@article{6085,
  abstract     = {{In three experiments, we tested whether sequentially coding two visual stimuli can create a spatial misperception of a visual moving stimulus. In Experiment 1, we showed that a spatial misperception, the flash-lag effect, is accompanied by a similar temporal misperception of first perceiving the flash and only then a change of the moving stimulus, when in fact the two events were exactly simultaneous. In Experiment 2, we demonstrated that when the spatial misperception of a flash-lag effect is absent, the temporal misperception is also absent. In Experiment 3, we extended these findings and showed that if the stimulus conditions require coding first a flash and subsequently a nearby moving stimulus, a spatial flash-lag effect is found, with the position of the moving stimulus being misperceived as shifted in the direction of its motion, whereas this spatial misperception is reversed so that the moving stimulus is misperceived as shifted in a direction opposite to its motion when the c}},
  author       = {{Priess, Heinz-Werner and Scharlau, Ingrid and Becker, Stefanie I. and Ansorge, Ulrich}},
  issn         = {{1943-3921}},
  journal      = {{Attention, Perception, & Psychophysics}},
  keywords     = {{spatial mislocalization, sequential coding, stimulus parameters, Attention, Discrimination (Psychology), Humans, Judgment, Motion Perception, Optical Illusions, Orientation, Pattern Recognition, Visual, Psychophysics, Space Perception, Cognitive Processes, Motion Perception, Perceptual Localization, Spatial Perception, Stimulus Parameters, Consequence}},
  number       = {{2}},
  pages        = {{365 -- 378}},
  title        = {{{Spatial mislocalization as a consequence of sequential coding of stimuli.}}},
  volume       = {{74}},
  year         = {{2012}},
}

@article{6087,
  abstract     = {{Visual backward masking is frequently used to study the temporal dynamics of visual perception. These dynamics may include the temporal features of conscious percepts, as suggested, for instance, by the asynchronous-updating model (Neumann, 1982) and perceptual-retouch theory (Bachmann, 1994). These models predict that the perceptual latency of a visual backward mask is shorter than that of a like reference stimulus that was not preceded by a masked stimulus. The prediction has been confirmed by studies using temporal-order judgments: For certain asynchronies between mask and reference stimulus, temporal-order reversals are quite frequent (e.g. Scharlau, & Neumann, 2003a). However, it may be argued that these reversals were due to a response bias in favour of the mask rather than true temporal-perceptual effects. I introduce two measures for assessing latency effects that (1) are not prone to such a response bias, (2) allow to quantify the latency gain, and (3) extend the perceptual e}},
  author       = {{Scharlau, Ingrid}},
  issn         = {{1895-1171}},
  journal      = {{Advances in Cognitive Psychology}},
  keywords     = {{temporal processes, prime mask interaction, perceptual consequences, masked information, visual backward masking, visual perception, Temporal Lobe, Visual Masking, Visual Perception, Consequence}},
  number       = {{1-2}},
  pages        = {{241 -- 255}},
  title        = {{{Temporal processes in prime-mask interaction: Assessing perceptual consequences of masked information.}}},
  volume       = {{3}},
  year         = {{2007}},
}