Computational Approaches to Reading and Scene Perception
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Computational Approaches to Reading and Scene Perception
Henderson, John
Taylor & Francis Ltd
10/2024
260
Mole
9781032924496
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1. Introduction: Computational Approaches to Reading and Scene Perception John M. Henderson 2. Eye movements in reading versus non-reading tasks: Using E-Z Reader to understand the role of word/stimulus familiarity Erik D. Reichle, Keith Rayner and Alexander Pollatsek 3. The zoom lens of attention: Simulating shuffled versus normal text reading using the SWIFT model Daniel J. Schad and Ralf Engbert 4. The utility of modelling word identification from visual input within models of eye movements in reading Klinton Bicknell and Roger Levy 5. Using CRISP to model global characteristics of fixation durations in scene viewing and reading with a common mechanism Antje Nuthmann and John M. Henderson 6. Eye movement prediction and variability on natural video data sets Michael Dorr, Eleonora Vig and Erhardt Barth 7. TAM: Explaining off-object fixations and central fixation tendencies as effects of population averaging during search Gregory J. Zelinsky 8. Modelling the influence of central and peripheral information on saccade biases in gaze-contingent scene viewing Tom Foulsham and Alan Kingstone 9. Influence of the amount of context learned for improving object classification when simultaneously learning object and contextual cues Sophie Marat and Laurent Itti
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Fixation Durations;Visual Cognition;Swift Model;Eye Movements;Eye Movement Control;Saccade Program;Saccade Target;Scene Perception;Saccade Timer;Word N1;Scene Viewing;Data Sets;Familiarity Check;Saliency Map;Lexical Processing;Refixation Probabilities;Horizontal Saccades;Saccadic Inhibition;Onset Delay;Gaze Samples;Nonreading Tasks;Saccade Direction;Foveal Load;Visual Cognitive Tasks;Gaze Contingent Window;Optimal Viewing Position
1. Introduction: Computational Approaches to Reading and Scene Perception John M. Henderson 2. Eye movements in reading versus non-reading tasks: Using E-Z Reader to understand the role of word/stimulus familiarity Erik D. Reichle, Keith Rayner and Alexander Pollatsek 3. The zoom lens of attention: Simulating shuffled versus normal text reading using the SWIFT model Daniel J. Schad and Ralf Engbert 4. The utility of modelling word identification from visual input within models of eye movements in reading Klinton Bicknell and Roger Levy 5. Using CRISP to model global characteristics of fixation durations in scene viewing and reading with a common mechanism Antje Nuthmann and John M. Henderson 6. Eye movement prediction and variability on natural video data sets Michael Dorr, Eleonora Vig and Erhardt Barth 7. TAM: Explaining off-object fixations and central fixation tendencies as effects of population averaging during search Gregory J. Zelinsky 8. Modelling the influence of central and peripheral information on saccade biases in gaze-contingent scene viewing Tom Foulsham and Alan Kingstone 9. Influence of the amount of context learned for improving object classification when simultaneously learning object and contextual cues Sophie Marat and Laurent Itti
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Fixation Durations;Visual Cognition;Swift Model;Eye Movements;Eye Movement Control;Saccade Program;Saccade Target;Scene Perception;Saccade Timer;Word N1;Scene Viewing;Data Sets;Familiarity Check;Saliency Map;Lexical Processing;Refixation Probabilities;Horizontal Saccades;Saccadic Inhibition;Onset Delay;Gaze Samples;Nonreading Tasks;Saccade Direction;Foveal Load;Visual Cognitive Tasks;Gaze Contingent Window;Optimal Viewing Position
