Densely Connected Convolutional Networks
Gao Huang,Zhuang Liu,Laurens van der Maaten,Kilian Q. Weinberger +3 more
- pp 2261-2269
TLDR
DenseNet as mentioned in this paper proposes to connect each layer to every other layer in a feed-forward fashion, which can alleviate the vanishing gradient problem, strengthen feature propagation, encourage feature reuse, and substantially reduce the number of parameters.Abstract:
Recent work has shown that convolutional networks can be substantially deeper, more accurate, and efficient to train if they contain shorter connections between layers close to the input and those close to the output. In this paper, we embrace this observation and introduce the Dense Convolutional Network (DenseNet), which connects each layer to every other layer in a feed-forward fashion. Whereas traditional convolutional networks with L layers have L connections—one between each layer and its subsequent layer—our network has L(L+1)/2 direct connections. For each layer, the feature-maps of all preceding layers are used as inputs, and its own feature-maps are used as inputs into all subsequent layers. DenseNets have several compelling advantages: they alleviate the vanishing-gradient problem, strengthen feature propagation, encourage feature reuse, and substantially reduce the number of parameters. We evaluate our proposed architecture on four highly competitive object recognition benchmark tasks (CIFAR-10, CIFAR-100, SVHN, and ImageNet). DenseNets obtain significant improvements over the state-of-the-art on most of them, whilst requiring less memory and computation to achieve high performance. Code and pre-trained models are available at https://github.com/liuzhuang13/DenseNet.read more
Citations
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T2VLAD: Global-Local Sequence Alignment for Text-Video Retrieval
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TL;DR: In this paper, a global alignment method is proposed to provide a global cross-modal measurement that is complementary to the local perspective, which enables the meticulous local comparison and reduces the computational cost of the interaction between each text-video pair.
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Review of multi-view 3D object recognition methods based on deep learning
TL;DR: A comprehensive review and classification of the latest developments in the deep learning methods for multi-view 3D object recognition is presented, which summarizes the results of these methods on a few mainstream datasets, provides an insightful summary, and puts forward enlightening future research directions.
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Attention Guided Graph Convolutional Networks for Relation Extraction
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Zeyuan Allen-Zhu,Yuanzhi Li +1 more
TL;DR: This paper formally analyzes how multi-layer neural networks can perform hierarchical learning efficiently and automatically by applying SGD and establishes a principle called "backward feature correction", where training higher layers in the network can improve the features of lower level ones.
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Multi-Temporal Ultra Dense Memory Network for Video Super-Resolution
TL;DR: A multi-temporal ultra-dense memory (MTUDM) network for video super-resolution is proposed that outperforms the state-of-the-art methods by a large margin and adopts multi- Temporal information fusion (MTIF) strategy to merge the extracted temporal feature maps in consecutive frames, improving the accuracy without requiring much extra computational cost.
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