Interesting Papers for Week 47, 2022
General variability leads to specific adaptation toward optimal movement policies. Abram, S. J., Poggensee, K. L., Sánchez, N., Simha, S. N., Finley, J. M., Collins, S. H., & Donelan, J. M. (2022). Current Biology, 32(10), 2222-2232.e5.
Implicit Counterfactual Effect in Partial Feedback Reinforcement Learning: Behavioral and Modeling Approach. Barakchian, Z., Vahabie, A.-H., & Nili Ahmadabadi, M. (2022). Frontiers in Neuroscience, 16, 540.
Freeing capacity in working memory (WM) through the use of long-term memory (LTM) representations. Bartsch, L. M., & Shepherdson, P. (2022). Journal of Experimental Psychology: Learning, Memory, and Cognition, 48(4), 465–482.
A theory of consciousness from a theoretical computer science perspective: Insights from the Conscious Turing Machine. Blum, L., & Blum, M. (2022). Proceedings of the National Academy of Sciences, 119(21), e2115934119.
The role of alpha oscillations in temporal binding within and across the senses. Buergers, S., & Noppeney, U. (2022). Nature Human Behaviour, 6(5), 732–742.
Dynamic Distortion of Orientation Representation after Learning in the Mouse Primary Visual Cortex. Corbo, J., McClure, J. P., Erkat, O. B., & Polack, P.-O. (2022). Journal of Neuroscience, 42(21), 4311–4325.
Neural signature of the perceptual decision in the neural population responses of the inferior temporal cortex. Dehaqani, M.-R. A., Emadi, N., Vahabie, A.-H., Zandvakili, A., & Esteky, H. (2022). Scientific Reports, 12, 8628.
A model of working memory for latent representations. Hedayati, S., O’Donnell, R. E., & Wyble, B. (2022). Nature Human Behaviour, 6(5), 709–719.
Origins of direction selectivity in the primate retina. Kim, Y. J., Peterson, B. B., Crook, J. D., Joo, H. R., Wu, J., Puller, C., … Dacey, D. M. (2022). Nature Communications, 13, 2862.
Informative neural representations of unseen contents during higher-order processing in human brains and deep artificial networks. Mei, N., Santana, R., & Soto, D. (2022). Nature Human Behaviour, 6(5), 720–731.
The dorsal premotor cortex encodes the step-by-step planning processes for goal-directed motor behavior in humans. Nakayama, Y., Sugawara, S. K., Fukunaga, M., Hamano, Y. H., Sadato, N., & Nishimura, Y. (2022). NeuroImage, 256, 119221.
Forward planning driven by context-dependant conflict processing in anterior cingulate cortex. Ott, F., Legler, E., & Kiebel, S. J. (2022). NeuroImage, 256, 119222.
Multisensory task demands temporally extend the causal requirement for visual cortex in perception. Oude Lohuis, M. N., Pie, J. L., Marchesi, P., Montijn, J. S., de Kock, C. P. J., Pennartz, C. M. A., & Olcese, U. (2022). Nature Communications, 13, 2864.
Fronto-medial theta coordinates posterior maintenance of working memory content. Ratcliffe, O., Shapiro, K., & Staresina, B. P. (2022). Current Biology, 32(10), 2121-2129.e3.
Spatio-Temporally Efficient Coding Assigns Functions to Hierarchical Structures of the Visual System. Sihn, D., & Kim, S.-P. (2022). Frontiers in Computational Neuroscience, 16, 61.
Human visual gamma for color stimuli. Stauch, B. J., Peter, A., Ehrlich, I., Nolte, Z., & Fries, P. (2022). eLife, 11, e75897.
Distinct inhibitory pathways control velocity and directional tuning in the mouse retina. Summers, M. T., & Feller, M. B. (2022). Current Biology, 32(10), 2130-2143.e3.
Vestibular Stimulation Causes Contraction of Subjective Time. Utegaliyev, N., von Castell, C., & Hecht, H. (2022). Frontiers in Integrative Neuroscience, 16, 49.
Modulation of biological motion perception in humans by gravity. Wang, Y., Zhang, X., Wang, C., Huang, W., Xu, Q., Liu, D., … Jiang, Y. (2022). Nature Communications, 13, 2765.
Surprise and recency in novelty detection in the primate brain. Zhang, K., Bromberg-Martin, E. S., Sogukpinar, F., Kocher, K., & Monosov, I. E. (2022). Current Biology, 32(10), 2160-2173.e6.
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