Computer Science ›› 2020, Vol. 47 ›› Issue (4): 136-141.doi: 10.11896/jsjkx.190300002
• Computer Graphics & Multimedia • Previous Articles Next Articles
ZHUANG Zhi-gang, XU Qing-lin
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[1]KAREN S,ANDREW Z.Very Deep Convolutional Networksfor Large-Scale Image Recognition[C]//International Conference on Learning Representations (ICLR).2015. [2]HE K,ZHANG X,REN S,et al.Deep Residual Learning for Image Recognition[C]//IEEE Conference on Computer Vision and Pattern Recognition (CVPR).2016:770-778. [3]HUANG G,LIU Z,LAURENS V D M,et al.Densely Connected Convolutional Networks[C]//IEEE Conference on Compu-ter Vision and Pattern Recognition (CVPR).2017:4700-4708. [4]REDMON J,DIVVALA S,GIRSHICK R,et al.You Only Look Once:Unified,Real-Time Object Detection[C]//IEEE Confe-rence on Computer Vision and Pattern Recognition (CVPR).2016:779-778. [5]REDMON J,FARHADI A.YOLO9000:Better,Faster,Stronger[C]//IEEE Conference on Computer Vision and Pattern Recognition (CVPR).2017:7263-7271. [6]REDMON J,FARHADI A.YOLOv3:An Incremental Improvement [J].arXiv:1804.02767. [7]LIU W,ANGUELOV D,ERHAN D,et al.SSD:Single ShotMultiBox Detector[C]//European Conference on Computer Vision (ECCV).2016:21-37. [8]LIN T Y,DOLLR,PIOTR,et al.Feature Pyramid Networks for Object Detection[C]//IEEE Conference on Computer Vision and Pattern Recognition (CVPR).2017:2117-2125. [9]LIN T Y,GOYAL P,GIRSHICK R,et al.Focal Loss for Dense Object Detection[C]//IEEE International Conference on Computer Vision (ICCV).2017:2980-2988. [10]ROSS B G,JEFF D,TREVOR D,et al.Rich Feature Hierarchies for Accurate Object Detection and Semantic Segmentation[C]//IEEE Conference on Computer Vision and Pattern Recognition (CVPR).2014:580-587. [11]GIRSHICK R.Fast R-CNN[C]//IEEE International Conference on Computer Vision (ICCV).2015:1440-1448. [12]REN S,HE K,GIRSHICK R,et al.Faster R-CNN:TowardsReal-Time Object Detection with Region Proposal Networks[C]//Neural Information Processing Systems (NIPS).2015:91-99. [13]KAIMING H,GEORGIA G,PIOTR D,et al.Mask R-CNN[C]//IEEE International Conference on Computer Vision (ICCV).2017:2961-2969. [14]LI Y,QI H,DAI J,et al.Fully Convolutional Instance-aware Semantic Segmentation[C]//IEEE Conference on Computer Vision and Pattern Recognition (CVPR).2017:2359-2367. [15]AGRAWAL A,LU J,ANTOL S,et al.VQA:Visual Question Answering [J].International Journal of Computer Vision,2017,123(1):4-31. [16]JOHNSON J,HARIHARAN B,LAURENS V D M,et al.CLEVR:A Diagnostic Dataset for Compositional Language and Elementary Visual Reasoning[C]//IEEE Conference on Computer Vision and Pattern Recognition (CVPR).2017:2901-2910. [17]ORDONEZ V,KULKARNI G,BERG T.Im2text:Describingimages using 1 million captioned photographs[C]//Neural Information Processing Systems (NIPS).2011:1143-1151. [18]VINYALS O,TOSHEV A,BENGIO S,et al.Show and Tell:A Neural Image Caption Generator[C]//The IEEE Conference on Computer Vision and Pattern Recognition (CVPR).2015:3156-3164. [19]CARNEIRO G.Supervised Learning of Semantic Classes for Image Annotation and Retrieval [J].IEEE Transactions on Pattern Analysis & Machine Intelligence,2007,29(3):394-410. [20]VOGEL J,SCHIELE B.Semantic Modeling of Natural Scenes for Content-Based Image Retrieval [J].International Journal of Computer Vision,2007,72(2):133-157. [21]LU C,KRISHNA R,BERNSTEIN M,et al.Visual Relationship Detection with Language Priors[C]//European Conference on Computer Vision (ECCV).2016:852-869. [22]ZHANG H,KYAW Z,CHANG S F,et al.Visual Translation Embedding Network for Visual Relation Detection[C]//IEEE Conference on Computer Vision and Pattern Recognition (CVPR).2017:5532-5540. [23]DAI B,ZHANG Y,LIN D.Detecting Visual Relationships with Deep Relational Networks[C]//IEEE Conference on Computer Vision and Pattern Recognition (CVPR).2017:3076-3086. [24]XU D,ZHU Y,CHOY C B,et al.Scene Graph Generation by Iterative Message Passing[C]//IEEE Conference on Computer Vision and Pattern Recognition (CVPR).2017:5410-5419. [25]ZELLERS R,YATSKAR M,THOMSON S,et al.Neural Motifs:Scene Graph Parsing with Global Context[C]//IEEE Conference on Computer Vision and Pattern Recognition (CVPR).2018:5831-5840. [26]NEWELL A,DENG J.Pixels to Graphs by Associative Embedding[C]//Neural Information Processing Systems (NIPS).2017:2171-2180. [27]LIBEN-NOWELL D,KLEINBERG J.The Link PredictionProblem for Social Networks [J].Journal of the American Socie-ty for Information Science and Technology,2003,58(7):1019-1031. [28]BACKSTROM L,LESKOVEC J.Supervised Random Walks:Predicting and Recommending Links in Social Networks[C]//Proceedings of the Fourth ACM International Conference on Web Search and Data Mining.2011:635-644. [29]ANTOINE B,NICOLAS U,ALBERTO G D,et al.Translating Embeddings for Modeling Multi-relational Data[C]//Neural Information Processing Systems (NIPS).2013:2787-2795. [30]KRISHNA R,ZHU Y,GROTH O,et al.Visual Genome:Connecting Language and Vision using Crowdsourced Dense Image Annotations [J].International Journal of Computer Vision,2017,123(1):32-73. [31]SRIVASTAVA N,HINTON G,KRIZHEVSKY A,et al.Dropout:A Simple Way to Prevent Neural Networks from Overfitting [J].Journal of Machine Learning Research,2014,15(1):1929-1958. [32]TOKUI S,OONO K,HIDO S.Chainer:a Next-Generation Open Source Framework for Deep Learning[C]//Proceedings of Workshop on Machine Learning Systems (LearningSys) in The Twenty-ninth Annual Conference on Neural Information Processing Systems (NIPS).2015. [33]RYOSUKE O,YUYA U,et al.CuPy:A NumPy-Compatible Library for NVIDIA GPU Calculations[C]//Proceedings of Workshop on Machine Learning Systems (LearningSys) in The Thirty-first Annual Conference on Neural Information Proces-sing Systems (NIPS).2017. |
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