Search

Your search keyword '"LI, YUANYUAN"' showing total 16,012 results
Start Over Author "LI, YUANYUAN"
16,012 results on '"LI, YUANYUAN"'

1. Super-bunching light with giant high-order correlations and extreme multi-photon events

Author

Qin, Chengbing, Li, Yuanyuan, Yan, Yu, Li, Jiamin, Li, Xiangdong, Song, Yunrui, Zhang, Xuedong, Han, Shuangping, Liu, Zihua, Guo, Yanqiang, Zhang, Guofeng, Chen, Ruiyun, Hu, Jianyong, Yang, Zhichun, Liu, Xinhui, Xiao, Liantuan, and Jia, Suotang

Subjects
Quantum Physics, Physics - Optics
Abstract

Non-classical light sources emitting bundles of N-photons with strong correlation represent versatile resources of interdisciplinary importance with applications ranging from fundamental tests of quantum mechanics to quantum information processing. Yet, high-order correlations, gN(0),quantifying photon correlation, are still limited to hundreds. Here, we report the generation of a super-bunching light source in photonic crystal fiber with g2(0) reaching 5.86*104 and g5(0) up to 2.72*108, through measuring its photon number probability distributions. under giant g2(0) values, the super-bunching light source presents upturned-tail photon distributions and ubiquitous extreme multi-photon events, where 31 photons from a single light pulse at a mean of 1.99*10-4 photons per pulse have been determined. The probability of this extreme event has been enhanced by 10139 folds compared to a coherent laser with Poissonian distribution. By varying the power of the pumping laser, both photon number distributions and corresponding high-order correlations of this light source can be substantially tailored from Poissonian to super-bunching distributions. These phenomena are attributed to the synchronized nonlinear interactions in photonic crystal fibers pumping by bright squeezed light, and the theoretical simulations agree well with the experimental results. Our research showcases the ability to achieve non-classical light sources with giant high-order correlations and extreme multi-photon events, paving the way for high-order correlation imaging, extreme nonlinear optical effects, quantum information processing, and exploring light-matter interactions with multi-photon physics.

Published
2024

2. Function and derivative approximation by shallow neural networks

Author

Li, Yuanyuan and Lu, Shuai

Subjects
Mathematics - Numerical Analysis, 65D15, 65F22, 65J20
Abstract

We investigate a Tikhonov regularization scheme specifically tailored for shallow neural networks within the context of solving a classic inverse problem: approximating an unknown function and its derivatives within a unit cubic domain based on noisy measurements. The proposed Tikhonov regularization scheme incorporates a penalty term that takes three distinct yet intricately related network (semi)norms: the extended Barron norm, the variation norm, and the Radon-BV seminorm. These choices of the penalty term are contingent upon the specific architecture of the neural network being utilized. We establish the connection between various network norms and particularly trace the dependence of the dimensionality index, aiming to deepen our understanding of how these norms interplay with each other. We revisit the universality of function approximation through various norms, establish rigorous error-bound analysis for the Tikhonov regularization scheme, and explicitly elucidate the dependency of the dimensionality index, providing a clearer understanding of how the dimensionality affects the approximation performance and how one designs a neural network with diverse approximating tasks.

Published
2024

4. Emerging Optimization Problems for Distribution in Same-day Delivery

Author

Li, Yuanyuan, Archetti, Claudia, and Ljubic, Ivana

Subjects
Mathematics - Optimization and Control
Abstract

Same-day deliveries (SDD) have become a new standard to satisfy the "instant gratification" of online customers. Despite the existing powerful technologies deployed in last-mile delivery, SDD services face new decision-making challenges related to the trade-off between delivery cost and time. In addition, new challenges related to environmental issues, customer satisfaction, or fairness arise. Researchers have explored various approaches to face these challenges in the context of SDD, where stochastic and dynamic data uncertainty plays a fundamental role. In this paper, we carefully review the emerging routing problems and solutions proposed in the existing literature for SDD services. We survey papers related to how to deal with dynamic arrival times of orders, how to allocate time slots to deliveries, how to select the right delivery options, how to design pickup and delivery routes, or how to partition the delivery areas and decide the composition of the fleet. We also formulate and compare models for representative problems elaborating on the pros and cons that might guide practitioners in choosing the most appropriate objectives and constraints. Finally, we sketch challenges and identify future research directions.

Published
2024

5. Conditional Denoising Diffusion Probabilistic Model for Ground-roll Attenuation

Author

Li, Yuanyuan, Zhang, Hao, Huang, Jianping, and Li, Zhenchun

Subjects
Physics - Geophysics
Abstract

Ground-roll attenuation is a challenging seismic processing task in land seismic survey. The ground-roll coherent noise with low frequency and high amplitude seriously contaminate the valuable reflection events, corrupting the quality of seismic data. The transform-based filtering methods leverage the distinct characteristics of the ground roll and seismic reflections within the transform domain to attenuate the ground-roll noise. However, the ground roll and seismic reflections often share overlaps in the transform domain, making it challenging to remove ground-roll noise without also attenuating useful reflections. We propose to apply a conditional diffusion denoising probabilistic model (c-DDPM) to attenuate the ground-roll noise and recover the reflections efficiently. We prepare the training dataset by using the finite-difference modelling method and the convolution modelling method. After the training process, the c-DDPM can generate the clean data given the seismic data as condition. The ground roll obtained by subtracting the clean data from the seismic data might contain some residual reflection energy. Thus, we further improve the c-DDPM to allow for generating the clean data and ground roll simultaneously. We then demonstrate the feasibility and effectiveness of our proposed method by using the synthetic data and the field data. The methods based on the local time-frequency (LTF) transform and U-Net are also applied to these two examples for comparing with our proposed method. The test results show that the proposed method perform better in attenuating the ground-roll noise from the seismic data than the LTF and U-Net methods., Comment: 12 pages,13 figures

Published
2024

20. Distributed Experimental Design Networks

Author

Li, Yuanyuan, Su, Lili, Joe-Wong, Carlee, Yeh, Edmund, and Ioannidis, Stratis

Subjects
Computer Science - Networking and Internet Architecture
Abstract

As edge computing capabilities increase, model learning deployments in diverse edge environments have emerged. In experimental design networks, introduced recently, network routing and rate allocation are designed to aid the transfer of data from sensors to heterogeneous learners. We design efficient experimental design network algorithms that are (a) distributed and (b) use multicast transmissions. This setting poses significant challenges as classic decentralization approaches often operate on (strictly) concave objectives under differentiable constraints. In contrast, the problem we study here has a non-convex, continuous DR-submodular objective, while multicast transmissions naturally result in non-differentiable constraints. From a technical standpoint, we propose a distributed Frank-Wolfe and a distributed projected gradient ascent algorithm that, coupled with a relaxation of non-differentiable constraints, yield allocations within a $1-1/e$ factor from the optimal. Numerical evaluations show that our proposed algorithms outperform competitors with respect to model learning quality., Comment: Technical report for paper accepted by INFOCOM 2024

Published
2024

21. Remote Activation of H-H Bonds by Platinum in Dilute Alloy Catalysts.

Author

Han, Tongxin, Li, Yuanyuan, Wu, Tao, Meira, Debora, Xiang, Shuting, Cao, Yueqiang, Lee, Ilkeun, Zhou, Xing-Gui, Jiang, De-En, Frenkel, Anatoly, and Zaera, Francisco

Abstract

With heterogeneous catalysts, chemical promotion takes place at their surfaces. Even in the case of single-atom alloys, where small quantities of a reactive metal are dispersed within the main host, it is assumed that both elements are exposed and available to bond with the reactants. Here, we show, on the basis of in situ X-ray absorption spectroscopy data, that in alloy catalysts made from Pt highly diluted in Cu the Pt atoms are located at the inner interface between the metal nanoparticles and the silica support instead. Kinetic experiments indicated that these catalysts still display better selectivity for the hydrogenation of unsaturated aldehydes to unsaturated alcohols than the pure metals. Density functional theory calculations corroborated the stability of Pt at the metal-support interface and explained the catalytic performance as being due to a remote lowering of the activation barrier for the dissociation of H2 at Cu sites by the internal Pt atoms.

Published
2024

22. Oxygen-independent organic photosensitizer with ultralow-power NIR photoexcitation for tumor-specific photodynamic therapy.

Author

Tang, Yufu, Li, Yuanyuan, Li, Bowen, Song, Wentao, Qi, Guobin, Tian, Jianwu, Huang, Wei, Fan, Quli, and Liu, Bin

Subjects
Female, Animals, Mice, Photosensitizing Agents, Photochemotherapy, Oxygen, Neoplasms, Reactive Oxygen Species
Abstract

Photodynamic therapy (PDT) is a promising cancer treatment but has limitations due to its dependence on oxygen and high-power-density photoexcitation. Here, we report polymer-based organic photosensitizers (PSs) through rational PS skeleton design and precise side-chain engineering to generate •O2- and •OH under oxygen-free conditions using ultralow-power 808 nm photoexcitation for tumor-specific photodynamic ablation. The designed organic PS skeletons can generate electron-hole pairs to sensitize H2O into •O2- and •OH under oxygen-free conditions with 808 nm photoexcitation, achieving NIR-photoexcited and oxygen-independent •O2- and •OH production. Further, compared with commonly used alkyl side chains, glycol oligomer as the PS side chain mitigates electron-hole recombination and offers more H2O molecules around the electron-hole pairs generated from the hydrophobic PS skeletons, which can yield 4-fold stronger •O2- and •OH production, thus allowing an ultralow-power photoexcitation to yield high PDT effect. Finally, the feasibility of developing activatable PSs for tumor-specific photodynamic therapy in female mice is further demonstrated under 808 nm irradiation with an ultralow-power of 15 mW cm-2. The study not only provides further insights into the PDT mechanism but also offers a general design guideline to develop an oxygen-independent organic PS using ultralow-power NIR photoexcitation for tumor-specific PDT.

Published
2024

25. Are children with IgA nephropathy different from adult patients?

Author

Su, Baige, Jiang, Yuanyuan, Li, Zhihui, Zhou, Jianhua, Rong, Liping, Feng, Shipin, Zhong, Fazhan, Sun, Shuzhen, Zhang, Dongfeng, Xia, Zhengkun, Feng, Chunyue, Huang, Wenyan, Li, Xiaoyan, Chen, Chaoying, Hao, Zhihong, Wang, Mo, Qin, Li, Chen, Minguang, Li, Yuanyuan, Ding, Juanjuan, Bao, Ying, Liu, Xiaorong, Deng, Fang, Cheng, Xueqin, Zhang, Li, Zhang, Xuan, Yang, Huandan, Peng, Xiaojie, Sun, Qianliang, Deng, Linxia, Jiang, Xiaoyun, Xie, Min, Gao, Yan, Yu, Lichun, Liu, Ling, Gao, Chunlin, Mao, Jianhua, Zheng, Weihua, Dang, Xiqiang, Xia, Hua, Wang, Yujie, Zhong, Xuhui, Ding, Jie, Lv, Jicheng, and Zhang, Hong

Published
2024
Full Text
View/download PDF

35. Optimal (partial) transport to non-convex polygonal domains

Author

Chen, Shibing, Li, Yuanyuan, and Liu, Jiakun

Subjects
Mathematics - Analysis of PDEs
Abstract

In this paper, we investigate the optimal (partial) transport problems when the target is a non-convex polygonal domain in \(\mathbb{R}^2\). For the complete optimal transportation, we prove that the singular set is locally a 1-dimensional smooth curve, except for a finite number of points. For the optimal partial transportation, we prove that the free boundary is smooth except for a finite number of singular points.

Published
2023

36. Distribution-free risk assessment of regression-based machine learning algorithms

Author

Singh, Sukrita, Sarna, Neeraj, Li, Yuanyuan, Li, Yang, Orfanoudaki, Agni, and Berger, Michael

Subjects
Computer Science - Machine Learning, Mathematics - Numerical Analysis
Abstract

Machine learning algorithms have grown in sophistication over the years and are increasingly deployed for real-life applications. However, when using machine learning techniques in practical settings, particularly in high-risk applications such as medicine and engineering, obtaining the failure probability of the predictive model is critical. We refer to this problem as the risk-assessment task. We focus on regression algorithms and the risk-assessment task of computing the probability of the true label lying inside an interval defined around the model's prediction. We solve the risk-assessment problem using the conformal prediction approach, which provides prediction intervals that are guaranteed to contain the true label with a given probability. Using this coverage property, we prove that our approximated failure probability is conservative in the sense that it is not lower than the true failure probability of the ML algorithm. We conduct extensive experiments to empirically study the accuracy of the proposed method for problems with and without covariate shift. Our analysis focuses on different modeling regimes, dataset sizes, and conformal prediction methodologies.

Published
2023

37. Machine learning of network inference enhancement from noisy measurements

Author

Wu, Kai, Li, Yuanyuan, and Liu, Jing

Subjects
Computer Science - Social and Information Networks, Computer Science - Machine Learning
Abstract

Inferring networks from observed time series data presents a clear glimpse into the interconnections among nodes. Network inference models, when dealing with real-world open cases, especially in the presence of observational noise, experience a sharp decline in performance, significantly undermining their practical applicability. We find that in real-world scenarios, noisy samples cause parameter updates in network inference models to deviate from the correct direction, leading to a degradation in performance. Here, we present an elegant and efficient model-agnostic framework tailored to amplify the capabilities of model-based and model-free network inference models for real-world cases. Extensive experiments across nonlinear dynamics, evolutionary games, and epidemic spreading, showcases substantial performance augmentation under varied noise types, particularly thriving in scenarios enriched with clean samples.

Published
2023

39. Dynamics of cutaneous atmospheric oxygen uptake in response to mechanical stretch revealed by optical fiber microsensor

Author

Shan, Shengzhou, He, Jiahao, Sun, Qin, Zhu, Kan, Li, Yuanyuan, Reid, Brian, Li, Qingfeng, and Zhao, Min

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Bioengineering, Underpinning research, 1.1 Normal biological development and functioning, Skin, Optical Fibers, Epidermis, Cell Proliferation, Oxygen, Stress, Mechanical, cutaneous oxygen uptake, mechanical stretch, optical fiber sensor, skin expansion, surgery, Dermatology & Venereal Diseases, Clinical sciences
Abstract

Skin expands and regenerates in response to mechanical stretch. This important homeostasis process is critical for skin biology and can be exploited to generate extra skin for reconstructive surgery. Atmospheric oxygen uptake is important in skin homeostasis. However, whether and how cutaneous atmospheric oxygen uptake changes during mechanical stretch remains unclear, and relevant research tools to quantify oxygen flux are limited. Herein, we used the scanning micro-optrode technique (SMOT), a non-invasive self-referencing optical fiber microsensor, to achieve real-time measurement of cutaneous oxygen uptake from the atmosphere. An in vivo mechanical stretch-induced skin expansion model was established, and an in vitro Flexcell Tension system was used to stretch epidermal cells. We found that oxygen influx of skin increased dramatically after stretching for 1 to 3 days and decreased to the non-stretched level after 7 days. The enhanced oxygen influx of stretched skin was associated with increased epidermal basal cell proliferation and impaired epidermal barrier. In conclusion, mechanical stretch increases cutaneous oxygen uptake with spatial-temporal characteristics, correlating with cell proliferation and barrier changes, suggesting a fundamental mechanistic role of oxygen uptake in the skin in response to mechanical stretch. Optical fiber microsensor-based oxygen uptake detection provides a non-invasive approach to understand skin homeostasis.

Published
2023

40. Cinnamomum huarum (Lauraceae): A new species from Yunnan of China

Author

LI Yuanyuan, WU Li, WU Tao, LI Guixiang, YUAN Yuchuan, and CHAI Yong

Subjects
taxonomy, cinnamomum, new taxa, chloroplast genome, Biology (General), QH301-705.5, Botany, QK1-989
Abstract

Abstract [Objective] The study aims to identify and describe a new species Cinnamomum huarum (Lauraceae), which was collected from Nanjian, Yunnan of China. [Methods] This species was confirmed as a new taxa by morphological comparison with morphologically similar species and molecular phylogenetic study based on chloroplast genome data. [Results] The new species was similar to C. chago: Pinnately veined, leaves opposite or subopposite, long acumen, branchlets sparsely puberulent, terminal bud densely pubescent, leaf blade gray white abaxially and puberulent, margin undulate and fruit oblate. The chloroplast genome size of this species was 154 078 bp, which was 1 325 bp longer than C. chago and 1 348 bp longer than C. pittosporoides, having an extra 678 bp fragment in the inverted repeat region compared to C. chago and C. pittosporoides. In the phylogenetic tree constructed with whole chloroplast genome of 36 Lauraceae species, C. huarum formed an independent parallel branch with C. pittosporoides and other species. [Conclusion] Both the morphological and phylogenetic research indicate that C. huarum is a distinct species.

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results