From post

Exploring Foveation and Saccade for Improved Weakly-Supervised Localization.

, , , и . Gaze Meets ML, том 226 из Proceedings of Machine Learning Research, стр. 61-89. PMLR, (2023)

Please choose a person to relate this publication to

To differ between persons with the same name, the academic degree and the title of an important publication will be displayed.

 

Другие публикации лиц с тем же именем

HTM Spatial Pooler With Memristor Crossbar Circuits for Sparse Biometric Recognition., , , и . IEEE Trans. Biomed. Circuits Syst., 11 (3): 640-651 (2017)On Inherent Adversarial Robustness of Active Vision Systems., , и . CoRR, (2024)Pruning for Improved ADC Efficiency in Crossbar-based Analog In-memory Accelerators., , , и . CoRR, (2024)A design of HTM spatial pooler for face recognition using memristor-CMOS hybrid circuits., , , и . ISCAS, стр. 1254-1257. IEEE, (2016)Towards Two-Stream Foveation-based Active Vision Learning., , , и . CoRR, (2024)Exploring Foveation and Saccade for Improved Weakly-Supervised Localization., , , и . Gaze Meets ML, том 226 из Proceedings of Machine Learning Research, стр. 61-89. PMLR, (2023)On-chip Face Recognition System Design with Memristive Hierarchical Temporal Memory., , , , и . CoRR, (2017)Memristive Operational Amplifiers., , , и . BICA, том 41 из Procedia Computer Science, стр. 114-119. Elsevier, (2014)Design and implication of a rule based weight sparsity module in HTM spatial pooler., , и . ICECS, стр. 274-277. IEEE, (2017)Toward Two-Stream Foveation-Based Active Vision Learning., , , и . IEEE Trans. Cogn. Dev. Syst., 16 (5): 1843-1860 (октября 2024)