren, Brandon A Zielinski, Gary G R Green, Josef P Rauschecker, Timothy D Griffiths. Neuron 2002
28
Spatial receptive fields of inferior colliculus neurons to auditory apparent motion in free field.
N J Ingham, H C Hart, D McAlpine. J Neurophysiol 2001
N J Ingham, H C Hart, D McAlpine. J Neurophysiol 2001
24
The dominant role of low-frequency interaural time differences in sound localization.
F L Wightman, D J Kistler. J Acoust Soc Am 1992
F L Wightman, D J Kistler. J Acoust Soc Am 1992
24
Adaptation to auditory motion in the horizontal plane: effect of prior exposure to motion on motion detectability.
D W Grantham. Percept Psychophys 1992
D W Grantham. Percept Psychophys 1992
42
Context-dependent adaptive coding of interaural phase disparity in the auditory cortex of awake macaques.
Brian J Malone, Brian H Scott, Malcolm N Semple. J Neurosci 2002
Brian J Malone, Brian H Scott, Malcolm N Semple. J Neurosci 2002
24
Discrimination of sound source velocity in human listeners.
Simon Carlile, Virginia Best. J Acoust Soc Am 2002
Simon Carlile, Virginia Best. J Acoust Soc Am 2002
24
Minimum auditory movement angle: binaural localization of moving sound sources.
D R Perrott, A D Musicant. J Acoust Soc Am 1977
D R Perrott, A D Musicant. J Acoust Soc Am 1977
24
Auditory motion induces directionally dependent receptive field shifts in inferior colliculus neurons.
W W Wilson, W E O'Neill. J Neurophysiol 1998
W W Wilson, W E O'Neill. J Neurophysiol 1998
20
Auditory space-time receptive field dynamics revealed by spherical white-noise analysis.
R L Jenison, J W Schnupp, R A Reale, J F Brugge. J Neurosci 2001
R L Jenison, J W Schnupp, R A Reale, J F Brugge. J Neurosci 2001
20
Responses of cells to stationary and moving sound stimuli in the anterior ectosylvian cortex of cats.
H Jiang, F Lepore, P Poirier, J P Guillemot. Hear Res 2000
H Jiang, F Lepore, P Poirier, J P Guillemot. Hear Res 2000
25
Minimum audible movement angle: marking the end points of the path traveled by a moving sound source.
D R Perrott, K Marlborough. J Acoust Soc Am 1989
D R Perrott, K Marlborough. J Acoust Soc Am 1989
20
Responses of inferior colliculus neurons to time-varying interaural phase disparity: effects of shifting the locus of virtual motion.
M W Spitzer, M N Semple. J Neurophysiol 1993
M W Spitzer, M N Semple. J Neurophysiol 1993
20
The temporal growth and decay of the auditory motion aftereffect.
Michael F Neelon, Rick L Jenison. J Acoust Soc Am 2004
Michael F Neelon, Rick L Jenison. J Acoust Soc Am 2004
71
Effect of auditory motion velocity on reaction time and cortical processes.
Stephan Getzmann. Neuropsychologia 2009
Stephan Getzmann. Neuropsychologia 2009
20
Cortical response to auditory motion suggests an asymmetry in the reliance on inter-hemispheric connections between the left and right auditory cortices.
Katrin Krumbholz, Nicola Hewson-Stoate, Marc Schönwiesner. J Neurophysiol 2007
Katrin Krumbholz, Nicola Hewson-Stoate, Marc Schönwiesner. J Neurophysiol 2007
20
Cortical representation of acoustic motion in the rufous horseshoe bat, Rhinolophus rouxi.
U Firzlaff, G Schuller. Eur J Neurosci 2001
U Firzlaff, G Schuller. Eur J Neurosci 2001
40
Influence of temporal cues on acoustic motion-direction sensitivity of auditory neurons in the owl.
H Wagner, T Takahashi. J Neurophysiol 1992
H Wagner, T Takahashi. J Neurophysiol 1992
16
Positional, directional and speed selectivities in the primary auditory cortex of the cat.
P Poirier, H Jiang, F Lepore, J P Guillemot. Hear Res 1997
P Poirier, H Jiang, F Lepore, J P Guillemot. Hear Res 1997
19
16
A comparison of visual and auditory motion processing in human cerebral cortex.
J W Lewis, M S Beauchamp, E A DeYoe. Cereb Cortex 2000
J W Lewis, M S Beauchamp, E A DeYoe. Cereb Cortex 2000
16
Sensitivity to simulated directional sound motion in the rat primary auditory cortex.
D E Doan, J C Saunders. J Neurophysiol 1999
D E Doan, J C Saunders. J Neurophysiol 1999
22
Evidence for a sound movement area in the human cerebral cortex.
T D Griffiths, A Rees, C Witton, R A Shakir, G B Henning, G G Green. Nature 1996
T D Griffiths, A Rees, C Witton, R A Shakir, G B Henning, G G Green. Nature 1996
16
Listener weighting of cues for lateral angle: the duplex theory of sound localization revisited.
Ewan A Macpherson, John C Middlebrooks. J Acoust Soc Am 2002
Ewan A Macpherson, John C Middlebrooks. J Acoust Soc Am 2002
16
Relative effectiveness of three stimulus variables for locating a moving sound source.
L D Rosenblum, C Carello, R E Pastore. Perception 1987
L D Rosenblum, C Carello, R E Pastore. Perception 1987
16
Discrimination of moving events which accelerate or decelerate over the listening interval.
D R Perrott, B Costantino, J Ball. J Acoust Soc Am 1993
D R Perrott, B Costantino, J Ball. J Acoust Soc Am 1993
28
Correlational analysis of acoustic cues for the discrimination of auditory motion.
R A Lutfi, W Wang. J Acoust Soc Am 1999
R A Lutfi, W Wang. J Acoust Soc Am 1999
16
Minimum audible movement angle in the horizontal plane as a function of stimulus frequency and bandwidth, source azimuth, and velocity.
D W Chandler, D W Grantham. J Acoust Soc Am 1992
D W Chandler, D W Grantham. J Acoust Soc Am 1992
16
Auditory cortical neurons in the cat sensitive to the direction of sound source movement.
A R Sovijärvi, J Hyvärinen. Brain Res 1974
A R Sovijärvi, J Hyvärinen. Brain Res 1974
16
Binaural interaction in low-frequency neurons in inferior colliculus of the cat. II. Effects of changing rate and direction of interaural phase.
T C Yin, S Kuwada. J Neurophysiol 1983
T C Yin, S Kuwada. J Neurophysiol 1983
16
The psychometric function: I. Fitting, sampling, and goodness of fit.
F A Wichmann, N J Hill. Percept Psychophys 2001
F A Wichmann, N J Hill. Percept Psychophys 2001
16
Specific activation of the V5 brain area by auditory motion processing: an fMRI study.
Colline Poirier, Olivier Collignon, Anne G Devolder, Laurent Renier, Annick Vanlierde, Dai Tranduy, Christian Scheiber. Brain Res Cogn Brain Res 2005
Colline Poirier, Olivier Collignon, Anne G Devolder, Laurent Renier, Annick Vanlierde, Dai Tranduy, Christian Scheiber. Brain Res Cogn Brain Res 2005
16
Principles of acoustic motion detection in animals and man.
H Wagner, D Kautz, I Poganiatz. Trends Neurosci 1997
H Wagner, D Kautz, I Poganiatz. Trends Neurosci 1997
26
Effects of natural versus artificial spatial cues on electrophysiological correlates of auditory motion.
Stephan Getzmann, Jörg Lewald. Hear Res 2010
Stephan Getzmann, Jörg Lewald. Hear Res 2010
16
Auditory motion perception: onset position and motion direction are encoded in discrete processing stages.
Stephan Getzmann. Eur J Neurosci 2011
Stephan Getzmann. Eur J Neurosci 2011
19
The effect of spatial adaptation on auditory motion processing.
Stephan Getzmann, Jörg Lewald. Hear Res 2011
Stephan Getzmann, Jörg Lewald. Hear Res 2011
30
Electrical neuroimaging during auditory motion aftereffects reveals that auditory motion processing is motion sensitive but not direction selective.
David A Magezi, Karin A Buetler, Leila Chouiter, Jean-Marie Annoni, Lucas Spierer. J Neurophysiol 2013
David A Magezi, Karin A Buetler, Leila Chouiter, Jean-Marie Annoni, Lucas Spierer. J Neurophysiol 2013
57
Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.