Yonghong Tian scite author profile

Most existing person re-identification (Re-ID) approaches follow a supervised learning framework, in which a large number of labelled matching pairs are required for training. This severely limits their scalability in realworld applications. To overcome this limitation, we develop a novel cross-dataset transfer learning approach to learn a discriminative representation. It is unsupervised in the sense that the target dataset is completely unlabelled. Specifically, we present an multi-task dictionary learning method which is able to learn a dataset-shared but targetdata-biased representation. Experimental results on five benchmark datasets demonstrate that the method significantly outperforms the state-of-the-art.

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Incorporating Learnable Membrane Time Constant to Enhance Learning of Spiking Neural Networks

Fang

Chen

et al. 2021

222

223

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Part-Regularized Near-Duplicate Vehicle Re-Identification

Zhao

et al. 2019

237

173

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AD-Cluster: Augmented Discriminative Clustering for Domain Adaptive Person Re-Identification

Zhai

et al. 2020

267

145

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Selectivity or Invariance: Boundary-Aware Salient Object Detection

Zhang

et al. 2019

181

141

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Typically, a salient object detection (SOD) model faces opposite requirements in processing object interiors and boundaries. The features of interiors should be invariant to strong appearance change so as to pop-out the salient object as a whole, while the features of boundaries should be selective to slight appearance change to distinguish salient objects and background. To address this selectivityinvariance dilemma, we propose a novel boundary-aware network with successive dilation for image-based SOD. In this network, the feature selectivity at boundaries is enhanced by incorporating a boundary localization stream, while the feature invariance at interiors is guaranteed with a complex interior perception stream. Moreover, a transition compensation stream is adopted to amend the probable failures in transitional regions between interiors and boundaries. In particular, an integrated successive dilation module is proposed to enhance the feature invariance at interiors and transitional regions. Extensive experiments on six datasets show that the proposed approach outperforms 16 state-of-the-art methods.

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Deep Transfer Learning for Person Re-identification

Geng¹,

Wang²,

Xiang³

et al. 2016

Preprint

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Person re-identification (Re-ID) poses a unique challenge to deep learning: how to learn a deep model with millions of parameters on a small training set of few or no labels. In this paper, a number of deep transfer learning models are proposed to address the data sparsity problem. First, a deep network architecture is designed which differs from existing deep Re-ID models in that (a) it is more suitable for transferring representations learned from large image classification datasets, and (b) classification loss and verification loss are combined, each of which adopts a different dropout strategy. Second, a two-stepped fine-tuning strategy is developed to transfer knowledge from auxiliary datasets. Third, given an unlabelled Re-ID dataset, a novel unsupervised deep transfer learning model is developed based on co-training. The proposed models outperform the state-ofthe-art deep Re-ID models by large margins: we achieve Rank-1 accuracy of 85.4%, 83.7% and 56.3% on CUHK03, Market1501, and VIPeR respectively, whilst on VIPeR, our unsupervised model (45.1%) beats most supervised models.

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Yonghong Tian

Deep Relative Distance Learning: Tell the Difference between Similar Vehicles

HRank: Filter Pruning Using High-Rank Feature Map

Unsupervised Cross-Dataset Transfer Learning for Person Re-identification

Incorporating Learnable Membrane Time Constant to Enhance Learning of Spiking Neural Networks

Part-Regularized Near-Duplicate Vehicle Re-Identification

AD-Cluster: Augmented Discriminative Clustering for Domain Adaptive Person Re-Identification

Selectivity or Invariance: Boundary-Aware Salient Object Detection

Deep Transfer Learning for Person Re-identification

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