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1,070 results on '"Wang, WeiWen"'

1. Invariant Risk Minimization Is A Total Variation Model

Author

Lai, Zhao-Rong and Wang, Weiwen

Subjects
Computer Science - Machine Learning
Abstract

Invariant risk minimization (IRM) is an arising approach to generalize invariant features to different environments in machine learning. While most related works focus on new IRM settings or new application scenarios, the mathematical essence of IRM remains to be properly explained. We verify that IRM is essentially a total variation based on $L^2$ norm (TV-$\ell_2$) of the learning risk with respect to the classifier variable. Moreover, we propose a novel IRM framework based on the TV-$\ell_1$ model. It not only expands the classes of functions that can be used as the learning risk and the feature extractor, but also has robust performance in denoising and invariant feature preservation based on the coarea formula. We also illustrate some requirements for IRM-TV-$\ell_1$ to achieve out-of-distribution generalization. Experimental results show that the proposed framework achieves competitive performance in several benchmark machine learning scenarios., Comment: ICML 2024

Published
2024

3. DecentTree: scalable Neighbour-Joining for the genomic era.

Author

Lanfear, Robert, Minh, Bui, Wang, Weiwen, Barbetti, James, Wong, Thomas, Thornlow, Bryan, Corbett-Detig, Russ, and Turakhia, Yatish

Subjects
Humans, Phylogeny, COVID-19, SARS-CoV-2, Genomics, Gene Library
Abstract

MOTIVATION: Neighbour-Joining is one of the most widely used distance-based phylogenetic inference methods. However, current implementations do not scale well for datasets with more than 10 000 sequences. Given the increasing pace of generating new sequence data, particularly in outbreaks of emerging diseases, and the already enormous existing databases of sequence data for which Neighbour-Joining is a useful approach, new implementations of existing methods are warranted. RESULTS: Here, we present DecentTree, which provides highly optimized and parallel implementations of Neighbour-Joining and several of its variants. DecentTree is designed as a stand-alone application and a header-only library easily integrated with other phylogenetic software (e.g. it is integral in the popular IQ-TREE software). We show that DecentTree shows similar or improved performance over existing software (BIONJ, Quicktree, FastME, and RapidNJ), especially for handling very large alignments. For example, DecentTree is up to 6-fold faster than the fastest existing Neighbour-Joining software (e.g. RapidNJ) when generating a tree of 64 000 SARS-CoV-2 genomes. AVAILABILITY AND IMPLEMENTATION: DecentTree is open source and freely available at https://github.com/iqtree/decenttree. All code and data used in this analysis are available on Github (https://github.com/asdcid/Comparison-of-neighbour-joining-software).

Published
2023

4. Enhanced proton conductivity of sulfonated poly(ether ether ketone) membranes by constructing cation-[pi] through doping ammonium ionic liquid and graphene oxide

Author

Qu, Shuguo, Song, Jinxun, Lv, Xueyan, Sun, Lijun, Ding, Luyang, Jin, Guihua, Duan, Jihai, and Wang, Weiwen

Subjects
Founding -- Electric properties, Graphite -- Electric properties, Graphene -- Electric properties, Engineering and manufacturing industries, Science and technology
Abstract

In this paper, sulfonic acid functionalized benzothiazole ionic liquid ([[(C[H.sub.2]).sub.3]S[O.sub.3]HBth] [[H.sub.2]P[O.sub.4]]) and graphene oxide were combined together through the cation-[pi]. The sulfonated poly (ether ether ketone) was doped with ionic liquid-modified GO (IL-GO) to prepare the SPEEK/IL-GO composite membrane through the solution casting method. The - S[O.sub.3]H and benzothiazole rings act as both proton acceptors and proton donors during proton transport and can replace the role of water in medium- and high-temperature environments, increasing the proton transport sites to a certain extent and increasing the proton conductivity of the SPEEK/IL-GO composite membrane. The proton conductivity of the SPEEK/IL-GO-2 composite membrane achieved an 18.02 mS/cm at 120[degrees]C, which is 2.43 times higher than that of the pristine SPEEK membrane. This paper provided a method for increasing proton conductivity and limiting IL loss of the SPEEK membrane. Highlights * [[(C[H.sub.2]).sub.3]S[O.sub.3]HBth][[H.sub.2]P[O.sub.4]] and graphene oxide were combined through cation-[pi]. * The benzothiazole ring and -S[O.sub.3]H form acid-base pairs. * The proton conductivity of SPEEK/IL-GO-2 membrane achieved 18.02 mS/cm. KEYWORDS cation-[pi], graphene oxide, high proton conductivity, proton exchange membranes, 1 | INTRODUCTION The massive use of traditional fossil energy sources has caused problems such as environmental pollution and resource shortages. (1-3) New energy technologies are constantly being explored in [...]

Published
2024
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6. Safety, immunogenicity and protective effectiveness of heterologous boost with a recombinant COVID-19 vaccine (Sf9 cells) in adult recipients of inactivated vaccines

Author

Luo, Wenxin, Gan, Jiadi, Luo, Zhu, Li, Shuangqing, Wang, Zhoufeng, Wu, Jiaxuan, Zhang, Huohuo, Xian, Jinghong, Cheng, Ruixin, Tang, Xiumei, Liu, Yi, Yang, Ling, Mou, Qianqian, Zhang, Xue, Chen, Yi, Wang, Weiwen, Wang, Yantong, Bai, Lin, Wei, Xuan, Zhang, Rui, Yang, Lan, Chen, Yaxin, Yang, Li, Li, Yalun, Liu, Dan, Li, Weimin, and Chen, Lei

Published
2024
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