{"id":40,"date":"2019-11-25T12:48:58","date_gmt":"2019-11-25T12:48:58","guid":{"rendered":"https:\/\/cortical.bilkent.edu.tr\/?page_id=40"},"modified":"2025-11-26T21:08:34","modified_gmt":"2025-11-26T21:08:34","slug":"publications","status":"publish","type":"page","link":"https:\/\/cortical.bilkent.edu.tr\/index.php\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\n<div style=\"height:32px\" aria-hidden=\"true\" class=\"wp-block-spacer\"><\/div>\n\n\n\n<h2>Journal&nbsp;Articles<\/h2>\n\n\n\n<ul>\n<li style=\"font-size:16px\">Ozkan, S., Yilmaz, S.K., Kafaligonul, H. (in progress). When you hear faster, you see faster: the timing of footstep sounds influences biological motion perception.  <em> <\/em>. \n\t <br><\/li>\n<li style=\"font-size:16px\">Akdogan, I., Ogmen, H., Kafaligonul, H. (in progress). Mapping the oscillatory representations of visibility and attention via EEG-based machine learning. <em> <\/em>. \n\t <br><\/li>\n<li style=\"font-size:16px\">Uner, S., Yilmaz S.K., Akdogan, I., Pavan, A., Kafaligonul, H. (in progress). The neural mechanisms underlying perceptual learning with transcranial random noise stimulation: a perceptual template approach. <em> <\/em> \n\t <br><\/li>\n\n<li style=\"font-size:16px\">Uner, S., Akdogan, I., Pavan, A., Kafaligonul, H. (2025). The hidden benefits of noise: low frequency tRNS and dynamic visual noise enhance visual processing. <em>Journal of Neuroscience<\/em>, 45(48), e0853252025. \n\t <br><\/li>\n<li style=\"font-size:16px\">Akdogan, I., Aydin, S., Kafaligonul, H. (2025). Dynamic reorganization of functional networks underlying audiovisual interactions. <em>Scientific Reports<\/em>, 15: 39658. \n\t <br><\/li>\n<li style=\"font-size:16px\">Turker, A., Ogmen, H., Kafaligonul, H. (2025). Cortical dynamics underlying perceived visibility: an ERP investigation of forward masking. <em>European Journal of Neuroscience,<\/em> 62(8), e70284. \n\t <br><\/li>\n<li style=\"font-size:16px\">Yildirim-Keles, F.Z., Demirayak, P., Kafaligonul, H. (2025). Functional and structural plasticity induced by audiovisual associations and sensory experiences. <em>Brain Structure and Function<\/em>, 230: 89.\n\t <br><\/li>\n\n<li style=\"font-size:16px\">Pavan, A., Yilmaz, S.K., Kafaligonul, H., F\u00f6cker, J., Greenlee, M.W. (2025). Visual short-term memory in action and non-action video game players: a focus on short and long delay intervals. <em>Attention, Perception and Psychophysics<\/em>, 87, 1915\u20131938. <br><\/li>\n\n<li style=\"font-size:16px\">Catak, E.N., Ogmen, H., Kafaligonul, H. (2024). Attentional load leads to distinct changes in early and late cortical processing of target visibility under visual masking. <em> Consciousness and Cognition,<\/em> 125, 103760<br><\/li>\n<li style=\"font-size:16px\">Akdogan, I., Ogmen, H., Kafaligonul, H. (2024). The phase coherence of cortical oscillations predicts dynamic changes in perceived visibility. <em> Cerebral Cortex,<\/em> 34(9), bhae380.<br><\/li>\n<li style=\"font-size:16px\">Yilmaz, S.K., Kafaligonul, H. (2024). Attentional demands in the visual field modulate audiovisual interactions in the temporal domain. <em> Human Brain Mapping,<\/em> 45(12), e70009.<br><\/li>\n<li style=\"font-size:16px\">Karaduman, A., Karoglu-Eravsar, E.T., Adams, M.M., Kafaligonul, H. (2024). Passive exposure to visual motion leads to short-term changes in the optomotor response of aging zebrafish. <em> Behavioural Brain Research,<\/em> 460, 114812. <br><\/li>\n<li style=\"font-size:16px\"> Karoglu-Eravsar E.T., Tuz-Sasik M.U., Karaduman A., Keskus A.G., Konu O., Kafaligonul H., Adams M.M. (2023). Long-term acetylcholinesterase depletion alters the levels of key synaptic proteins while maintaining neuronal markers in the aging zebrafish (danio rerio) brain. <em>Gerontology,<\/em> 69, 1424-1436. <br><\/li>\n\t<li style=\"font-size:16px\">Karaduman, A., Karoglu-Eravsar, E.T., Kaya, U., Aydin, A., Adams, M.M.,\nKafaligonul, H. (2023). Zebrafish optomotor response to second-order motion illustrates that age-related changes in motion detection depend on the activated motion system. <em>Neurobiology of Aging,<\/em> 130, 12-21. <br><\/li>\n\t<li style=\"font-size:16px\">Pavan, A., Contillo, A., Koc Yilmaz, S, Kafaligonul, H., Donato, R., O&#8217;Hare, L. (2023). A comparison of equivalent noise methods in investigating local and global form and motion integration. <em>Attention Perception and Psychophysics,<\/em> 85, 152-165.<\/li>\n\t<li style=\"font-size:16px\">Duyar, A., Pavan, A., Kafaligonul, H. (2022). Attentional modulations of audiovisual interactions in apparent motion: temporal ventriloquism effects on perceived visual speed, <em>Attention Perception and Psychophysics, <\/em>84, 2167\u20132185.<br><\/li><li style=\"font-size:16px\">Pavan, A., Koc Yilmaz, S., Kafaligonul, H., Battaglini, L., Blurton, S.P. (2022). Motion processing impaired by transient spatial attention: potential implications for the Magnocellular pathway. <em>Vision Research<\/em>, 109: 108080.<br><\/li><li style=\"font-size:16px\">Catak, E.N., Ozkan, M., Kafaligonul, H., Stoner G.R. (2022). Behavioral and ERP evidence that object-based attention utilizes fine-grained spatial mechanisms. <em>Cortex<\/em>,151, 89-104.<br><\/li><li style=\"font-size:16px\">Aydin, A., Ogmen, H., Kafaligonul, H. (2021). Neural correlates of metacontrast masking across different contrast polarities. <em>Brain Structure and Function, 226, 3067-3081.<\/em> <br><\/li><li style=\"font-size:16px\">Kaya, U., Kafaligonul, H. (2021). Audiovisual interactions in speeded discrimination of a visual event. <em>Psychophysiology,<\/em> 58, e13777 <br><\/li><li style=\"font-size:16px\">Karaduman, A., Karoglu-Eravsar, E.T., Kaya, U., Aydin, A., Adams, M.M., Kafaligonul, H. (2021). The optomotor response of aging zebrafish reveals a complex relationship between visual motion characteristics and cholinergic system. <em>Neurobiology of Aging<\/em>, 98, 21-32.<br><\/li><li style=\"font-size:16px\">Celebi-Birand, D., Ardic, N.I., Karoglu-Eravsar, E.T., Sengul, G.S., Kafaligonul, H., Adams, M.M. (2020). Dietary and pharmacological interventions that inhibit mammalian target of rapamycin activity alter the brain expression levels of neurogenic and glial markers in an age- and treatment-dependent manner. <em>Rejuvenation Research<\/em>, 23(6), https:\/\/doi.org\/10.1089\/rej.2019.2297.<br><\/li><li style=\"font-size:16px\">Akyuz, S., Pavan, A., Kaya, U., Kafaligonul, H. (2020). Short- and long-term forms of neural adaptation: an ERP investigation of dynamic motion aftereffects. <em>Cortex<\/em>, 125, 122-134.<br><\/li><li style=\"font-size:16px\">Kaya, U., Kafaligonul, H. (2019). Cortical processes underlying the effects of static sound timing on perceived visual speed. <em>NeuroImage<\/em>, 199, 194-205.<br><\/li><li style=\"font-size:16px\">Adams, M.M., Kafaligonul, H. (2018). Zebrafish-a model organism for studying the neurobiological mechanisms underlying cognitive brain aging and use of potential interventions. <em>Frontiers in Cell and Developmental Biology<\/em>, 6: 135.<br><\/li><li style=\"font-size:16px\">Kafaligonul, H., Albright T.D., Stoner, G.R. (2018). Auditory modulation of spiking activity and local field potentials in area MT does not appear to underlie an audiovisual temporal illusion. <em>Journal of Neurophysiology<\/em>, 120(3), 1340-1355.<br><\/li><li style=\"font-size:16px\">Kafal\u0131gonul, H. (2018). Examining the effects of audiovisual associations on motion perception through task-based fMRI. <em>Dusunen Adam: The Journal of Psychiatry and Neurological Sciences<\/em>, 31(2), 125-134. (Published in Turkish, Original Title: \u0130\u015fitsel-g\u00f6rsel \u00e7a\u011fr\u0131\u015f\u0131mlar\u0131n hareket alg\u0131s\u0131 \u00fczerine etkilerinin g\u00f6rev temelli fmrg ile incelenmesi)<br><\/li><li style=\"font-size:16px\">Ogulmus, C., Karacaoglu, M., Kafaligonul, H. (2018). Temporal ventriloquism along the path of apparent motion: speed perception under different spatial grouping principles. <em>Experimental Brain Research<\/em>, 236(3), 629-643.<\/li><li style=\"font-size:16px\">Kaya, U., Yildirim, Z.F., Kafaligonul, H. (2017). The involvement of centralized and distributed processes in sub-second time interval adaptation: an ERP investigation of apparent motion. <em>European Journal of Neuroscience<\/em>, 46(8), 2325-2338.<\/li><li style=\"font-size:16px\">Oluk, C., Pavan, A., Kafaligonul, H. (2016). Rapid motion adaptation reveals the temporal dynamics of spatiotemporal correlation between ON and OFF pathways. <em>Scientific Reports<\/em>, 6:34073<\/li><li style=\"font-size:16px\">Kafaligonul, H., Breitmeyer B.G., Ogmen, H. (2015). Feedforward and feedback processes in vision. <em>Frontiers in Psychology<\/em>, 6:279.<\/li><li style=\"font-size:16px\">Kafaligonul, H., Oluk, C. (2015). Audiovisual associations alter the perception of low-level visual motion. <em>Frontiers in Integrative Neuroscience<\/em>, 9:26.<\/li><li style=\"font-size:16px\">Kafaligonul, H. (2014). Vision: a systems neuroscience perspective. <em>Journal of Neurobehavioral Sciences<\/em>, 1(2), 21-26.<\/li><li style=\"font-size:16px\">Kafaligonul, H., Stoner, G.R. (2012). Static sound timing alters sensitivity to low-level visual motion. <em>Journal of Vision<\/em>, 12(11):2, 1-9.<\/li><li style=\"font-size:16px\">Kafaligonul, H., Stoner, G.R. (2010). Auditory modulation of visual apparent motion with short spatial and temporal intervals. <em>Journal of Vision<\/em>, 10(12):31, 1-13.<\/li><li style=\"font-size:16px\">Kafaligonul, H., Breitmeyer, B.G., Ogmen, H. (2009). Effects of contrast polarity in paracontrast masking. <em>Attention, Perception and Psychophysics<\/em>, 71, 1576-1587.<\/li><li style=\"font-size:16px\">Breitmeyer B.G., Tapia, E., Kafaligonul, H.,  Ogmen, H. (2008). Metacontrast masking and stimulus contast polarity. <em>Vision Research<\/em>, 48, 2433-2438.<\/li><li style=\"font-size:16px\">Breitmeyer, B.G., Kafaligonul, H., Ogmen, H., Mardon, L., Todd, S.,  Ziegler, R. (2006). Meta- and paracontrast reveal differences between contour and brightness processing mechanisms. <em>Vision Research<\/em>, 46, 2645-2658.<\/li><\/ul>\n\n\n\n<h2>Books<\/h2>\n\n\n\n<ul><li style=\"font-size:16px\">\u200bKafaligonul, H., Breitmeyer B.G., Ogmen, H. (Eds.) (2015). Feedforward and feedback processes in vision, 151 pp, Lausanne, Frontiers Media SA.<\/li><\/ul>\n\n\n\n<h2>Book Chapters<\/h2>\n\n\n\n<ul><li style=\"font-size:16px\">Celebi-Birand, D., Tuz-Sasik M.U., Ardic-Avci, N.I., Aydogan, H.O., Erbaba, B., Karoglu-Eravsar, E.T., Kafaligonul, H., Adams, M.M. (2021). The zebrafish (Danio rerio) and its uses for understanding the neuroscience of aging: applications and observation. In Martin, C.R., Preedy, V.R. and Rajendram, R. (Eds.), <em>Assessments, Treatments and Modeling in Aging and Neurological Disease: The Neuroscience of Aging<\/em>, London, Academic Press, 491-503. <\/li><li style=\"font-size:16px\">Celebi-Birand, D., Erbaba, B. Ozdemir, A.T., Kafaligonul, H., Adams, M. (2018). Zebrafish aging models and possible interventions. In Bozkurt, Y. (Eds.), <em>Recent Advances in Zebrafish Researches<\/em>, London, InTechOpen Press, 3-26.<br><\/li><li style=\"font-size:16px\">Kafaligonul, H., Patel, S.S., Ogmen, H., Bedell, H.E. , Purushothaman, G. (2010). Perceptual asynchronies and the dual-channel differential latency hypothesis. In Nijhawan, R. and Khunara, B. (Eds.), <em>Space and Time in Perception and Action<\/em>, Cambridge, Cambridge University Press, 379-395.<\/li><\/ul>\n\n\n\n<h2>Conference&nbsp;Presentations&nbsp;and&nbsp;Abstracts (since 2021)<br><\/h2>\n\n\n\n<ul>\n\t<li>Yildirim-Keles, F.Z., Demirayak, P., Kafaligonul, H. (2025). Experience-dependent changes in cortical function and structure following passive audiovisual associations. Annual Meeting of the Society for Neuroscience, San Diego, CA.<\/li>\n\t<li>Uner, S., Akdogan, I., Kafaligonul, H. (2025). Transcranial random noise stimulation modulates contrast sensitivity and polar angle asymmetries across the visual field. Annual Meeting of the Society for Neuroscience, San Diego, CA.<\/li>\n\t<li>Akdogan, I., Ogmen, H., Kafaligonul, H. (2025). Multivariate decoding of visibility and attention reveals distinct oscillatory signatures of perceptual selection. Annual Meeting of the Society for Neuroscience, San Diego, CA. <\/li>\n\t<li>Ozkan, S., Yilmaz, S.K., Kafaligonul, H. (2025). Multisensory perception of biological motion: auditory time intervals shape perceived speed. 47th European Conference on Visual Perception, Mainz, Germany.<\/li>\n\t<li>Uner, S., Akdogan, I., Istil, B., Kafaligonul, H. (2025). Transcranial random noise stimulation reshapes the contrast sensitivity function at the central visual field. 47th European Conference on Visual Perception, Mainz, Germany.<\/li>\n\t<li>Istil, B., Uner, S., Akdogan, I., Kafaligonul, H. (2025). Transcranial random noise stimulation rebalances peripheral visual asymmetries: evidence from contrast sensitivity function. 47th European Conference on Visual Perception, Mainz, Germany.<\/li>\n\t<li>Akdogan, I., Ogmen, H., Kafaligonul, H. (2025). Decoding oscillatory patterns of attention load in perceived visibility using multivariate EEG classification. 47th European Conference on Visual Perception, Mainz, Germany.<\/li>\n\t<li>Ozkan, S., Yilmaz, S.K., Kafaligonul, H. (2025). Timing matters: the role of footstep sounds in shaping biological motion perception. 23rd National Neuroscience Congress, Izmir, Turkiye.<\/li>\n\t<li>Uner, S., Akdogan, I., Istil, B., Kafaligonul, H. (2025). Asymmetries of visual system: a modulatory role of transcranial random noise stimulation. 23rd National Neuroscience Congress, Izmir, Turkiye.<\/li>\n\t<li>Istil, B., Uner, S., Akdogan, I., Kafaligonul, H. (2025). Modulation of central visual sensitivity across spatial frequencies: effects of transcranial random noise stimulation. 23rd National Neuroscience Congress, Izmir, Turkiye.<\/li>\n\t<li>Akdogan, I., Ogmen, H., Kafaligonul, H. (2025). Decoding attention and perceived visibility from EEG-based oscillatory dynamics using machine learning. 23rd National Neuroscience Congress, Izmir, Turkiye.<\/li>\n\t<li>Uner, S., Akdogan, I., Pavan, A., Kafaligonul, H. (2024). Dynamic visual noise impact on contrast detection mimics transcranial random noise stimulation. Annual Meeting of the Society for Neuroscience, Chicago, IL.<\/li>\n\t<li>Akdogan, I., Aydin, S., Kafaligonul, H. (2024). Functional networks involved in audiovisual processing: a graph theory approach to identify functional connectivity across frequency bands. Annual Meeting of the Society for Neuroscience, Chicago, IL.<\/li>\n\t<li>Yilmaz, S.K., Uner, S., Akdogan, I., Kumdakci, B., Pavan, A., Kafaligonul, H. (2024). Exploring the integrated effects of transcranial random noise stimulation and visual perceptual learning: insights from the perceptual template model. Annual Meeting of the Society for Neuroscience, Chicago, IL.<\/li>\n\t<li>Ozkan, S., Yilmaz, S.K., Kafaligonul, H. (2024). Footsteps in biological motion: auditory timing alters perceived speed. 22nd National Neuroscience Congress, \u0130stanbul, Turkey.<\/li>\n\t<li>Akdogan, I., Aydin, S., Kafaligonul, H. (2024). Audiovisual interactions in different frequency bands: graph theoretical modeling of functional networks. 22nd National Neuroscience Congress, \u0130stanbul, Turkey.<\/li>\n\t<li>Uner, S., Yilmaz, S.K., Akdogan, I., Kumdakci, B., Kafaligonul, H., Pavan, A. (2024). The perceptual template model reveals mechanisms underlying the influences of transcranial random noise stimulation on perceptual learning. 22nd National Neuroscience Congress, \u0130stanbul, Turkey.<\/li>\n\t<li>Akdogan, I., Uner, S., Pavan, A., Kafaligonul, H. (2024). Dynamic visual noise: a practical alternative to transcranial random noise stimulation for enhancing visual perception. 22nd National Neuroscience Congress, \u0130stanbul, Turkey.<\/li>\n\t<li>Kafaligonul, H. (2024). Temporal organization of perception and cortical oscillations. 22nd National Neuroscience Congress, \u0130stanbul, Turkey.<\/li>\n\t<li>Ozkan, S., Yilmaz, S.K., Kafaligonul, H. (2024). Timing of footstep sounds alters perceived speed of biological motion. 10th International Symposium on Brain and Cognitive Science, Ankara, Turkey.<\/li>\n\t<li>Akdogan, I., Kafaligonul, H. (2023). The phase coherence in alpha and beta frequency bands is associated with the modulations of target visibility in visual masking. Annual Meeting of the Society for Neuroscience, Washington, DC.<\/li>\n\t<li>Yilmaz S.K., Kafaligonul, H. (2023). Attentional demands in the visual field alter audiovisual interactions in time: EEG correlates. Annual Meeting of the Society for Neuroscience, Washington, DC.<\/li>\n\t<li>Kafaligonul, H., Turker, A. (2023). Event-related potentials associated with the inhibitory processes of forward masking. Annual Meeting of Vision Sciences Society, St. Pete Beach, FL. Journal of Vision 23 (9), 4998-4998.<\/li>\n\t<li>Turker, A., Kafaligonul, H. (2023). Neurophysiological investigation of inhibitory processes involved in forward masking. National Neuroimaging Congress, Ankara, Turkiye.<\/li>\n\t<li>Akdogan, I., Kafaligonul, H. (2022). Examining the effects of contrast ratio on metacontrast masking with electroencephalography. 44th European Conference on Visual Perception, Nijmegen, Netherlands. Netherlands. Perception vol.51 suppl.1S p.142-142.<\/li>\n\t<li>Turker, A., Kafaligonul, H. (2022). EEG correlates of inhibitory processes involved in paracontrast masking. 44th European Conference on Visual Perception, Nijmegen, Netherlands. Perception vol.51 suppl.1S p.141-141.<\/li>\n\t<li>Koc Yilmaz, S., Pavan, A., Contillo, A., Kafaligonul, H., Donato, R., O&#8217;Hare, L. (2022). A comparison of equivalent noise methods in investigating form\/motion Integration. 44th European Conference on Visual Perception, Nijmegen, Netherlands. Perception vol.51 suppl.1S p.31-31.<\/li>\n\t<li>Koc Yilmaz, S., Pavan, A., Kafaligonul, H., Battaglini, L., Blurton, S.P. (2021). The effect of transient attention on motion processing: implications for the magnocellular pathway. 43rd European Conference on Visual Perception, Virtual Meeting. Perception vol.50 suppl.1S p.71-72.<\/li>\n\t<li>Catak, E.R., Kafaligonul, H. (2021). Electrophysiological investigation of attentional modulation on metacontrast masking. 43rd European Conference on Visual Perception, Virtual Meeting. Perception vol.50 suppl.1S p.181.<\/li>\n\t<li>Aydin, A., Ogmen, H., Kafaligonul, H. (2021). Metacontrast masking across different contrast polarities: the role of late ERP components. Annual Meeting of Vision Sciences Society, Virtual Meeting (V-VSS). Journal of Vision 21 (9), 2083-2083. <\/li>\n\t<li>Konyali, A., Kafaligonul, H. (2021). Attention differentially modulates brief and prolonged inhibitions in paracontrast masking. Annual Meeting of Vision Sciences Society, Virtual Meeting (V-VSS). Journal of Vision 21 (9), 2217-2217. <\/li>\n<\/ul>\n\n\n\n<p><\/p>\n","protected":false},"excerpt":{"rendered":"<div class=\"mh-excerpt\"><p>Journal&nbsp;Articles Ozkan, S., Yilmaz, S.K., Kafaligonul, H. (in progress). When you hear faster, you see faster: the timing of footstep sounds influences biological motion perception. <a class=\"mh-excerpt-more\" href=\"https:\/\/cortical.bilkent.edu.tr\/index.php\/publications\/\" title=\"Publications\">[&#8230;]<\/a><\/p>\n<\/div>","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"template-full.php","meta":{"ngg_post_thumbnail":0},"_links":{"self":[{"href":"https:\/\/cortical.bilkent.edu.tr\/index.php\/wp-json\/wp\/v2\/pages\/40"}],"collection":[{"href":"https:\/\/cortical.bilkent.edu.tr\/index.php\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/cortical.bilkent.edu.tr\/index.php\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/cortical.bilkent.edu.tr\/index.php\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/cortical.bilkent.edu.tr\/index.php\/wp-json\/wp\/v2\/comments?post=40"}],"version-history":[{"count":33,"href":"https:\/\/cortical.bilkent.edu.tr\/index.php\/wp-json\/wp\/v2\/pages\/40\/revisions"}],"predecessor-version":[{"id":638,"href":"https:\/\/cortical.bilkent.edu.tr\/index.php\/wp-json\/wp\/v2\/pages\/40\/revisions\/638"}],"wp:attachment":[{"href":"https:\/\/cortical.bilkent.edu.tr\/index.php\/wp-json\/wp\/v2\/media?parent=40"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}