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176 results on '"Hao, Xinyue"'

1. Principles of Visual Tokens for Efficient Video Understanding

Author

Hao, Xinyue, Li, Gen, Gowda, Shreyank N, Fisher, Robert B, Huang, Jonathan, Arnab, Anurag, and Sevilla-Lara, Laura

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Video understanding has made huge strides in recent years, relying largely on the power of the transformer architecture. As this architecture is notoriously expensive and video is highly redundant, research into improving efficiency has become particularly relevant. This has led to many creative solutions, including token merging and token selection. While most methods succeed in reducing the cost of the model and maintaining accuracy, an interesting pattern arises: most methods do not outperform the random sampling baseline. In this paper we take a closer look at this phenomenon and make several observations. First, we develop an oracle for the value of tokens which exposes a clear Pareto distribution where most tokens have remarkably low value, and just a few carry most of the perceptual information. Second, we analyze why this oracle is extremely hard to learn, as it does not consistently coincide with visual cues. Third, we observe that easy videos need fewer tokens to maintain accuracy. We build on these and further insights to propose a lightweight video model we call LITE that can select a small number of tokens effectively, outperforming state-of-the-art and existing baselines across datasets (Kinetics400 and Something-Something-V2) in the challenging trade-off of computation (GFLOPs) vs accuracy.

Published
2024

2. Watt For What: Rethinking Deep Learning's Energy-Performance Relationship

Author

Gowda, Shreyank N, Hao, Xinyue, Li, Gen, Gowda, Shashank Narayana, Jin, Xiaobo, and Sevilla-Lara, Laura

Subjects
Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition
Abstract

Deep learning models have revolutionized various fields, from image recognition to natural language processing, by achieving unprecedented levels of accuracy. However, their increasing energy consumption has raised concerns about their environmental impact, disadvantaging smaller entities in research and exacerbating global energy consumption. In this paper, we explore the trade-off between model accuracy and electricity consumption, proposing a metric that penalizes large consumption of electricity. We conduct a comprehensive study on the electricity consumption of various deep learning models across different GPUs, presenting a detailed analysis of their accuracy-efficiency trade-offs. By evaluating accuracy per unit of electricity consumed, we demonstrate how smaller, more energy-efficient models can significantly expedite research while mitigating environmental concerns. Our results highlight the potential for a more sustainable approach to deep learning, emphasizing the importance of optimizing models for efficiency. This research also contributes to a more equitable research landscape, where smaller entities can compete effectively with larger counterparts. This advocates for the adoption of efficient deep learning practices to reduce electricity consumption, safeguarding the environment for future generations whilst also helping ensure a fairer competitive landscape., Comment: Accepted to ECCV-GreenFOMO Workshop

Published
2023

9. Sequence-based drug design as a concept in computational drug design

Author

Chen, Lifan, Fan, Zisheng, Chang, Jie, Yang, Ruirui, Hou, Hui, Guo, Hao, Zhang, Yinghui, Yang, Tianbiao, Zhou, Chenmao, Sui, Qibang, Chen, Zhengyang, Zheng, Chen, Hao, Xinyue, Zhang, Keke, Cui, Rongrong, Zhang, Zehong, Ma, Hudson, Ding, Yiluan, Zhang, Naixia, Lu, Xiaojie, Luo, Xiaomin, Jiang, Hualiang, Zhang, Sulin, and Zheng, Mingyue

Published
2023
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12. IROS 2019 Lifelong Robotic Vision Challenge -- Lifelong Object Recognition Report

Author

She, Qi, Feng, Fan, Liu, Qi, Chan, Rosa H. M., Hao, Xinyue, Lan, Chuanlin, Yang, Qihan, Lomonaco, Vincenzo, Parisi, German I., Bae, Heechul, Brophy, Eoin, Chen, Baoquan, Graffieti, Gabriele, Goel, Vidit, Han, Hyonyoung, Kanagarajah, Sathursan, Kumar, Somesh, Lam, Siew-Kei, Lam, Tin Lun, Ma, Liang, Maltoni, Davide, Pellegrini, Lorenzo, Piyasena, Duvindu, Pu, Shiliang, Sheet, Debdoot, Song, Soonyong, Son, Youngsung, Wang, Zhengwei, Ward, Tomas E., Wu, Jianwen, Wu, Meiqing, Xie, Di, Xu, Yangsheng, Yang, Lin, Zhong, Qiaoyong, and Zhou, Liguang

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

This report summarizes IROS 2019-Lifelong Robotic Vision Competition (Lifelong Object Recognition Challenge) with methods and results from the top $8$ finalists (out of over~$150$ teams). The competition dataset (L)ifel(O)ng (R)obotic V(IS)ion (OpenLORIS) - Object Recognition (OpenLORIS-object) is designed for driving lifelong/continual learning research and application in robotic vision domain, with everyday objects in home, office, campus, and mall scenarios. The dataset explicitly quantifies the variants of illumination, object occlusion, object size, camera-object distance/angles, and clutter information. Rules are designed to quantify the learning capability of the robotic vision system when faced with the objects appearing in the dynamic environments in the contest. Individual reports, dataset information, rules, and released source code can be found at the project homepage: "https://lifelong-robotic-vision.github.io/competition/"., Comment: 9 pages, 11 figures, 3 tables, accepted into IEEE Robotics and Automation Magazine. arXiv admin note: text overlap with arXiv:1911.06487

Published
2020

16. OpenLORIS-Object: A Robotic Vision Dataset and Benchmark for Lifelong Deep Learning

Author

She, Qi, Feng, Fan, Hao, Xinyue, Yang, Qihan, Lan, Chuanlin, Lomonaco, Vincenzo, Shi, Xuesong, Wang, Zhengwei, Guo, Yao, Zhang, Yimin, Qiao, Fei, and Chan, Rosa H. M.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Computer Science - Robotics, Statistics - Machine Learning
Abstract

The recent breakthroughs in computer vision have benefited from the availability of large representative datasets (e.g. ImageNet and COCO) for training. Yet, robotic vision poses unique challenges for applying visual algorithms developed from these standard computer vision datasets due to their implicit assumption over non-varying distributions for a fixed set of tasks. Fully retraining models each time a new task becomes available is infeasible due to computational, storage and sometimes privacy issues, while na\"{i}ve incremental strategies have been shown to suffer from catastrophic forgetting. It is crucial for the robots to operate continuously under open-set and detrimental conditions with adaptive visual perceptual systems, where lifelong learning is a fundamental capability. However, very few datasets and benchmarks are available to evaluate and compare emerging techniques. To fill this gap, we provide a new lifelong robotic vision dataset ("OpenLORIS-Object") collected via RGB-D cameras. The dataset embeds the challenges faced by a robot in the real-life application and provides new benchmarks for validating lifelong object recognition algorithms. Moreover, we have provided a testbed of $9$ state-of-the-art lifelong learning algorithms. Each of them involves $48$ tasks with $4$ evaluation metrics over the OpenLORIS-Object dataset. The results demonstrate that the object recognition task in the ever-changing difficulty environments is far from being solved and the bottlenecks are at the forward/backward transfer designs. Our dataset and benchmark are publicly available at at \href{https://lifelong-robotic-vision.github.io/dataset/object}{\underline{https://lifelong-robotic-vision.github.io/dataset/object}}., Comment: 7 pages, 7 figures, 4 tables

Published
2019

27. Atroposelective Synthesis of Axial Biaryls by Dynamic Kinetic Resolution Using Engineered Imine Reductases.

Author

Hao, Xinyue, Tian, Zhuangfei, Yao, Zhouchang, Zang, Tienan, Song, Shucheng, Lin, Liang, Qiao, Tianzhang, Huang, Ling, and Fu, Haigen

Subjects
*KINETIC resolution, *CHIRALITY element, *MOLECULAR dynamics, *REDUCTASES, *ENZYMES, *ASYMMETRIC synthesis
Abstract

Axially chiral biaryl compounds are ubiquitous scaffolds in natural products, bioactive molecules, chiral ligands and catalysts, but biocatalytic methods for their asymmetric synthesis are limited. Herein, we report a highly efficient biocatalytic route for the atroposelective synthesis of biaryls by dynamic kinetic resolution (DKR). This DKR approach features a transient six‐membered aza‐acetal‐bridge‐promoted racemization followed by an imine reductase (IRED)‐catalyzed stereoselective reduction to construct the axial chirality under ambient conditions. Directed evolution of an IRED from Streptomyces sp. GF3546 provided a variant (S‐IRED‐Ss‐M11) capable of catalyzing the DKR process to access a variety of biaryl aminoalcohols in high yields and excellent enantioselectivities (up to 98 % yield and >99 : 1 enantiomeric ratio). Molecular dynamics simulation studies on the S‐IRED‐Ss‐M11 variant revealed the origin of its improved activity and atroposelectivity. By exploiting the substrate promiscuity of IREDs and the power of directed evolution, our work further extends the biocatalysts' toolbox to construct challenging axially chiral molecules. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Garment fit evaluation using neural networks technology.

Author

Liu, Kaixuan, Wang, Ruolin, Hao, Xinyue, Zhu, Chun, Zhou, Shunmuzi, Zeng, Xianyi, Tao, Xuyuan, Bruniaux, Pascal, and Wang, Jianping

Abstract

At present, garment e-commerce is developing rapidly, and the number of online shopping has increased significantly. In this context, the intelligent evaluation technology of garment fit is particularly important. Fit is the most basic requirement in the process of human dressing. It is of great significance to study the relationship between garment fit and human movement, garment structure, and fabric properties. In this article, we propose a garment fit evaluation model based on back propagation artificial neural network. This method realizes the evaluation of garment fit without any tryout. The inputs of the model are the anthropometric data, garment pattern and fabric properties, while the output is the prediction result of garment fit (fit or unfit). In order to build and train the model, the input and output data were obtained by experiment. And a total of 284 experimental samples were obtained. Through the real try-on test, the results revealed that this approach can effectively evaluate the fit of garment. It introduces new ideas and methods for the intelligent evaluation of garment fit, and has a certain reference value for the research of intelligent evaluation technology of garment fit. [ABSTRACT FROM AUTHOR]

Published
2024
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47. Thermodynamic investigation on low GWP drop‐in alternatives to HFC‐245fa in ejector refrigeration cycle for air condition application.

Author

Hao, Xinyue, Gao, Neng, Wang, Xuehui, Li, Nian, Chen, Guangming, and Wang, Qin

Subjects
*EXERGY, *AIR conditioning, *VAPOR compression cycle, *REFRIGERANTS, *AIR conditioning efficiency, *REAL gases, *VAPOR pressure, *REFRIGERATION & refrigerating machinery
Abstract

The ejector refrigeration cycle (ERC) with HFC‐245fa can achieve high efficiency and reliability for air conditioning applications. However, because of its high global warming potential (GWP), HFC‐245fa needed to be phased out according to recent relative regulations. In this study, four promising alternatives to HFC‐245fa were investigated and evaluated, including HC‐600, HCFO‐1233zd(E), HFO‐1336mzz(Z), and HCFO‐1224 yd(Z). Besides their low GWP, these alternatives also have similar vapor pressure curves to HFC‐245fa, which represents a possibility for refrigerant drop‐in replacement in ERC. Thermodynamic real gas modeling of the ERC was adopted in this study for more accurate results, and a critical performance evaluation and comparison with those candidates in ERC were carried out. The results indicate that HCFO‐1233zd(E) and HCFO‐1224 yd(Z) are outstanding candidates for ERC according to the higher coefficient of performance, entrainment ratio, exergy efficiency, and lower pump power consumption, and the COP relative differences of these two refrigerants would reach 5.5% and 4.6%. HFO‐1336mzz(Z) consumes 33% less power at the pump than HFC‐245fa under the same conditions and refrigeration capacity. Minimal pump power consumption is its advantage. Although HC‐600 is prominent, with the largest coefficient of performance and entrainment ratio, its flammability is not conducive to its popularization. Machine learning is available to predict the performance of ejectors employing different refrigerants. This paper helps to properly select refrigerants for ERC and to pre‐evaluate the refrigerants' application under different working conditions. [ABSTRACT FROM AUTHOR]

Published
2023
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