Two of the three major hypotheses in the grant have been explored in-depth. The first aim was to learn more about the time course over which visual expectations are built up. In some cases, a lifetime of visual experience is used to interpret visual information in a certain way. One example is the "hollow face illusion" (figure 1), where prior experience makes a face always appear convex, even if in reality it is concave (hollow). But visual experience can be built over shorter time scales as well. For example, a radiologist looking at an x-ray must exploit his or her training about what visual attributes are expected in the presence of a tumor in order to save someone’s life. In the lab we mimicked this shorter timescale, by having lines of certain colors (for example blue or red) be associated with certain orientations (for example vertical or horizontal). There were 4 colors and 4 orientations, and the associations were far from perfect (for example, "red" was horizontal half of the time, but the other half of the time it could be one of the other three orientations). The question was how people learn these relatively complex associations, and how does does it help the speed and accuracy of responses. Two different versions of this experiment were performed, and research participants did not learn these associations even after 12 days (doing the task 2 hours / day). This implies that learning relatively loose associations probably takes a lot longer than can be reasonably tested in the lab. The second aim was to learn more about visual expectations when visual information is not directly relevant to behavior. For example, when driving in the rain, visual expectations about the rain blowing across your field of view from the upper-left to the lower-right could support the important task of suppressing this irrelevant information, and focus on the cars in front of you so you may return home safely. In the lab we mimicked this situation by again associating the colors and orientations of lines that we showed on a screen, except that this time the lines were irrelevant to the task. The lines just made it harder for people to focus on other items that they needed to attend. Even when very obvious associations were presented (for example red lines were always vertical), people were not able to exploit this regularity (i.e. suppressing the irrelevant information) to become better at the task at hand (focus on the relevant information).
All the methods, data, code, results, and findings are public. Null results are self-published (
https://sites.google.com/site/rosannerademaker/research/filedrawer(öffnet in neuem Fenster)). Published work performed is available on the Open Science Framework (OSF). The work performed under this grant has been presented at the following occasions:
2020.02 Talk at the Max Planck Gesellschaft (at the invitation of Patricia Drück), Berlin, Germany
2020.01 Talk at the European Institute of Neuroscience (at the invitation of Mathias Bähr), Göttingen, Germany
2020.01 Talk at the Institute of Ophthalmology, University College London (at the invitation of Andrew Dick), United Kingdom
2019.12 Talkat the Stuttgart Center for Simulation Science (at the invitation of Prof. Dr. Thomas Ertl), Computer Science department, University of Stuttgart, Germany
2019.07 Workshop on “Dynamics and limitations of working memory” (at the invitation of Albert Compte & Zachary Kilpatrick), Annual Organization for Computational Neurosciences (OCNS) Meeting, Barcelona, Spain
2019.06 Colloquium talk on visual working memory, Royal Netherlands Academy of Arts and Sciences (at the invitation of Stefan van der Stigchel & Chris Olivers), Amsterdam, the Netherlands
2019.06 Masterclass on encoding models (at the invitation of Stefan van der Stigchel & Chris Olivers), Amsterdam, the Netherlands
2019.06 Talk at the Netherlands Institute for Neuroscience (at the invitation of Pieter Roelfsema), Amsterdam, the Netherlands
and at the following conferences: Society for Neuroscience Meeting 2017; Vision Sciences Society 2018 & 2019; Annual Meeting of the Society for Psychophysiological Research 2018; European Conference on Visual Perception 2018.