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Your search keyword '"Zhu, Wanqing"' showing total 25 results
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25 results on '"Zhu, Wanqing"'

1. SRoUDA: Meta Self-training for Robust Unsupervised Domain Adaptation

Author

Zhu, Wanqing, Yin, Jia-Li, Chen, Bo-Hao, and Liu, Ximeng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

As acquiring manual labels on data could be costly, unsupervised domain adaptation (UDA), which transfers knowledge learned from a rich-label dataset to the unlabeled target dataset, is gaining increasing popularity. While extensive studies have been devoted to improving the model accuracy on target domain, an important issue of model robustness is neglected. To make things worse, conventional adversarial training (AT) methods for improving model robustness are inapplicable under UDA scenario since they train models on adversarial examples that are generated by supervised loss function. In this paper, we present a new meta self-training pipeline, named SRoUDA, for improving adversarial robustness of UDA models. Based on self-training paradigm, SRoUDA starts with pre-training a source model by applying UDA baseline on source labeled data and taraget unlabeled data with a developed random masked augmentation (RMA), and then alternates between adversarial target model training on pseudo-labeled target data and finetuning source model by a meta step. While self-training allows the direct incorporation of AT in UDA, the meta step in SRoUDA further helps in mitigating error propagation from noisy pseudo labels. Extensive experiments on various benchmark datasets demonstrate the state-of-the-art performance of SRoUDA where it achieves significant model robustness improvement without harming clean accuracy. Code is available at https://github.com/Vision., Comment: This paper has been accepted for presentation at the AAAI2023

Published
2022

2. Universal Generative Modeling for Calibration-free Parallel Mr Imaging

Author

Zhu, Wanqing, Guan, Bing, Wang, Shanshan, Zhang, Minghui, and Liu, Qiegen

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The integration of compressed sensing and parallel imaging (CS-PI) provides a robust mechanism for accelerating MRI acquisitions. However, most such strategies require the explicit formation of either coil sensitivity profiles or a cross-coil correlation operator, and as a result reconstruction corresponds to solving a challenging bilinear optimization problem. In this work, we present an unsupervised deep learning framework for calibration-free parallel MRI, coined universal generative modeling for parallel imaging (UGM-PI). More precisely, we make use of the merits of both wavelet transform and the adaptive iteration strategy in a unified framework. We train a powerful noise conditional score network by forming wavelet tensor as the network input at the training phase. Experimental results on both physical phantom and in vivo datasets implied that the proposed method is comparable and even superior to state-of-the-art CS-PI reconstruction approaches.

Published
2022

3. Push Stricter to Decide Better: A Class-Conditional Feature Adaptive Framework for Improving Adversarial Robustness

Author

Yin, Jia-Li, Xie, Lehui, Zhu, Wanqing, Liu, Ximeng, and Chen, Bo-Hao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In response to the threat of adversarial examples, adversarial training provides an attractive option for enhancing the model robustness by training models on online-augmented adversarial examples. However, most of the existing adversarial training methods focus on improving the robust accuracy by strengthening the adversarial examples but neglecting the increasing shift between natural data and adversarial examples, leading to a dramatic decrease in natural accuracy. To maintain the trade-off between natural and robust accuracy, we alleviate the shift from the perspective of feature adaption and propose a Feature Adaptive Adversarial Training (FAAT) optimizing the class-conditional feature adaption across natural data and adversarial examples. Specifically, we propose to incorporate a class-conditional discriminator to encourage the features become (1) class-discriminative and (2) invariant to the change of adversarial attacks. The novel FAAT framework enables the trade-off between natural and robust accuracy by generating features with similar distribution across natural and adversarial data, and achieve higher overall robustness benefited from the class-discriminative feature characteristics. Experiments on various datasets demonstrate that FAAT produces more discriminative features and performs favorably against state-of-the-art methods. Codes are available at https://github.com/VisionFlow/FAAT.

Published
2021

24. Joint Pricing, Operational Planning and Routing Design of a Fixed-Route Ride-sharing Service

Author

Zhu, Wanqing

Subjects
Data-driven demand model, Nonlinear optimization, Mixed integer linear programming, Route design, Genetic algorithm
Abstract

Fixed-route ride-sharing services are becoming increasing popular among major metropolitan areas, e.g., Chariot, OurBus, Boxcar. Effective routing design and pricing and operational planning of these services are undeniably crucial in their profitability and survival. However, the effectiveness of existing approaches have been hindered by the accuracy in demand estimation. In this paper, we develop a demand model using the multinomial logit model. We also construct a nonlinear optimization model based on this demand model to jointly optimize price and operational decisions. Moreover, we develop a mixed integer linear optimization model to the routing design decision. And a genetic algorithm based approach is proposed to solve the optimization model. Two case studies based on a real world fixed-route ride-sharing service are presented to demonstrate how the proposed models are used to improve the profitability of the service respectively. We also show how this model can apply in settings where only limited public data are available to obtain effective estimation of demand and profit.

Published
2018

25. Carbon framework microbelt supporting SnO x as a high performance electrode for lithium ion batteries.

Author

Xie W, Wang Q, Wang W, Xu Z, Li N, Li M, Jia L, Zhu W, Cao Z, and Xu J

Abstract

Facile preparation of rational SnO x -based electrode materials with excellent electrochemical performance is highly desired for lithium ion batteries (LIBs). In this work, carbon framework microbelt supporting SnO x nanoparticles (CFM-SnO x ) were prepared via a facile electrospinning technology and annealing treatment process. The as-synthesized CFM-SnO x electrode exhibits high reversible capacity of 768 mAh g -1 at 0.2 A g -1 after 200 cycles, high rate capacity of 535 mAh g -1 at high current density of 3.2 A g -1 . The facile synthesis and superior performance indicate that the as-synthesized CFM-SnO x is a competitive anode material for LIBs.

Published
2019
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