Publication
] Representation Learning from Orbit Sets for One-shot Classification. AAAI Spring Symposium Series, Science of Intelligence (2017). at <https://www.aaai.org/ocs/index.php/SSS/SSS17/paper/view/15357>
Invariant recognition drives neural representations of action sequences. PLoS Comp. Bio (2017).
Invariant representations for action recognition in the visual system. Vision Sciences Society 15, (2015).
Discriminate-and-Rectify Encoders: Learning from Image Transformation Sets. (2017).
CBMM-Memo-062.pdf (9.37 MB)
CBMM-Memo-062.pdf (9.37 MB) Trading robust representations for sample complexity through self-supervised visual experience. Advances in Neural Information Processing Systems 31 () 9640–9650 (Curran Associates, Inc., 2018). at <http://papers.nips.cc/paper/8170-trading-robust-representations-for-sample-complexity-through-self-supervised-visual-experience.pdf> trading-robust-representations-for-sample-complexity-through-self-supervised-visual-experience.pdf (3.32 MB) NeurIPS2018_Poster.pdf (6.12 MB)
trading-robust-representations-for-sample-complexity-through-self-supervised-visual-experience.pdf (3.32 MB) NeurIPS2018_Poster.pdf (6.12 MB) Neural tuning size is a key factor underlying holistic face processing. (2014). CBMM-Memo-021-1406.3793.pdf (387.79 KB)
CBMM-Memo-021-1406.3793.pdf (387.79 KB) Neural Tuning Size in a Model of Primate Visual Processing Accounts for Three Key Markers of Holistic Face Processing. Public Library of Science | PLoS ONE 1(3): e0150980, (2016). journal.pone_.0150980.PDF (384.15 KB)
journal.pone_.0150980.PDF (384.15 KB) Cascade of neural processing orchestrates cognitive control in human frontal cortex [code]. (2016). at <http://klab.tch.harvard.edu/resources/tangetal_stroop_2016.html>
A machine learning approach to predict episodic memory formation. 2016 Annual Conference on Information Science and Systems (CISS) 539 - 544 (2016). doi:10.1109/CISS.2016.7460560
Computational and Cognitive Neuroscience of Vision (Springer Singapore, 2017). at <http://www.springer.com/us/book/9789811002113>
A role for recurrent processing in object completion: neurophysiological, psychophysical and computational evidence. (2014). CBMM-Memo-009.pdf (4.21 MB)
CBMM-Memo-009.pdf (4.21 MB) Cascade of neural processing orchestrates cognitive control in human frontal cortex. eLIFE (2016). doi:10.7554/eLife.12352 Manuscript (1.83 MB)
Manuscript (1.83 MB) Spatiotemporal Dynamics Underlying Object Completion in Human Ventral Visual Cortex. Neuron 83, 736 - 748 (2014).
Predicting episodic memory formation for movie events. Scientific Reports (2016). doi:10.1038/srep30175
Recurrent computations for visual pattern completion. Proceedings of the National Academy of Sciences (2018). doi:10.1073/pnas.1719397115 1719397115.full_.pdf (1.1 MB)
1719397115.full_.pdf (1.1 MB) Cascade of neural processing orchestrates cognitive control in human frontal cortex [dataset]. (2016). at <http://klab.tch.harvard.edu/resources/tangetal_stroop_2016.html>
Towards an objective characterization of an individual's facial movements using Self-Supervised Person-Specific-Models. arXiv (2022). at <https://arxiv.org/abs/2211.08279>
Improved Measures of Integrated Information. PLOS Computational Biology (2016). doi:10.1371/journal.pcbi.100512310.1371 1601.02626.pdf (3.49 MB)
1601.02626.pdf (3.49 MB) Incorporating Rich Social Interactions Into MDPs. (2022). CBMM-Memo-133.pdf (1.68 MB)
CBMM-Memo-133.pdf (1.68 MB) Zero-shot linear combinations of grounded social interactions with Linear Social MDPs. Proceedings of the 37th AAAI Conference on Artificial Intelligence (AAAI) (2023).
Social Interactions as Recursive MDPs. (2021). CBMM-Memo-130.pdf (1.52 MB)
CBMM-Memo-130.pdf (1.52 MB)