A first objective was to demonstrate the selective reinforcement of cognitive flexibility. We set up several paradigms to address this research question. We found both expected and unexpected effects, allowing us to identify important modulators and boundary conditions. Moreover, this already inspired further experiments into the selective reinforcement of other classical markers of cognitive control such as congruency processing, and model-free versus model-based decision making. We are also testing the effect of different training regimes and task instructions on several markers of cognitive flexibility in experience-based learning.
A second objective was to establish the power of contextual cues in triggering cognitive flexibility. Across different paradigms, we were successful in documenting environmentally triggered adjustments of cognitive flexibility. Importantly, we also show that this learning required more than a one-hour session, explaining why previous studies, that typically rely on the traditional single-session-design, failed to find these. This further inspired research into the environment-specific regulation of learning rates, and environment-specific exploration strategies in vast decision-making environments. Moreover, we are developing a version of the main paradigm for testing in VR, where we believe the immersive environments will be more powerful in learning and triggering environment-specific flexibility.
A third objective was to unravel the role of neural variability in cognitive flexibility. We developed a new paradigm that allows one to study the time-dependent regulation of cognitive flexibility in service of expecting “task transformations”, which we hypothesized to co-occur with increases in voxel-pattern variability. We are currently collecting fMRI data. We also plan to extend the paradigm to EEG, to gain more insights into the dynamic, temporal evolution of this effect. Moreover, this further inspired another research line into the regulation of behavioral variability or “random” behavior.
A fourth and final objective was to develop a new understanding of cognitive flexibility in autism. We ran a large-scale, preregistered correlational study with around 600 typically developing subjects, and another 120 people who indicated to be diagnosed with autism. The study included the main paradigms we developed for the first two objectives. We are still analyzing the data.