Visuomotor characterization of eye movements in a drawing task

[1]  Vision Research , 1961, Nature.

[2]  Vladimir I. Levenshtein,et al.  Binary codes capable of correcting deletions, insertions, and reversals , 1965 .

[3]  George W. McConkie,et al.  Eye movements and human information processing , 1985 .

[4]  S R Ellis,et al.  Statistical Dependency in Visual Scanning , 1986, Human factors.

[5]  G. Rizzolatti,et al.  Reorienting attention across the horizontal and vertical meridians: Evidence in favor of a premotor theory of attention , 1987, Neuropsychologia.

[6]  Lawrence R. Rabiner,et al.  A tutorial on hidden Markov models and selected applications in speech recognition , 1989, Proc. IEEE.

[7]  Thomas M. Cover,et al.  Elements of Information Theory , 2005 .

[8]  Michael F. Land,et al.  Predictable eye-head coordination during driving , 1992, Nature.

[9]  D H Ballard,et al.  Hand-eye coordination during sequential tasks. , 1992, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.

[10]  Lawrence W. Stark,et al.  Visual perception and sequences of eye movement fixations: a stochastic modeling approach , 1992, IEEE Trans. Syst. Man Cybern..

[11]  G. Rizzolatti,et al.  Space and selective attention , 1994 .

[12]  R. Desimone,et al.  Neural mechanisms of selective visual attention. , 1995, Annual review of neuroscience.

[13]  T. Flash,et al.  Minimum-jerk, two-thirds power law, and isochrony: converging approaches to movement planning. , 1995, Journal of experimental psychology. Human perception and performance.

[14]  Yoshua Bengio,et al.  Input-output HMMs for sequence processing , 1996, IEEE Trans. Neural Networks.

[15]  G. Rizzolatti,et al.  Effects of spatial attention on directional manual and ocular responses , 1997, Experimental Brain Research.

[16]  R. Walker,et al.  A model of saccade generation based on parallel processing and competitive inhibition , 1999, Behavioral and Brain Sciences.

[17]  H. Bekkering,et al.  Ocular gaze is anchored to the target of an ongoing pointing movement. , 2000, Journal of neurophysiology.

[18]  Claudio M. Privitera,et al.  Algorithms for Defining Visual Regions-of-Interest: Comparison with Eye Fixations , 2000, IEEE Trans. Pattern Anal. Mach. Intell..

[19]  M. Hayhoe,et al.  The coordination of eye, head, and hand movements in a natural task , 2001, Experimental Brain Research.

[20]  C. Koch,et al.  Computational modelling of visual attention , 2001, Nature Reviews Neuroscience.

[21]  R. Johansson,et al.  Eye–Hand Coordination in Object Manipulation , 2001, The Journal of Neuroscience.

[22]  Refractor Vision , 2000, The Lancet.

[23]  B. Scholl Objects and attention: the state of the art , 2001, Cognition.

[24]  Stuart J. Russell,et al.  Dynamic bayesian networks: representation, inference and learning , 2002 .

[25]  D. S. Wooding,et al.  Fixation maps: quantifying eye-movement traces , 2002, ETRA.

[26]  Derrick J. Parkhurst,et al.  Modeling the role of salience in the allocation of overt visual attention , 2002, Vision Research.

[27]  Laura Dempere-Marco,et al.  Eye movement and voluntary control in portrait drawing , 2003 .

[28]  Tai Sing Lee,et al.  Hierarchical Bayesian inference in the visual cortex. , 2003, Journal of the Optical Society of America. A, Optics, image science, and vision.

[29]  Stefano Soatto,et al.  Deformotion: Deforming Motion, Shape Average and the Joint Registration and Approximation of Structures in Images , 2003, International Journal of Computer Vision.

[30]  Giuseppe Boccignone,et al.  Modelling gaze shift as a constrained random walk , 2004 .

[31]  Christopher M. Brown,et al.  Controlling eye movements with hidden Markov models , 2004, International Journal of Computer Vision.

[32]  Antonio Torralba,et al.  Contextual Priming for Object Detection , 2003, International Journal of Computer Vision.

[33]  D. Ballard,et al.  Eye movements in natural behavior , 2005, Trends in Cognitive Sciences.

[34]  Alan C Bovik,et al.  Contrast statistics for foveated visual systems: fixation selection by minimizing contrast entropy. , 2005, Journal of the Optical Society of America. A, Optics, image science, and vision.

[35]  Dale J. Cohen,et al.  Look little, look often: The influence of gaze frequency on drawing accuracy , 2005, Perception & psychophysics.

[36]  Mary M Hayhoe,et al.  Spatial memory and saccadic targeting in a natural task. , 2005, Journal of vision.

[37]  H. Basford,et al.  Optimal eye movement strategies in visual search , 2005 .

[38]  Terry C. Lansdown,et al.  The mind's eye: cognitive and applied aspects of eye movement research , 2005 .

[39]  Konrad Paul Kording,et al.  Review TRENDS in Cognitive Sciences Vol.10 No.7 July 2006 Special Issue: Probabilistic models of cognition Bayesian decision theory in sensorimotor control , 2022 .

[40]  J. Tenenbaum,et al.  Probabilistic models of cognition: where next? , 2006, Trends in Cognitive Sciences.

[41]  M. Land Eye movements and the control of actions in everyday life , 2006, Progress in Retinal and Eye Research.

[42]  Gary Feng,et al.  Eye movements as time-series random variables: A stochastic model of eye movement control in reading , 2006, Cognitive Systems Research.

[43]  Emma Gowen,et al.  Eye-hand interactions in tracing and drawing tasks. , 2006, Human movement science.

[44]  Antonio Torralba,et al.  Contextual guidance of eye movements and attention in real-world scenes: the role of global features in object search. , 2006, Psychological review.

[45]  L. Itti Quantitative modelling of perceptual salience at human eye position , 2006 .

[46]  Laurent Itti,et al.  The role of memory in guiding attention during natural vision. , 2006, Journal of vision.

[47]  Xin Chen,et al.  Real-world visual search is dominated by top-down guidance , 2006, Vision Research.

[48]  Preeti Verghese,et al.  Where to look next? Eye movements reduce local uncertainty. , 2007, Journal of vision.

[49]  Garrison W. Cottrell,et al.  A probabilistic model of eye movements in concept formation , 2007, Neurocomputing.

[50]  Radford M. Neal Pattern Recognition and Machine Learning , 2007, Technometrics.

[51]  Paolo Napoletano,et al.  The Bayesian Draughtsman: A Model for Visuomotor Coordination in Drawing , 2007, BVAI.

[52]  Derek H. Arnold,et al.  Staying focused: a functional account of perceptual suppression during binocular rivalry. , 2007, Journal of vision.

[53]  D. Knill,et al.  The role of memory in visually guided reaching. , 2007, Journal of vision.

[54]  Jason A. Droll,et al.  Learning where to direct gaze during change detection. , 2007, Journal of vision.

[55]  J. Tchalenko,et al.  Eye Movements in Drawing Simple Lines , 2007, Perception.

[56]  Mary M Hayhoe,et al.  Task and context determine where you look. , 2016, Journal of vision.

[57]  Julia Trommershäuser,et al.  Eye movements during rapid pointing under risk , 2007, Vision Research.

[58]  F. Hamker,et al.  About the influence of post-saccadic mechanisms for visual stability on peri-saccadic compression of object location. , 2008, Journal of vision.

[59]  Paolo Napoletano,et al.  What the Draughtsman's Hand Tells the Draughtsman's Eye: a Sensorimotor Account of Drawing , 2008, Int. J. Pattern Recognit. Artif. Intell..

[60]  Jiri Najemnik,et al.  Eye movement statistics in humans are consistent with an optimal search strategy. , 2008, Journal of vision.

[61]  C. Koch,et al.  Task-demands can immediately reverse the effects of sensory-driven saliency in complex visual stimuli. , 2008, Journal of vision.

[62]  T. Foulsham,et al.  What can saliency models predict about eye movements? Spatial and sequential aspects of fixations during encoding and recognition. , 2008, Journal of vision.

[63]  J. Tchalenko,et al.  Eye–hand strategies in copying complex lines , 2009, Cortex.

[64]  Pierre Baldi,et al.  Bayesian surprise attracts human attention , 2005, Vision Research.

[65]  Michael W. Levine,et al.  More ups and downs of visual processing , 2010 .

[66]  Keith A. Schneider,et al.  Interhemispheric suppression: The case of the missing vertical meridian , 2010 .