List of contributors; 1. Space and time: the fabric of thought and reality Beena Khurana and Romi Nijhawan; Part I. Time-space During Action: Perisaccadic Mislocalization and Reaching: 2. The internal eye position signal, psychophysics and neurobiology John Schlag and Madeleine Schlag-Rey; 3. Factors influencing perisaccadic visual mislocalization Hitoshi Honda; 4. Visual and non-visual factors in peri saccadic compression of space Markus Lappe, Lars Michels and Holger Awater; 5. Keeping vision stable: rapid updating of spatiotopic receptive fields may cause relativistic-like effects M. Concetta Morrone, John Ross and David C. Burr; 6. Combined influences of extraretinal signals, retinal signals, and visual induction on space perception and manual behavior in perisaccadic and steady viewing Leonard Matin and Wenxun Li; 7. Space constancy: the rise and fall of perceptual compensation Bruce Bridgeman; 8. Intercepting moving objects: do eye-movements matter? Eli Brenner and Jeroen B. J. Smeets; 9. The utility of visual motion for goal directed reaching David Whitney, Ikuya Murakami and Hiroaki Gomi; Part II. Temporal Phenomena: Perception: 10. Saccadic chronostasis and the continuity of subjective temporal experience across eye movements Kielan Yarrow, Patrick Haggard and John C. Rothwell; 11. Experiencing the future: the influence of self-initiation on temporal perception Timothy Verstynen, Michael Oliver and Richard B. Ivry; 12. On the perceived interdependence of space and time: evidence for spatial priming in the temporal kappa effect Gisa Aschersleben and Jochen Müsseler; Part III. Temporal Phenomena: Binding and Asynchrony: 13. Dynamics of visual feature binding Colin W. G. Clifford; 14. How does the timing of neural signals map onto the timing of perception? David M. Eagleman; 15. Mechanisms of simultaneity constancy Laurence Harris, Vanessa Harrar, Philip Jaekl and Agnieszka Kopinska; 16. Relative timing and perceptual asynchrony Derek H. Arnold; 17. The time marker account of cross-channel temporal judgments Shin'ya Nishida and Alan Johnston; 18. Simultaneity versus asynchrony of visual motion and luminance changes Martin J. M. Lankheet and Wim A. van de Grind; Part IV. Spatial Phenomena: Forward Shift Effects: 19. The Fröhlich effect: past and present Dirk Kerzel; 20. Approaches to representational momentum: theories and models Timothy L. Hubbard; 21. Conceptual influence on flash-lag effect and representational momentum Masayoshi Nagai, Mutsumi Suganuma, Romi Nijhawan, Jennifer J. Freyd, Geoffrey Miller and Katsumi Watanabe; 22. Perceptual asynchronies and the dual-channel differential latency hypothesis H. Kafaligönül, S. S. Patel, H. Öğmen, H. E. Bedell and G. Purushothaman; 23. Paying attention to the flash-lag effect Marcus V. C. Baldo and Stanley A. Klein; 24. Illusions of time, space and motion: flash-lag meets chopsticks and reversed phi Stuart Anstis; 25. Bridging the gap: a model of common neural mechanisms underlying the Fröhlich effect, the flash-lag effect, and the representational momentum effect Dirk Jancke and Wolfram Erlhagen; 26. Perceiving-the-present and a unifying theory of illusions Mark A. Changizi, Andrew Hsieh, Romi Nijhawan, Ryoto Kanai and Shinsuke Shimojo; 27. History and theory of flash-lag: past, present and future Gerrit Maus, Beena Khurana and Romi Nijhawan; Part V. Space-time and Awareness: 28. Object updating: a force for perceptual continuity and scene stability in human vision James T. Enns, Alejandro Lleras and Cathleen M. Moore; 29. A motion illusion reveals the temporally discrete nature of visual awareness Rufin VanRullen, Leila Reddy and Christof Koch; 30. Priming and retouch in flash-lag and other phenomena of the streaming perceptual input Talis Bachmann; Index.
List of contributors; 1. Space and time: the fabric of thought and reality Beena Khurana and Romi Nijhawan; Part I. Time-space During Action: Perisaccadic Mislocalization and Reaching: 2. The internal eye position signal, psychophysics and neurobiology John Schlag and Madeleine Schlag-Rey; 3. Factors influencing perisaccadic visual mislocalization Hitoshi Honda; 4. Visual and non-visual factors in peri saccadic compression of space Markus Lappe, Lars Michels and Holger Awater; 5. Keeping vision stable: rapid updating of spatiotopic receptive fields may cause relativistic-like effects M. Concetta Morrone, John Ross and David C. Burr; 6. Combined influences of extraretinal signals, retinal signals, and visual induction on space perception and manual behavior in perisaccadic and steady viewing Leonard Matin and Wenxun Li; 7. Space constancy: the rise and fall of perceptual compensation Bruce Bridgeman; 8. Intercepting moving objects: do eye-movements matter? Eli Brenner and Jeroen B. J. Smeets; 9. The utility of visual motion for goal directed reaching David Whitney, Ikuya Murakami and Hiroaki Gomi; Part II. Temporal Phenomena: Perception: 10. Saccadic chronostasis and the continuity of subjective temporal experience across eye movements Kielan Yarrow, Patrick Haggard and John C. Rothwell; 11. Experiencing the future: the influence of self-initiation on temporal perception Timothy Verstynen, Michael Oliver and Richard B. Ivry; 12. On the perceived interdependence of space and time: evidence for spatial priming in the temporal kappa effect Gisa Aschersleben and Jochen Musseler; Part III. Temporal Phenomena: Binding and Asynchrony: 13. Dynamics of visual feature binding Colin W. G. Clifford; 14. How does the timing of neural signals map onto the timing of perception? David M. Eagleman; 15. Mechanisms of simultaneity constancy Laurence Harris, Vanessa Harrar, Philip Jaekl and Agnieszka Kopinska; 16. Relative timing and perceptual asynchrony Derek H. Arnold; 17. The time marker account of cross-channel temporal judgments Shin'ya Nishida and Alan Johnston; 18. Simultaneity versus asynchrony of visual motion and luminance changes Martin J. M. Lankheet and Wim A. van de Grind; Part IV. Spatial Phenomena: Forward Shift Effects: 19. The Frohlich effect: past and present Dirk Kerzel; 20. Approaches to representational momentum: theories and models Timothy L. Hubbard; 21. Conceptual influence on flash-lag effect and representational momentum Masayoshi Nagai, Mutsumi Suganuma, Romi Nijhawan, Jennifer J. Freyd, Geoffrey Miller and Katsumi Watanabe; 22. Perceptual asynchronies and the dual-channel differential latency hypothesis H. Kafaligonul, S. S. Patel, H. O men, H. E. Bedell and G. Purushothaman; 23. Paying attention to the flash-lag effect Marcus V. C. Baldo and Stanley A. Klein; 24. Illusions of time, space and motion: flash-lag meets chopsticks and reversed phi Stuart Anstis; 25. Bridging the gap: a model of common neural mechanisms underlying the Frohlich effect, the flash-lag effect, and the representational momentum effect Dirk Jancke and Wolfram Erlhagen; 26. Perceiving-the-present and a unifying theory of illusions Mark A. Changizi, Andrew Hsieh, Romi Nijhawan, Ryoto Kanai and Shinsuke Shimojo; 27. History and theory of flash-lag: past, present and future Gerrit Maus, Beena Khurana and Romi Nijhawan; Part V. Space-time and Awareness: 28. Object updating: a force for perceptual continuity and scene stability in human vision James T. Enns, Alejandro Lleras and Cathleen M. Moore; 29. A motion illusion reveals the temporally discrete nature of visual awareness Rufin VanRullen, Leila Reddy and Christof Koch; 30. Priming and retouch in flash-lag and other phenomena of the streaming perceptual input Talis Bachmann; Index.
Brings together cutting edge experiments and theoretical treatments regarding space, time and motion in visual neuroscience and psychophysics.
Romi Nijhawan is a Reader in Psychology at the University of Sussex, UK. In 1994 he introduced the phenomenon and the term 'flash-lag effect'. He continues to study its implications for the interaction of the animal with the environment. Beena Khurana is a Senior Lecturer in Psychology at the University of Sussex, UK. She is committed to the effective communication of science and has been honoured with a Lilly Teaching Fellowship at Cornell University and an Associated Students of CalTech Teaching Award at the California Institute of Technology.
"... the book may serve as a useful introduction for those
interested in this area. Although hardly easy reading, motivated
readers will find rich food for thought.
Peter Skorupski, The Quarterly Review of Biology
Ask a Question About this Product More... |