Afantáziások az iskolában


Albers, A. M., Kok, P., Toni, I., Dijkerman, H. C. és de Lange, F. P. (2013): Shared representations for working memory and mental imagery in early visual cortex. Current Biology, 23. 15. sz., 1427–1431.

Amit, E. és Greene, J. D. (2012): You see, the ends don’t justify the means visual imagery and moral judgement. Psychological science, 23. 8. sz., 861–868.

Amit, E., Hoeflin, C., Hamzah, N. és Fedorenko, E. (2017): An asymmetrical relationship between verbal and visual thinking: Converging evidence from behavior and fMRI. NeuroImage. 152. sz, 619–627.

Aydin, C. (2018): The differential contributions of visual imagery constructs on autobiographical thinking. Memory26. 2. sz., 189–200.

Bergmann, J., Genç, E., Kohler, A., Singer, W. és Pearson, J. (2016): Smaller primary visual cortex is associated with stronger, but less precise mental imagery. Cerebral cortex, 26. 9. sz., 3838–3850.

Bhattacharya, J., Petsche, H., Feldmann, U. és Rescher, B. (2001): EEG gamma-band phase synchronization between posterior and frontal cortex during mental rotation in humans. Neuroscience letters, 311(1), 29–32.

Blazhenkova, O. és Kozhevnikov, M. (2009): The new object‐spatial‐verbal cognitive style model: Theory and measurement. Applied cognitive psychology, 23. 5. sz., 638–663.

Blazhenkova, O., Becker, M. és Kozhevnikov, M. (2011): Object–spatial imagery and verbal cognitive styles in children and adolescents: Developmental trajectories in relation to ability. Learning and Individual Differences, 21. 3. sz., 281–287.

Blazhenkova, O. (2016): Vividness of object and spatial imagery. Perceptual and Motor Skills, 122. sz., 490–508.

Brain, R. (1954): Loss of visualization. Proceedings of the Royal Society of Medicine, 47. sz., 288–290.

Brosch, R. (2018): What we ‘see’ when we read: Visualization and vividness in reading fictional narratives. Cortex, 105. sz., 135–143.

Catmull, E. (2019a) In Gallagher, J.: Aphantasia: Ex-Pixar Chief Ed Catmull says „my mind’s eye is blind”.
Letöltés: (2019. 09. 23.)

Catmull, E. (2019b) In Lavelle, D.: Aphantasia: why a Disney animator draws a blank on his own creations. Letöltés: (2019. 09. 23.)

Crowder, A. (2018): Differences in Spatial Visualization Ability and Vividness of Spatial Imagery Between People with and without Aphantasia. Letöltés: (2019.09.23.)

Farah, M. J., Weisberg, L. L., Monheit, M., és Peronnet, F. (1989): Brain activity underlying mental imagery: event-related potentials during mental image generation. Journal of Cognitive Neuroscience, 1. 4. sz., 302–316.

Faw, B. (2009): Conflicting intuitions may be based on differing abilities: Evidence from mental imaging research. Journal of Consciousness Studies, 16. 4. sz., 45–68.

Gaesser, B., Keeler, K., és Young, L. (2018): Moral imagination: Facilitating prosocial decision-making through scene imagery and theory of mind. Cognition. 171. sz.,, 180–193.

Galton, F. (1880): I. Statistics of mental imagery. Mind, 19., 301–318.

Greenberg, D. L. és Knowlton, B. J. (2014): The role of visual imagery in autobiographical memory. Memory
& cognition
, 42. 6. sz., 922–934.

Grinnell, D. (2016): Blind in the mind. New Scientist230. 3070. sz., 34–37.

Hendy, B. (2019): Aphantasic Artists / Writers. In: Valle Walkley (conc.): Extreme Imagination – Exhibition Catalogue Exeter, College of Medicine and Health, 2019.

Horikawa, T., Tamaki, M., Miyawaki, Y. és Kamitani, Y. (2013): Neural decoding of visual imagery during sleep. Science, 340. 6132. sz., 639–642.

Horikawa, T. és Kamitani, Y. (2017): Hierarchical neural representation of dreamed objects revealed by brain decoding with deep neural network features. Frontiers in computational neuroscience, 11., 4. sz.

Höffler, T. N., Koć‐Januchta, M. és Leutner, D. (2017): More Evidence for Three Types of Cognitive Style: Validating the Object‐Spatial Imagery and Verbal Questionnaire Using Eye Tracking when Learning with Texts and Pictures. Applied cognitive psychology, 31, 1. sz., 109–115.

Huxley, A. (1954): Az észlelés kapui. Letöltés: (2019. 03. 14.)

Imbir, K. K. (2016): From heart to mind and back again. A duality of emotion overview on emotion-cognition interactions. New Ideas in Psychology, 43. 39–49.

Jacobs, C., Schwarzkopf, D. S. és Silvanto, J. (2017): Visual working memory performance in aphantasia.
Cortex. 105. sz.

Kendle, Alan (2017): Aphantasia: Experiences, Perceptions, and Insights. Oakamoor, UK. Bennion Kearny.

Keogh, R. és Pearson, J. (2018): The blind mind: No sensory visual imagery in aphantasia. Cortex, 105. sz., 53–60.

Koć-Januchta, M., Höffler, T., Thoma, G. B., Prechtl, H. és Leutner, D. (2017): Visualizers versus verbalizers: Effects of cognitive style on learning with texts and pictures – An eye-tracking study. Computers in Human Behavior. 68. sz., 170–179.

LaBerge, S., Baird, B. és Zimbardo, P. G. (2018): Smooth tracking of visual targets distinguishes lucid REM sleep dreaming and waking perception from imagination. Nature communications, 9. 1. sz., 3298.

Logie, R. H., Pernet, C. R., Buonocore, A. és Della Sala, S. (2011): Low and high imagers activate networks differentially in mental rotation. Neuropsychologia, 49. 11. sz., 3071–3077.

MacKisack, M. (2017): Painter and Scribe: from model of mind to cognitive strategy. Cortex, 105. sz.

Mullally, S. L. és Maguire, E. A. (2014). Memory, imagination, and predicting the future: a common brain mechanism? The Neuroscientist, 20. 3. sz., 220–234.

Naselaris, T., Olman, C. A., Stansbury, D. E., Ugurbil, K. és Gallant, J. L. (2015): A voxel-wise encoding model for early visual areas decodes mental images of remembered scenes. Neuroimage, 105. sz., 215–228.

Onians, J. (2019) Extreme Imagination and the Emotions: Examples from the Middle East and the United States. In Extreme Imagination – Exhibition Catalog Exeter, College of Medicine and Health, 2019.

Paivio, A. (1990): Mental representations: A dual coding approach. Oxford University Press, Oxford.

Palombo, D. J., Sheldon, S. és Levine, B. (2018): Individual differences in autobiographical memory. Trends in cognitive sciences, 22. 7. sz.

Pan, F., Xue, S. és Qiu, J. (2016): Electrophysiological Correlates of Successful Visual Mental Imagery. International Journal of Psychology and Behavioral Sciences, 6. 3. sz., 148–154.

Pearson, J. (2014): New directions in mental-imagery research: the binocular-rivalry technique and decoding fMRI patterns. Current Directions in Psychological Science, 23. 3. sz., 178–183.

Pearson, J. (2016): Mind Control – Measuring and Manipulating the Strength of the Imagination
Letöltés: (2019. 09. 23.)

Pearson, J. (2019). The human imagination: the cognitive neuroscience of visual mental imagery. Nature Reviews Neuroscience, 20. 10. sz., 624–634.

Pearson, J. és Brascamp, J. (2008a): Sensory memory for ambiguous vision. Trends in cognitive sciences, 12.
9. sz., 334–341.

Pearson, J., Clifford, C. W. és Tong, F. (2008b). The functional impact of mental imagery on conscious perception. Current Biology, 18. 13. sz., 982–986.

Pearson, J., és Kosslyn, S. M. (2015a): The heterogeneity of mental representation: ending the imagery debate. Proceedings of the National Academy of Sciences, 112. 33. sz., 10089–10092.

Pearson, J., Naselaris, T., Holmes, E. A. és Kosslyn, S. M. (2015b). Mental imagery: functional mechanisms and clinical applications. Trends in cognitive sciences, 19. 10. sz., 590–602.

Rademaker, R. L. és Pearson, J. (2012). Training visual imagery: Improvements of metacognition, but not imagery strength. Frontiers in psychology, 2012.07.10.

Ross, B. (2016): Aphantasia: How It Feels to Be Blind in Your Mind. Letöltés:

Sheldon, S. és El-Asmar, N. (2017a): The cognitive tools that support mentally constructing event and scene representations. Memory, 26. 6. sz., 858–868.

Sheldon, S., Amaral, R. és Levine, B. (2017b): Individual differences in visual imagery determine how event information is remembered. Memory, 25. 3. sz., 360–369.

Vannucci, M., Pelagatti, C., Chiorri, C., és Mazzoni, G. (2016): Visual object imagery and autobiographical memory: Object Imagers are better at remembering their personal past. Memory, 24. 4. sz., 455–470.

Västfjäll, D. és Slovic, P. (2013): Cognition and emotion in judgment and decision making. In: Robinson, M. D., Watkins, E. R., és Harmon-Jones, E. (szerk.): Handbook of cognition and emotion, The Guilford Press, New York–London. 252–272.

Villena-González, M., López, V. és Rodríguez, E. (2016): Orienting attention to visual or verbal/auditory imagery differentially impairs the processing of visual stimuli. Neuroimage, 132. sz, 71–78.

Watkins, N. W. (2018): (A)phantasia and severely deficient autobiographical memory: Scientific and personal perspectives. Cortex. 105. sz., 41–52.

Wicken, M., Keogh, R., & Pearson, J. (2019). The critical role of mental imagery in human emotion: insights from Aphantasia. bioRxiv, 2019.08.06. Letöltés: (2019. 10. 03.)

Young, A. W. és van de Wal, C. (1996): Charcot’s case of impaired imagery. In: Code, C., Wallesch, C. W., Joanette, Y., & Lecours, A. R. (szerk..): Classic cases in neuropsychology. Psychology Press, Hove (UK). 31–44.

Zeman, A. (2019a) The eye’s mind – The story of aphantasia. Letöltés: (2019. 03. 14.)

Zeman, A. (2019b) Phantasia: the (re)discovery and exploration of imagery extremes. In: Valle Walkley (conc.): Extreme Imagination – Exhibition Catalogue Exeter, College of Medicine and Health, 2019.

Zeman, A., Dewar, M. és Della Sala, S. (2015): Lives without imagery – Congenital aphantasia. Cortex, 73. sz., 378–380.

Zeman, A. Z., Della Sala, S., Torrens, L. A., Gountouna, V. E., McGonigle, D. J. és Logie, R. H. (2010): Loss of imagery phenomenology with intact visuo-spatial task performance: A case of ‘blind imagination’. Neuropsychologia, 48. 1. sz., 145–155.

Zeman, A., MacKisack, M. és Onians, J. (2018): The Eye’s mind e Visual imagination, neuroscience and the humanities. Cortex, 105. sz. Letöltés: (2019. 03. 14.)