Flash-lag effect: complicating motion extrapolation of the moving reference-stimulus paradoxically augments the effect

[1]  Gergő Orbán,et al.  Representations of uncertainty in sensorimotor control , 2011, Current Opinion in Neurobiology.

[2]  Bradley R Sturz,et al.  Encoding of variability of landmark-based spatial information , 2010, Psychological research.

[3]  Dirk Kerzel,et al.  Contributions of visible persistence and perceptual set to the flash-lag effect: Focusing on flash onset abolishes the illusion , 2009, Vision Research.

[4]  K. Kreegipuu,et al.  Detection of Colour Change in Moving Objects: Temporal Order Judgment and Reaction Time Analysis , 2009, Perception.

[5]  Ulrich Ansorge,et al.  Saccades reveal that allocentric coding of the moving object causes mislocalization in the flash-lag effect , 2009, Attention, perception & psychophysics.

[6]  Frans A. J. Verstraten,et al.  Perceived timing of new objects and feature changes. , 2009, Journal of vision.

[7]  Romi Nijhawan,et al.  Going, going, gone: localizing abrupt offsets of moving objects. , 2009, Journal of experimental psychology. Human perception and performance.

[8]  Derek H. Arnold,et al.  Simple differential latencies modulate, but do not cause the flash-lag effect. , 2009, Journal of vision.

[9]  Karl R Gegenfurtner,et al.  Improved visual sensitivity during smooth pursuit eye movements: Temporal and spatial characteristics , 2009, Visual Neuroscience.

[10]  Karl R Gegenfurtner,et al.  Improved visual sensitivity during smooth pursuit eye movements , 2008, Nature Neuroscience.

[11]  Romi Nijhawan,et al.  Behavioral significance of motion direction causes anisotropic flash-lag, flash-drag, flash-repulsion, and movement-mislocalization effects. , 2008, Journal of vision.

[12]  Dirk Kerzel,et al.  Comparison of flashed and moving probes in the flash-lag effect: Evidence for misbinding of abrupt and continuous changes , 2008, Vision Research.

[13]  Romi Nijhawan,et al.  Visual prediction: Psychophysics and neurophysiology of compensation for time delays , 2008, Behavioral and Brain Sciences.

[14]  Stanley A. Klein,et al.  Shifting attention to the flash-lag effect , 2008, Behavioral and Brain Sciences.

[15]  David M. Eagleman,et al.  Prediction and postdiction: Two frameworks with the goal of delay compensation , 2008, Behavioral and Brain Sciences.

[16]  Kenji Yokoi,et al.  Dynamic distortion of visual position representation around moving objects. , 2008, Journal of vision.

[17]  Ruben Budelli,et al.  Spatial facilitation is involved in flash-lag effect , 2007, Vision Research.

[18]  Joan López-Moliner,et al.  Motion signal and the perceived positions of moving objects. , 2007, Journal of vision.

[19]  Terrence J Sejnowski,et al.  Motion signals bias localization judgments: a unified explanation for the flash-lag, flash-drag, flash-jump, and Frohlich illusions. , 2007, Journal of vision.

[20]  K. Kreegipuu,et al.  Detection of colour changes in a moving object , 2006, Vision Research.

[21]  Kuno Kirschfeld,et al.  Stopping motion and the flash-lag effect , 2006, Vision Research.

[22]  J. Enns,et al.  Object Updating and the Flash-Lag Effect , 2004, Psychological science.

[23]  Jüri Allik,et al.  Confusion of Space and Time in the Flash-Lag Effect , 2004, Perception.

[24]  K. Gegenfurtner,et al.  Neuronal Processing Delays Are Compensated in the Sensorimotor Branch of the Visual System , 2003, Current Biology.

[25]  Szonya Durant,et al.  Latency differences and the flash-lag effect , 2003, Vision Research.

[26]  Endel Põder,et al.  Perceptual acceleration of objects in stream: Evidence from flash-lag displays , 2003, Consciousness and Cognition.

[27]  D. Burr,et al.  The “Flash-Lag” Effect Occurs in Audition and Cross-Modally , 2003, Current Biology.

[28]  I. Murakami,et al.  The flash-lag effect as a spatiotemporal correlation structure. , 2001, Journal of vision.

[29]  Endel Põder,et al.  Change in feature space is not necessary for the flash-lag effect , 2001, Vision Research.

[30]  H. Bedell,et al.  Flash-lag effect: differential latency, not postdiction. , 2000, Science.

[31]  P Cavanagh,et al.  The Position of Moving Objects , 2000, Science.

[32]  E. Brenner,et al.  Motion extrapolation is not responsible for the flash–lag effect , 2000, Vision Research.

[33]  T. Sejnowski,et al.  Motion integration and postdiction in visual awareness. , 2000, Science.

[34]  Markus Lappe,et al.  Temporal recruitment along the trajectory of moving objects and the perception of position , 1999, Vision Research.

[35]  Frans A. J. Verstraten,et al.  The Motion Aftereffect:A Modern Perspective , 1998 .

[36]  R. Nijhawan,et al.  Visual decomposition of colour through motion extrapolation , 1997, Nature.

[37]  Romi Nijhawan,et al.  Motion extrapolation in catching , 1994, Nature.

[38]  Ulrich Ansorge,et al.  The initial stage of visual selection is controlled by top-down task set: new ERP evidence , 2011, Attention, perception & psychophysics.

[39]  J. Enns,et al.  Space and Time in Perception and Action: Object updating: a force for perceptual continuity and scene stability in human vision , 2010 .

[40]  T. Bachmann,et al.  Priming and retouch in flash-lag and other phenomena of the streaming perceptual input , 2010 .

[41]  M. Kinsbourne :Experimental Phenomena of Consciousness: A Brief Dictionary , 2008 .

[42]  Romi Nijhawan,et al.  Conscious registration of continuous and discrete visual events , 2000 .

[43]  P. Cavanagh,et al.  Illusory spatial offset of a flash relative to a moving stimulus is caused by differential latencies for moving and flashed stimuli , 2000, Vision Research.