Publication
] Can a biologically-plausible hierarchy effectively replace face detection, alignment, and recognition pipelines?. (2014).
CBMM-Memo-003.pdf (963.66 KB)
CBMM-Memo-003.pdf (963.66 KB) Streaming Normalization: Towards Simpler and More Biologically-plausible Normalizations for Online and Recurrent Learning. (2016). CBMM-Memo-057.pdf (1.27 MB)
CBMM-Memo-057.pdf (1.27 MB) How Important Is Weight Symmetry in Backpropagation?. Thirtieth AAAI Conference on Artificial Intelligence (AAAI-16) (2016). at <https://cbmm.mit.edu/sites/default/files/publications/liao-leibo-poggio.pdf>
Object-Oriented Deep Learning. (2017). CBMM-Memo-070.pdf (963.54 KB)
CBMM-Memo-070.pdf (963.54 KB) Why does deep and cheap learning work so well?. Journal of Statistical Physics 168, 1223–1247 (2017). 1608.08225.pdf (2.14 MB)
1608.08225.pdf (2.14 MB) Critical Behavior from Deep Dynamics: A Hidden Dimension in Natural Language. arXiv.org (2016). Critical Behavior from Deep Dynamics: A Hidden Dimension in Natural Language (1.64 MB)
Critical Behavior from Deep Dynamics: A Hidden Dimension in Natural Language (1.64 MB) A framework for studying synaptic plasticity with neural spike train data. Neural Information Processing Systems (2014). 5274-a-framework-for-studying-synaptic-plasticity-with-neural-spike-train-data.pdf (4.6 MB)
5274-a-framework-for-studying-synaptic-plasticity-with-neural-spike-train-data.pdf (4.6 MB) A Bayesian nonparametric approach for uncovering rat hippocampal population codes during spatial navigation. Journal of Neuroscience Methods 263, (2016). Journal of Neuroscience Methods (2.27 MB)
Journal of Neuroscience Methods (2.27 MB) Inferring structured connectivity from spike trains under negative-binomial generalized linear models. (2015). cosyne2015a.pdf (384.83 KB)
cosyne2015a.pdf (384.83 KB) A Nonparametric Bayesian Approach to Uncovering Rat Hippocampal Population Codes During Spatial Navigation. (2014). CBMM-Memo-027.pdf (9.44 MB)
CBMM-Memo-027.pdf (9.44 MB) Temporally delayed linear modelling (TDLM) measures replay in both animals and humans. eLife 10, (2021).
Pre-reaching infants expect causal agents to act efficiently without motor training. 20th Biennial International Conference on Infant Studies (ICIS) (2016).
Ten-month-old infants infer the value of goals from the costs of actions. Science 358, 1038-1041 (2017). ivc_full_preprint_withsm.pdf (1.6 MB)
ivc_full_preprint_withsm.pdf (1.6 MB) Recurrent Multimodal Interaction for Referring Image Segmentation. (2018). CBMM-Memo-079.pdf (10.16 MB)
CBMM-Memo-079.pdf (10.16 MB) Hard choices: Children’s understanding of the cost of action selection. . Cognitive Science Society (2019). phk_cogsci_2019_final.pdf (276.14 KB)
phk_cogsci_2019_final.pdf (276.14 KB) Ten-month-old infants infer value from effort. SRCD (2017).
Timing, timing, timing: Fast decoding of object inforrmation from intracranial field potentials in human visual cortex. (2009). at <http://klab.tch.harvard.edu/resources/liuetal_timing3.html>
Six-month-old infants represent action efficiency on a continuous scale. 9th Biennial Meeting of the Cognitive Development Society (CDS) (2015).
Origins of the concepts cause, cost, and goal in prereaching infants. Cognitive Development Society (2019). liu_etal_lumi_cds2019_final.pdf (22.95 MB)
liu_etal_lumi_cds2019_final.pdf (22.95 MB) Continuous representations of action efficiency in infancy. CEU Conference on Cognitive Development (BCCCD16) (2016).
Ten-month-old infants infer value from effort. Society for Research in Child Development (2017).
Six-month-old infants expect agents to minimize the cost of their actions. Cognition 160, 35-42 (2017).