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meeting_2020spring:start [2020/04/11 08:45] – [2020 Spring schedule] ruhuishenmeeting_2020spring:start [2020/05/29 03:59] (current) – [2020 Spring schedule] yicongli
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 |Feb 21,2020| Tan Yang |transfer learning| W. Zhang and D. Wu, “Discriminative Joint Probability Maximum Mean Discrepancy ( DJP-MMD ) for Domain Adaptation.”  | {{ :meeting_2020spring:paperreading_djpmmd_20200220.pdf |slide}}| |Feb 21,2020| Tan Yang |transfer learning| W. Zhang and D. Wu, “Discriminative Joint Probability Maximum Mean Discrepancy ( DJP-MMD ) for Domain Adaptation.”  | {{ :meeting_2020spring:paperreading_djpmmd_20200220.pdf |slide}}|
 |Week 2|Li Mingyang|self-supervised learning | A Simple Framework for Contrastive Learning of Visual Representations | {{ :meeting_2020spring:a_simple_framework_for_contrastive_learning_of_visual_representations.pptx |slide}}| |Week 2|Li Mingyang|self-supervised learning | A Simple Framework for Contrastive Learning of Visual Representations | {{ :meeting_2020spring:a_simple_framework_for_contrastive_learning_of_visual_representations.pptx |slide}}|
-|Week 3|Shen Ruhui|transfer learning| Massimiliano Patacchiola et al. Deep Kernel Transfer in Gaussian Process for Few-Shot Learning | {{ :meeting_2020spring:deep_kernel_transfer_in_gaussian_processes_for_few-shot_learning.pptx |s lide}}|+|Week 3|Shen Ruhui|transfer learning| Massimiliano Patacchiola et al. Deep Kernel Transfer in Gaussian Process for Few-Shot Learning | {{ :meeting_2020spring:deep_kernel_transfer_in_gaussian_processes_for_few-shot_learning.pptx |slide}}|
 |Week 4|Fan Jiashuo | network embedding|{{ career_network:Link Prediction Algorithms for Social Networks Based on Machine Learning and HARP.pdf| Link Prediction Algorithms for Social Networks based on Machine Learning and HARP}}|{{ :meeting_2020spring:a_simple_framework_for_contrastive_learning_of_visual_representations.pptx |slide}}| |Week 4|Fan Jiashuo | network embedding|{{ career_network:Link Prediction Algorithms for Social Networks Based on Machine Learning and HARP.pdf| Link Prediction Algorithms for Social Networks based on Machine Learning and HARP}}|{{ :meeting_2020spring:a_simple_framework_for_contrastive_learning_of_visual_representations.pptx |slide}}|
-|Week 5|Yang Jingyun| medical image|{{ :meeting_2020spring:retina_unet.pdf}} | |+|Week 5|Yang Jingyun| medical image|{{ :meeting_2020spring:retina_unet.pdf}} | {{:meeting_2020spring:retina_unet.pdf| slide}}   
 |Week 6|Wang Jingge|transfer learning|[[http://openaccess.thecvf.com/content_CVPR_2019/papers/You_Universal_Domain_Adaptation_CVPR_2019_paper.pdf|Universal Domain Adaptation]] |  {{:meeting_2020spring:universal_domain_adaptation.pdf| slide}}    |Week 6|Wang Jingge|transfer learning|[[http://openaccess.thecvf.com/content_CVPR_2019/papers/You_Universal_Domain_Adaptation_CVPR_2019_paper.pdf|Universal Domain Adaptation]] |  {{:meeting_2020spring:universal_domain_adaptation.pdf| slide}}   
 |Week 7|Calvin|network embedding | {{:meeting_2020spring:learning_author_representations_by_combining_content_and_link_information.pdf|Author2Vec: Learning Author Representations by Combining Content and Link Information}} |{{:meeting_2020spring::author2vec.pptx| slide}}| |Week 7|Calvin|network embedding | {{:meeting_2020spring:learning_author_representations_by_combining_content_and_link_information.pdf|Author2Vec: Learning Author Representations by Combining Content and Link Information}} |{{:meeting_2020spring::author2vec.pptx| slide}}|
 |Week 8|Yicong Li|Transfer Learning|{{geyer19a.pdf|Transfer Learning by Adaptive Merging of Multiple Models}}|{{transfer_learning_by_adaptive_merging_of_multiple_models.pptx|slide}}| |Week 8|Yicong Li|Transfer Learning|{{geyer19a.pdf|Transfer Learning by Adaptive Merging of Multiple Models}}|{{transfer_learning_by_adaptive_merging_of_multiple_models.pptx|slide}}|
    
 +
 +^Date ^Presenter^Topic ^ Reading ^ Slides ^
 +|Week9| Yang Tan |transfer learning| {{ :meeting_2020spring:geometric_dataset_distances_via_optimal_transport.pdf |}} |{{ :meeting_2020spring:paperreading_datasetdistance_20200415.pdf | slides}} |
 +|Week10| Mingyang Li|representation learning |{{ :meeting_2020spring:generative_cross_modal_retrieval.pdf}}|{{:meeting_2020spring:look_imagine_and_match-_improving_textual-visual_cross-modal_retrieval_with_generative_models.ppt }}|
 +|Week11| Ruhui Shen   |transfer learning |{{ :meeting_2020spring:active_learning_framework_of_informative_p53_cancer_rescue_mutants.pdf}}| |
 +|Week12| Jingyun Yang |     | |
 +|Week13| Jingge Wang  |Transfer Learning   | [[http://openaccess.thecvf.com/content_cvpr_2018/papers/Xu_Deep_Cocktail_Network_CVPR_2018_paper.pdf| Deep cocktail network]]  |{{ :meeting_2020spring:dctn_deep_cocktail_network.pdf |slide}} |
 +|Week14| Calvin           | |
 +|Week15| Yicong Li  |Noisy Labels|{{:meeting_2020spring:1804.06872.pdf}}|{{:meeting_2020spring:co-teaching.pdf|slide}}|
 +|Week16| Jiashuo Fan    |     | |
  
  
meeting_2020spring/start.1586609128.txt.gz · Last modified: 2020/04/11 08:45 by ruhuishen