Cognitive Dynamics and Adaptability Lab

Halely Balaban | The Open University of Israel

Publications

Important Notice: The papers on this website are provided to foster the spread of knowledge on a noncommercial basis. The publishers/authors of these papers hold copyright. Downloading papers should be restricted to personal use, just like asking the authors for a reprint. Please do not distribute the papers and/or use them for any commercial use. By downloading a paper you indicate that you agree to these terms.

Preprints

Balaban, H., & Ullman, T. (PsyArxiv). The capacity limits of mental simulation.

Published Manuscripts

Balaban, H., Smith, K. A., Tenenbaum, J. B., & Ullman, T. D. (2024). Electrophysiology reveals that intuitive physics guides visual tracking and working memory. Open Mind, 8, 1425-1446.

Balaban, H., Drew, T., & Luria, R. (2023). Dissociable online integration processes in visual working memory. Cerebral Cortex, 33(23), 11420-11430.

Balaban, H., Assaf, D., Arad Meir, M., & Luria, R. (2020). Different features of real-world objects are represented in a dependent manner in long-term memory. Journal of Experimental Psychology: General, 149(7), 1275-1293.

Balaban, H., Drew, T., & Luria, R. (2019). Neural evidence for an object-based pointer system underlying working memory. Cortex, 119, 362-372.

Balaban, H., Fukuda, K., & Luria, R. (2019). What can half a million change detection trials tell us about visual working memory? Cognition, 191, 103984.

Balaban, H., Drew, T., & Luria, R. (2018). Visual working memory can selectively reset a subset of its representations. Psychonomic Bulletin & Review, 25(5), 1877-1883.

Balaban, H., Drew, T., & Luria, R. (2018). Delineating resetting and updating in visual working memory based on the object-to-representation correspondence. Neuropsychologia, 113, 85-94.

Balaban, H., & Luria, R. (2017). Neural and behavioral evidence for an online resetting process in visual working memory. The Journal of Neuroscience, 37(5), 1225-1239.

Balaban, H., & Luria, R. (2016). Object representations in visual working memory change according to the task context. Cortex, 1-13.

Luria, R., Balaban, H., Awh, E., & Vogel, E. K. (2016). The contralateral delay activity as a neural measure of visual working memory. Neuroscience & Biobehavioral Reviews, 62, 100-108.

Balaban, H., & Luria, R. (2015). The number of objects determines visual working memory capacity allocation for complex items. NeuroImage, 119, 54-62.

Balaban, H., & Luria, R. (2016). Integration of distinct objects in visual working memory depends on strong objecthood cues even for different-dimension conjunctions. Cerebral Cortex, 26, 2093-2104

Allon, A. S., Balaban, H., & Luria, R. (2014). How low can you go? Changing the resolution of novel complex objects in visual working memory according to task demands. Frontiers in Psychology, 5:265

Book Chapters

Balaban, H., & Luria, R. (2019). Using the contralateral delay activity to study online processing of items still within view. In Spatial Learning and Attention Guidance (pp. 107-128). Pollmann, S. (Ed.). Neuromethods. Humana Press.