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1. The Ninth NTIRE 2024 Efficient Super-Resolution Challenge Report

Author

Ren, Bin, Li, Yawei, Mehta, Nancy, Timofte, Radu, Yu, Hongyuan, Wan, Cheng, Hong, Yuxin, Han, Bingnan, Wu, Zhuoyuan, Zou, Yajun, Liu, Yuqing, Li, Jizhe, He, Keji, Fan, Chao, Zhang, Heng, Zhang, Xiaolin, Yin, Xuanwu, Zuo, Kunlong, Liao, Bohao, Xia, Peizhe, Peng, Long, Du, Zhibo, Di, Xin, Li, Wangkai, Wang, Yang, Zhai, Wei, Pei, Renjing, Guo, Jiaming, Xu, Songcen, Cao, Yang, Zha, Zhengjun, Wang, Yan, Liu, Yi, Wang, Qing, Zhang, Gang, Zhang, Liou, Zhao, Shijie, Sun, Long, Pan, Jinshan, Dong, Jiangxin, Tang, Jinhui, Liu, Xin, Yan, Min, Wang, Qian, Zhou, Menghan, Yan, Yiqiang, Liu, Yixuan, Chan, Wensong, Tang, Dehua, Zhou, Dong, Wang, Li, Tian, Lu, Emad, Barsoum, Jia, Bohan, Qiao, Junbo, Zhou, Yunshuai, Zhang, Yun, Li, Wei, Lin, Shaohui, Zhou, Shenglong, Chen, Binbin, Liao, Jincheng, Zhao, Suiyi, Zhang, Zhao, Wang, Bo, Luo, Yan, Wei, Yanyan, Li, Feng, Wang, Mingshen, Guan, Jinhan, Hu, Dehua, Yu, Jiawei, Xu, Qisheng, Sun, Tao, Lan, Long, Xu, Kele, Lin, Xin, Yue, Jingtong, Yang, Lehan, Du, Shiyi, Qi, Lu, Ren, Chao, Han, Zeyu, Wang, Yuhan, Chen, Chaolin, Li, Haobo, Zheng, Mingjun, Yang, Zhongbao, Song, Lianhong, Yan, Xingzhuo, Fu, Minghan, Zhang, Jingyi, Li, Baiang, Zhu, Qi, Xu, Xiaogang, Guo, Dan, Guo, Chunle, Chen, Jiadi, Long, Huanhuan, Duanmu, Chunjiang, Lei, Xiaoyan, Liu, Jie, Jia, Weilin, Cao, Weifeng, Zhang, Wenlong, Mao, Yanyu, Guo, Ruilong, Zhang, Nihao, Pandey, Manoj, Chernozhukov, Maksym, Le, Giang, Cheng, Shuli, Wang, Hongyuan, Wei, Ziyan, Tang, Qingting, Wang, Liejun, Li, Yongming, Guo, Yanhui, Xu, Hao, Khatami-Rizi, Akram, Mahmoudi-Aznaveh, Ahmad, Hsu, Chih-Chung, Lee, Chia-Ming, Chou, Yi-Shiuan, Joshi, Amogh, Akalwadi, Nikhil, Malagi, Sampada, Yashaswini, Palani, Desai, Chaitra, Tabib, Ramesh Ashok, Patil, Ujwala, and Mudenagudi, Uma

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

This paper provides a comprehensive review of the NTIRE 2024 challenge, focusing on efficient single-image super-resolution (ESR) solutions and their outcomes. The task of this challenge is to super-resolve an input image with a magnification factor of x4 based on pairs of low and corresponding high-resolution images. The primary objective is to develop networks that optimize various aspects such as runtime, parameters, and FLOPs, while still maintaining a peak signal-to-noise ratio (PSNR) of approximately 26.90 dB on the DIV2K_LSDIR_valid dataset and 26.99 dB on the DIV2K_LSDIR_test dataset. In addition, this challenge has 4 tracks including the main track (overall performance), sub-track 1 (runtime), sub-track 2 (FLOPs), and sub-track 3 (parameters). In the main track, all three metrics (ie runtime, FLOPs, and parameter count) were considered. The ranking of the main track is calculated based on a weighted sum-up of the scores of all other sub-tracks. In sub-track 1, the practical runtime performance of the submissions was evaluated, and the corresponding score was used to determine the ranking. In sub-track 2, the number of FLOPs was considered. The score calculated based on the corresponding FLOPs was used to determine the ranking. In sub-track 3, the number of parameters was considered. The score calculated based on the corresponding parameters was used to determine the ranking. RLFN is set as the baseline for efficiency measurement. The challenge had 262 registered participants, and 34 teams made valid submissions. They gauge the state-of-the-art in efficient single-image super-resolution. To facilitate the reproducibility of the challenge and enable other researchers to build upon these findings, the code and the pre-trained model of validated solutions are made publicly available at https://github.com/Amazingren/NTIRE2024_ESR/., Comment: The report paper of NTIRE2024 Efficient Super-resolution, accepted by CVPRW2024

Published
2024

2. A Trait-based Investigation of Fungal Decomposition with Machine Learning

Author

Du Shiyi, Zhao Yiran, and Tian Bingwei

Subjects
fungal traits, machining learning, regression, logistic growth, sobol, Environmental sciences, GE1-350
Abstract

Fungi are of great functional significance in terrestrial ecosystems as the main decomposers. To better understand their decomposing process and population coexistence, we first describe and quantify the decomposition rate, focusing on three traits of interest selected by machine learning algorithm: moisture tolerance, hyper extension rate, and hyphal density and obtain, and use a Ternary Linear Regression Decomposition Model (TLRDM) to quantify the decomposition rate. Then, to incorporate the interactions, we build an Interactive Decomposition Model (IDM) and creatively employ a Three-player Logistic-based Competition Population Model (TPLCM). Based on logistic growth, we formulate a differential equation group, fit the curves of this unsolvable equation group to obtain a function of population density versus time and compare the decomposition rates of three populations under interactive and non-interactive conditions, followed by analyzing the impact of the communications on decomposing ability. We obtain the population combinations that can coexist in certain climates. Furthermore, we include environmental factors, conducting a sensitivity analysis to describe how short-term and long-term climate changes affect our models.

Published
2022
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3. Boosting Dermatoscopic Lesion Segmentation via Diffusion Models with Visual and Textual Prompts

Author

Du, Shiyi, Wang, Xiaosong, Lu, Yongyi, Zhou, Yuyin, Zhang, Shaoting, Yuille, Alan, Li, Kang, and Zhou, Zongwei

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Image synthesis approaches, e.g., generative adversarial networks, have been popular as a form of data augmentation in medical image analysis tasks. It is primarily beneficial to overcome the shortage of publicly accessible data and associated quality annotations. However, the current techniques often lack control over the detailed contents in generated images, e.g., the type of disease patterns, the location of lesions, and attributes of the diagnosis. In this work, we adapt the latest advance in the generative model, i.e., the diffusion model, with the added control flow using lesion-specific visual and textual prompts for generating dermatoscopic images. We further demonstrate the advantage of our diffusion model-based framework over the classical generation models in both the image quality and boosting the segmentation performance on skin lesions. It can achieve a 9% increase in the SSIM image quality measure and an over 5% increase in Dice coefficients over the prior arts., Comment: 10 pages, 4 figures

Published
2023

4. An evaluation of U-Net in Renal Structure Segmentation

Author

Wang, Haoyu, Huang, Ziyan, Ye, Jin, Tu, Can, Yang, Yuncheng, Du, Shiyi, Deng, Zhongying, Ma, Chenglong, Niu, Jingqi, and He, Junjun

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Renal structure segmentation from computed tomography angiography~(CTA) is essential for many computer-assisted renal cancer treatment applications. Kidney PArsing~(KiPA 2022) Challenge aims to build a fine-grained multi-structure dataset and improve the segmentation of multiple renal structures. Recently, U-Net has dominated the medical image segmentation. In the KiPA challenge, we evaluated several U-Net variants and selected the best models for the final submission.

Published
2022

6. Revisiting nnU-Net for Iterative Pseudo Labeling and Efficient Sliding Window Inference

Author

Huang, Ziyan, Wang, Haoyu, Ye, Jin, Niu, Jingqi, Tu, Can, Yang, Yuncheng, Du, Shiyi, Deng, Zhongying, Gu, Lixu, He, Junjun, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Ma, Jun, editor, and Wang, Bo, editor

Published
2022
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7. Distilling Knowledge from Topological Representations for Pathological Complete Response Prediction

Author

Du, Shiyi, Lao, Qicheng, Kang, Qingbo, Li, Yiyue, Jiang, Zekun, Zhao, Yanfeng, Li, Kang, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Wang, Linwei, editor, Dou, Qi, editor, Fletcher, P. Thomas, editor, Speidel, Stefanie, editor, and Li, Shuo, editor

Published
2022
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10. Reliable multiplex sequencing with rare index mis-assignment on DNB-based NGS platform

Author

Li, Qiaoling, Zhao, Xia, Zhang, Wenwei, Wang, Lin, Wang, Jingjing, Xu, Dongyang, Mei, Zhiying, Liu, Qiang, Du, Shiyi, Li, Zhanqing, Liang, Xinming, Wang, Xiaman, Wei, Hanmin, Liu, Pengjuan, Zou, Jing, Shen, Hanjie, Chen, Ao, Drmanac, Snezana, Liu, Jia Sophie, Li, Li, Jiang, Hui, Zhang, Yongwei, Wang, Jian, Yang, Huanming, Xu, Xun, Drmanac, Radoje, and Jiang, Yuan

Published
2019
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15. Integrated multi-omics analysis to study the effects of simulated weightlessness on rhesus macaques (Macaca mulatta)

Author

Zhou Ying, Chen Shanguang, Li Weidong, Peng Ling, Chen Xiaoping, Kan Guanghan, Liu Hongju, Liu Xingmin, Li Ronghui, Chen Jianwei, Zhang Peng, Du Shiyi, Fan Guangyi, Liang Xinming, Han Peng, Shao Libin, Chu Xixia, Xu Xun, Li Wenjiong, Zhang Jie, Liu Xin, Ji Jingkai, Wang Fei, and Mei Zhanlong

Subjects
Transcriptome, Metabolomics, Metagenomics, Genomic research, Multi omics, Computational biology, Tryptophan Metabolism, Biology, Simulated weightlessness, Hippocampal region
Abstract

Safety and health of astronauts in space is one of the most important aspects of space exploration, however, the genomic research about how a weightless space can affect astronaut’s health was limited. In this study, we sequenced 25 transcriptomic, 42 metabolomic and 35 metagenomic data of 15 rhesus macaques (Macaca mulatta) spanning seven simulated weightlessness experiment stages. We identified 84 genes, 1911 features and 55 genera which are significantly changed in blood and muscle, hippocampal region, dorsomedial prefrontal cortex as well as fecal, respectively. Furthermore, performing the integrated analysis of three omics data, we found several pathways which were related to regulation of immune system process, glucose uptake, reaction to threatens, neurotoxic and bone or joints damage, such as tyrosine metabolism and tryptophan metabolism. Our results provided an initial attempt of “multi-omics” approaches which combined transcriptomics, metabolomics and metagenomics to illustrate some molecular clues for simulated weightlessness effect on the rhesus macaques and potential sight of microgravity’s effect on astronauts’ health.

Published
2019
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16. Integrated multi-omics analysis to study the effects of simulated weightlessness on rhesus macaques (Macaca mulatta)

Author

Zhang, Peng, primary, Shao, Libin, additional, Zhang, Jie, additional, Li, Wenjiong, additional, Fan, Guangyi, additional, Zhou, Ying, additional, Kan, Guanghan, additional, Liu, Hongju, additional, Li, Weidong, additional, Wang, Fei, additional, Chu, Xixia, additional, Han, Peng, additional, Peng, Ling, additional, Liu, Xingmin, additional, Chen, Jianwei, additional, Liang, Xinming, additional, Ji, Jingkai, additional, Du, Shiyi, additional, Mei, Zhanlong, additional, Li, Ronghui, additional, Xu, Xun, additional, Chen, Shanguang, additional, Liu, Xin, additional, and Chen, Xiaoping, additional

Published
2019
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17. Reliable Multiplex Sequencing with Rare Index Mis-Assignment on DNB-Based NGS Platform

Author

Li, Qiaoling, primary, Zhao, Xia, additional, Zhang, Wenwei, additional, Wang, Lin, additional, Wang, Jingjing, additional, Xu, Dongyang, additional, Mei, Zhiying, additional, Liu, Qiang, additional, Du, Shiyi, additional, Li, Zhanqing, additional, Liang, Xinming, additional, Wang, Xiaman, additional, Wei, Hanmin, additional, Liu, Pengjuan, additional, Zou, Jing, additional, Shen, Hanjie, additional, Chen, Ao, additional, Drmanac, Snezana, additional, Liu, Jia Sophie, additional, Li, Li, additional, Jiang, Hui, additional, Zhang, Yongwei, additional, Wang, Jian, additional, Yang, Huanming, additional, Xu, Xun, additional, Drmanac, Radoje, additional, and Jiang, Yuan, additional

Published
2018
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18. Data enhanced iterative few-sample learning algorithm-based inverse design of 2D programmable chiral metamaterials

Author

Zhao Zeyu, You Jie, Zhang Jun, Du Shiyin, Tao Zilong, Tang Yuhua, and Jiang Tian

Subjects
deep learning, few-sample, inverse design, programmable metamaterial, Physics, QC1-999
Abstract

A data enhanced iterative few-sample (DEIFS) algorithm is proposed to achieve the accurate and efficient inverse design of multi-shaped 2D chiral metamaterials. Specifically, three categories of 2D diffractive chiral structures with different geometrical parameters, including widths, separation spaces, bridge lengths, and gold lengths are studied utilising both the conventional rigorous coupled wave analysis (RCWA) approach and DEIFS algorithm, with the former approach assisting the training process for the latter. The DEIFS algorithm can be divided into two main stages, namely data enhancement and iterations. Firstly, some “pseudo data” are generated by a forward prediction network that can efficiently predict the circular dichroism (CD) response of 2D diffractive chiral metamaterials to reinforce the dataset after necessary denoising. Then, the algorithm uses the CD spectra and the predictions of parameters with smaller errors iteratively to achieve accurate values of the remaining parameters. Meanwhile, according to the impact of geometric parameters on the chiroptical response, a new functionality is added to interpret the experimental results of DEIFS algorithm from the perspective of data, improving the interpretability of the DEIFS. In this way, the DEIFS algorithm replaces the time-consuming iterative optimization process with a faster and simpler approach that achieves accurate inverse design with dataset whose amount is at least one to two orders of magnitude less than most previous deep learning methods, reducing the dependence on simulated spectra. Furthermore, the fast inverse design of multiple shaped metamaterials allows for different light manipulation, demonstrating excellent potentials in applications of optical coding and information processing. This work belongs to one of the first attempts to thoroughly characterize the flexibility, interpretability, and generalization ability of DEIFS algorithm in studying various chiroptical effects in metamaterials and accelerating the inverse design of hypersensitive photonic devices.

Published
2022
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21. Expedited circular dichroism prediction and engineering in two-dimensional diffractive chiral metamaterials leveraging a powerful model-agnostic data enhancement algorithm

Author

Du Shiyin, You Jie, Zhang Jun, Tao Zilong, Hao Hao, Tang Yuhua, Zheng Xin, and Jiang Tian

Subjects
diffractive chiral metamaterials, machine learning methods, model-agnostic data enhancement algorithm, optical chirality, polarization-controllable devices, Physics, QC1-999
Abstract

A model-agnostic data enhancement (MADE) algorithm is proposed to comprehensively investigate the circular dichroism (CD) properties in the higher-order diffracted patterns of two-dimensional (2D) chiral metamaterials possessing different parameters. A remarkable feature of MADE algorithm is that it leverages substantially less data from a target problem and some training data from another already solved topic to generate a domain adaptation dataset, which is then used for model training at no expense of abundant computational resources. Specifically, nine differently shaped 2D chiral metamaterials with different unit period and one special sample containing multiple chiral parameters are both studied utilizing the MADE algorithm where three machine learning models (i.e, artificial neural network, random forest regression, support vector regression) are applied. The conventional rigorous coupled wave analysis approach is adopted to capture CD responses of these metamaterials and then assist the training of MADE, while the additional training data are obtained from our previous work. Significant evaluations regarding optical chirality in 2D metamaterials possessing various shape, unit period, width, bridge length, and separation length are performed in a fast, accurate, and data-friendly manner. The MADE framework introduced in this work is extremely important for the large-scale, efficient design of 2D diffractive metamaterials and more advanced photonic devices.

Published
2020
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22. The mitochondrial genome of the winter stonefly Apteroperla tikumana (Plecoptera, Capniidae).

Author

Zhou, Chengran, Tan, Meihua, Du, Shiyi, Zhang, Rui, Machida, Ryuichiro, and Zhou, Xin

Subjects
CAPNIIDAE, INSECTS, MITOCHONDRIAL DNA, INSECT phylogeny, INSECT genetics, CLASSIFICATION of insects, TRANSFER RNA, RIBOSOMAL RNA
Abstract

The mitochondrial genome ofApteroperla tikumanawas assembled from transcriptome usingSOAPdenovo-Trans. A nearly complete mitogenome, 15 564 bp in length, was obtained, including 13 protein-coding genes, two ribosomal RNA genes, and 22 transfer RNA genes. The base composition is A (34.21%), T (32.29%), C (19.86%), and G (13.64%). A phylogram was reconstructed using the mitogenomes ofA. tikumanaand its relatives using the distance method (neighbor joining, NJ). This mitogenome will assist a variety of biodiversity researches, especially in taxonomy and phylogeny of stoneflies. [ABSTRACT FROM AUTHOR]

Published
2016
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