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Evidence that recurrent pathways between the prefrontal and inferior temporal cortex is critical during core object recognition . COSYNE (2020).
Hierarchical neural network models that more closely match primary visual cortex tend to better explain higher level visual cortical responses . COSYNE (2020).
Simulating a Primary Visual Cortex at the Front of CNNs Improves Robustness to Image Perturbations. Advances in Neural Information Processing Systems 33 pre-proceedings (NeurIPS 2020) (2020). at <https://proceedings.neurips.cc/paper/2020/hash/98b17f068d5d9b7668e19fb8ae470841-Abstract.html>
Temporal information for action recognition only needs to be integrated at a choice level in neural networks and primates . COSYNE (2020).
ThreeDWorld: A Platform for Interactive Multi-Modal Physical Simulation. arXiv (2020). at <https://arxiv.org/abs/2007.04954>
2007.04954.pdf (7.06 MB)
2007.04954.pdf (7.06 MB) Brain-Like Object Recognition with High-Performing Shallow Recurrent ANNs. 33rd Conference on Neural Information Processing Systems (NeurIPS 2019) (2019). 2019-10-28 NeurIPS-camera_ready.pdf (1.88 MB)
2019-10-28 NeurIPS-camera_ready.pdf (1.88 MB) Evidence that recurrent circuits are critical to the ventral stream’s execution of core object recognition behavior. Nature Neuroscience (2019). doi:10.1038/s41593-019-0392-5 Author's last draft (1.74 MB)
Author's last draft (1.74 MB) Evidence that recurrent pathways between the prefrontal and inferior temporal cortex is critical during core object recognition . Society for Neuroscience (2019).
A meta-analysis of ANNs as models of primate V1 . Bernstein (2019).
Neural Population Control via Deep Image Synthesis. Science 364, (2019). Author's last draft (18.45 MB)
Author's last draft (18.45 MB)