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7,376 results on '"Wang,Liming"'

1. Semiconductive and Ferromagnetic Lanthanide MXenes Derived from Carbon Intercalated Two-dimensional Halides

Author

Fang, Qian, Wang, Liming, Chang, Kai, Yang, Hongxin, Yan, Pu, Cao, Kecheng, Li, Mian, Chai, Zhifang, and Huang, Qing

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Chemical Physics, Physics - Computational Physics
Abstract

Two-dimensional (2D) magnetic semiconductors are a key focus in developing next-generation information storage technologies. MXenes, as emerging 2D early transition metal carbides and nitrides, offer versatile compositions and tunable chemical structures. Incorporating lanthanide metals, with their unique role of 4f-electrons in engineering physical properties, into MXenes holds potential for advancing technological applications. However, the scarcity of lanthanide-containing ternary MAX phase precursors and the propensity of lanthanides to oxidize pose significant challenges to obtain lanthanide MXenes (Ln2CT2) via the top-down etching method. Here, we propose a general bottom-up methodology for lanthanide MXenes, that derive from carbon intercalated van der Waals building blocks of 2D halides. Compared to conventional MXenes conductors, the synthesized Ln2CT2 exhibit tunable band gaps spanning 0.32 eV to 1.22 eV that cover typical semiconductors such as Si (1.12 eV) and Ge (0.67 eV). Additionally, the presence of unpaired f-electrons endows Ln2CT2 with intrinsic ferromagnetism, with Curie temperatures ranging between 36 K and 60 K. Theoretical calculations reveal that, in contrast to traditional MXenes, the number of d-electrons states around the Fermi level are largely diminishes in bare Ln2C MXenes, and the halogen terminals can further exhaust these electrons to open band gaps. Meanwhile, the Ln-4f electrons in Ln2CT2 are highly localized and stay away from the Fermi level, contributing to the spin splitting for the observed ferromagnetic behavior. Lanthanide MXenes hold immense promise for revolutionizing future applications in spintronic devices.

Published
2024

2. Contextual Bandit with Herding Effects: Algorithms and Recommendation Applications

Author

Xu, Luyue, Wang, Liming, Xie, Hong, and Zhou, Mingqiang

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Information Retrieval
Abstract

Contextual bandits serve as a fundamental algorithmic framework for optimizing recommendation decisions online. Though extensive attention has been paid to tailoring contextual bandits for recommendation applications, the "herding effects" in user feedback have been ignored. These herding effects bias user feedback toward historical ratings, breaking down the assumption of unbiased feedback inherent in contextual bandits. This paper develops a novel variant of the contextual bandit that is tailored to address the feedback bias caused by the herding effects. A user feedback model is formulated to capture this feedback bias. We design the TS-Conf (Thompson Sampling under Conformity) algorithm, which employs posterior sampling to balance the exploration and exploitation tradeoff. We prove an upper bound for the regret of the algorithm, revealing the impact of herding effects on learning speed. Extensive experiments on datasets demonstrate that TS-Conf outperforms four benchmark algorithms. Analysis reveals that TS-Conf effectively mitigates the negative impact of herding effects, resulting in faster learning and improved recommendation accuracy., Comment: Published as a conference paper at PRICAI 2024

Published
2024

3. Automatic Prediction of Amyotrophic Lateral Sclerosis Progression using Longitudinal Speech Transformer

Author

Wang, Liming, Gong, Yuan, Dawalatabad, Nauman, Vilela, Marco, Placek, Katerina, Tracey, Brian, Gong, Yishu, Premasiri, Alan, Vieira, Fernando, and Glass, James

Subjects
Computer Science - Sound, Computer Science - Artificial Intelligence, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Automatic prediction of amyotrophic lateral sclerosis (ALS) disease progression provides a more efficient and objective alternative than manual approaches. We propose ALS longitudinal speech transformer (ALST), a neural network-based automatic predictor of ALS disease progression from longitudinal speech recordings of ALS patients. By taking advantage of high-quality pretrained speech features and longitudinal information in the recordings, our best model achieves 91.0\% AUC, improving upon the previous best model by 5.6\% relative on the ALS TDI dataset. Careful analysis reveals that ALST is capable of fine-grained and interpretable predictions of ALS progression, especially for distinguishing between rarer and more severe cases. Code is publicly available.

Published
2024

4. NTIRE 2024 Challenge on Night Photography Rendering

Author

Ershov, Egor, Panshin, Artyom, Karasev, Oleg, Korchagin, Sergey, Lev, Shepelev, Startsev, Alexandr, Vladimirov, Daniil, Zaychenkova, Ekaterina, Banić, Nikola, Iarchuk, Dmitrii, Efimova, Maria, Timofte, Radu, Terekhin, Arseniy, Yue, Shuwei, Liu, Yuyang, Wei, Minchen, Xu, Lu, Zhang, Chao, Wang, Yasi, Kınlı, Furkan, Yılmaz, Doğa, Özcan, Barış, Kıraç, Furkan, Liu, Shuai, Xiao, Jingyuan, Feng, Chaoyu, Wang, Hao, Shao, Guangqi, Zhang, Yuqian, Huang, Yibin, Luo, Wei, Wang, Liming, Wang, Xiaotao, Lei, Lei, Zini, Simone, Rota, Claudio, Buzzelli, Marco, Bianco, Simone, Schettini, Raimondo, Guo, Jin, Liu, Tianli, Wu, Mohao, Shao, Ben, Yang, Qirui, Li, Xianghui, Cheng, Qihua, Zhang, Fangpu, Xu, Zhiqiang, Yang, Jingyu, and Yue, Huanjing

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This paper presents a review of the NTIRE 2024 challenge on night photography rendering. The goal of the challenge was to find solutions that process raw camera images taken in nighttime conditions, and thereby produce a photo-quality output images in the standard RGB (sRGB) space. Unlike the previous year's competition, the challenge images were collected with a mobile phone and the speed of algorithms was also measured alongside the quality of their output. To evaluate the results, a sufficient number of viewers were asked to assess the visual quality of the proposed solutions, considering the subjective nature of the task. There were 2 nominations: quality and efficiency. Top 5 solutions in terms of output quality were sorted by evaluation time (see Fig. 1). The top ranking participants' solutions effectively represent the state-of-the-art in nighttime photography rendering. More results can be found at https://nightimaging.org., Comment: 10 pages, 10 figures

Published
2024

5. Towards Unsupervised Speech Recognition Without Pronunciation Models

Author

Ni, Junrui, Wang, Liming, Zhang, Yang, Qian, Kaizhi, Gao, Heting, Hasegawa-Johnson, Mark, and Yoo, Chang D.

Subjects
Computer Science - Computation and Language, Computer Science - Sound, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Recent advancements in supervised automatic speech recognition (ASR) have achieved remarkable performance, largely due to the growing availability of large transcribed speech corpora. However, most languages lack sufficient paired speech and text data to effectively train these systems. In this article, we tackle the challenge of developing ASR systems without paired speech and text corpora by proposing the removal of reliance on a phoneme lexicon. We explore a new research direction: word-level unsupervised ASR, and experimentally demonstrate that an unsupervised speech recognizer can emerge from joint speech-to-speech and text-to-text masked token-infilling. Using a curated speech corpus containing a fixed number of English words, our system iteratively refines the word segmentation structure and achieves a word error rate of between 20-23%, depending on the vocabulary size, without parallel transcripts, oracle word boundaries, or a pronunciation lexicon. This innovative model surpasses the performance of previous unsupervised ASR models under the lexicon-free setting., Comment: This work has been submitted to Speech Communication for possible publication

Published
2024

12. Using Microposture Features and Optical Flows for Deepfake Detection

Author

Chen, Kai, Ma, Duohe, Zhang, Zhenchao, Tang, Zhimin, Wang, Liming, Jiang, Junye, Rannenberg, Kai, Editor-in-Chief, Soares Barbosa, Luís, Editorial Board Member, Carette, Jacques, Editorial Board Member, Tatnall, Arthur, Editorial Board Member, Neuhold, Erich J., Editorial Board Member, Stiller, Burkhard, Editorial Board Member, Stettner, Lukasz, Editorial Board Member, Pries-Heje, Jan, Editorial Board Member, Kreps, David, Editorial Board Member, Rettberg, Achim, Editorial Board Member, Furnell, Steven, Editorial Board Member, Mercier-Laurent, Eunika, Editorial Board Member, Winckler, Marco, Editorial Board Member, Malaka, Rainer, Editorial Board Member, Kurkowski, Elizabeth, editor, and Shenoi, Sujeet, editor

Published
2025
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13. Contextual Bandit with Herding Effects: Algorithms and Recommendation Applications

Author

Xu, Luyue, Wang, Liming, Xie, Hong, Zhou, Mingqiang, Goos, Gerhard, Series 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, Hadfi, Rafik, editor, Anthony, Patricia, editor, Sharma, Alok, editor, Ito, Takayuki, editor, and Bai, Quan, editor

Published
2025
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14. Significant Photoluminescence Improvements from Bulk Germanium-Based Thin Films with Ultra-low Threading Dislocation Densities

Author

Wang, Liming, Kassa, Gideon, Liu, Jifeng, and Xia, Guangrui

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

Our study focused on the Ge thickness and TDD impacts on Ge's photoluminescence (PL). The PL peak intensity of a bulk Ge sample (TDD = 6000 cm-2, n-doping = 1e16 cm-3) experiences a remarkable 32-fold increase as the thickness is reduced from 535 to 2 microns. This surpasses the PL peak intensity of a best-performing epitaxial-Ge on Si (epi-Ge) (0.75 micron thick, biaxial tensile strain= 0.2 percent, n-doping = 7e18 cm-3) by a factor of 2.5. Furthermore, the PL peak intensity of a 405-micron thick zero-TDD bulk Ge sample (n-doping = 5e17 cm-3) is 9.7 times that of the 0.75-micron thick epi-Ge, rising to 12.1 times when thinned to 1 micron. The bulk Ge-based TDD reduction approach can work in conjunction with n-type doping and strain engineering to enhance Ge laser performance, and relax the requirement on the latter two approaches.

Published
2024

19. Properties of H particle-admixed compact star

Author

Wu, Xuhao, Wang, Liming, An, Hong-Tao, Ju, Min, and Shen, Hong

Subjects
Nuclear Theory
Abstract

We explore the potential manifestation of a hexaquark, the H particle, as a constituent within neutron stars. The H particle, characterized by a quark composition of $uuddss$, is constructed using the framework of Chromomagnetic Interaction (CMI). Specifically, we contemplate the flavor-singlet state H with $J^P=0^+$. Our computations indicate that the three-flavor hexaquark state, the H particle, possesses a lower mass of $2212.7~\rm{MeV}$ in comparison to the $d^*(2380)$, implying greater stability than the two-flavor $d^*(2380)$. The analysis involving the H particle is carried out using the relativistic mean-field (RMF) model. We investigate the influence of H particle couplings, a key factor in determining the system stability, and focus on the potential existence of H particle within neutron stars. We find that H particle could potentially endure as a stable constituent within neutron stars, and lead to a reduction of the maximum mass., Comment: 15 pages, 6 figures

Published
2024

35. Evaluation of Meshing Quality of Antenna Base Gear Tooth Surfaces Based on the Linear Weighted Gray-scale

Author

Zhang Liu, Qiu Bao'an, Sun Pan, Li Lin, Wang Liming, and Shao Yimin

Subjects
Gear meshing, Gray-scale, Image segmentation, Meshing quality evaluation, Mechanical engineering and machinery, TJ1-1570
Abstract

In order to evaluate the meshing quality of antenna base gears, a method based on the image linear weighted gray-scale was proposed. In this method, the original image of the contact marks in the gear meshing area was collected by CCD cameras. Then, a set of real-time image processing system was built. Aiming at the edge blur problem of traditional adaptive weights graying in different lighting environments, a linear weighted gray-scale image preprocessing method was proposed to enhance target color component. Through the steps of image segmentation and mathematical morphology feature extraction, the relevant parameters reflecting the meshing quality of the antenna base gear were obtained, including the size, shape and position of the contact impression area on the tooth surface. Finally, a set of digital measurement and evaluation method of gear meshing quality was developed to achieve the accurate evaluation of the gear meshing quality of the antenna base. The test results show that the linear weighted gray-scale method has better adaptability under different ambient brightness, and the error of feature extraction results is smaller than other methods.

Published
2024
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36. Unsupervised Speech Recognition with N-Skipgram and Positional Unigram Matching

Author

Wang, Liming, Hasegawa-Johnson, Mark, and Yoo, Chang D.

Subjects
Computer Science - Computation and Language, Computer Science - Sound, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Training unsupervised speech recognition systems presents challenges due to GAN-associated instability, misalignment between speech and text, and significant memory demands. To tackle these challenges, we introduce a novel ASR system, ESPUM. This system harnesses the power of lower-order N-skipgrams (up to N=3) combined with positional unigram statistics gathered from a small batch of samples. Evaluated on the TIMIT benchmark, our model showcases competitive performance in ASR and phoneme segmentation tasks. Access our publicly available code at https://github.com/lwang114/GraphUnsupASR.

Published
2023

38. Multidisciplinary and multiscale nanoscience research roadmap based on large scientific facilities

Author

Zeng, Yuan, Zhang, Shuhan, Guo, Yuecong, Cong, Yalin, Ding, Xu, Li, Peihua, Lin, Yunxiang, Ren, Wenzhi, Su, Hui, Sun, Weigang, Xu, Liuxin, Zhang, Guikai, Chen, Shihua, Chen, Yu, Cheng, Weiren, Chu, Shengqi, Guan, Yong, Han, Jinru, Lin, Jie, Liu, Hengjie, Liu, Zheyi, Luo, Pan, Meng, Fanchun, Qiao, Sicong, Song, Zongyin, Wang, Ying, Wu, Zhao, Yang, Chenyu, Yang, Meng, Yang, Shirui, Yin, Zi, Yin, Zhibin, Zhang, Pengjun, Zhang, Hongyu, Zheng, Pingping, Zhou, Jia, Zhou, Wanlin, An, Pengfei, Cheng, He, Fan, Chunhai, Huang, Xingjiu, Lei, Yong, Li, Lina, Li, Mu, Liu, Qinghua, Peng, Shuming, Song, Li, Sun, Zhihu, Tian, Yangchao, Wang, Fangjun, Wang, Lihua, Wang, Liming, Wei, Shiqiang, Wu, Aiguo, Xiao, Chunlei, Yang, Xueming, Yin, Panchao, Zhang, Jing, Zhang, Mingxin, Wang, Yaling, and Chen, Chunying

Published
2024
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47. Prototypes-oriented Transductive Few-shot Learning with Conditional Transport

Author

Tian, Long, Feng, Jingyi, Chen, Wenchao, Chai, Xiaoqiang, Wang, Liming, Liu, Xiyang, and Chen, Bo

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Transductive Few-Shot Learning (TFSL) has recently attracted increasing attention since it typically outperforms its inductive peer by leveraging statistics of query samples. However, previous TFSL methods usually encode uniform prior that all the classes within query samples are equally likely, which is biased in imbalanced TFSL and causes severe performance degradation. Given this pivotal issue, in this work, we propose a novel Conditional Transport (CT) based imbalanced TFSL model called {\textbf P}rototypes-oriented {\textbf U}nbiased {\textbf T}ransfer {\textbf M}odel (PUTM) to fully exploit unbiased statistics of imbalanced query samples, which employs forward and backward navigators as transport matrices to balance the prior of query samples per class between uniform and adaptive data-driven distributions. For efficiently transferring statistics learned by CT, we further derive a closed form solution to refine prototypes based on MAP given the learned navigators. The above two steps of discovering and transferring unbiased statistics follow an iterative manner, formulating our EM-based solver. Experimental results on four standard benchmarks including miniImageNet, tieredImageNet, CUB, and CIFAR-FS demonstrate superiority of our model in class-imbalanced generalization., Comment: Accepted by ICCV2023

Published
2023

48. A Theory of Unsupervised Speech Recognition

Author

Wang, Liming, Hasegawa-Johnson, Mark, and Yoo, Chang D.

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Computation and Language, Computer Science - Machine Learning, Computer Science - Sound
Abstract

Unsupervised speech recognition (ASR-U) is the problem of learning automatic speech recognition (ASR) systems from unpaired speech-only and text-only corpora. While various algorithms exist to solve this problem, a theoretical framework is missing from studying their properties and addressing such issues as sensitivity to hyperparameters and training instability. In this paper, we proposed a general theoretical framework to study the properties of ASR-U systems based on random matrix theory and the theory of neural tangent kernels. Such a framework allows us to prove various learnability conditions and sample complexity bounds of ASR-U. Extensive ASR-U experiments on synthetic languages with three classes of transition graphs provide strong empirical evidence for our theory (code available at cactuswiththoughts/UnsupASRTheory.git).

Published
2023

50. A Smart Switch Configuration and Reliability Assessment Method for Large-Scale Offshore Wind Farm Electrical Collector System

Author

Ding, Xiaochi, Shen, Xinwei, Wu, Qiuwei, Wang, Liming, and Yang, Dechang

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

With the development of offshore wind farms (OWFs) in far-offshore and deep-sea areas, each OWF could contain more and more wind turbines and cables, making it imperative to study high-reliability electrical collector system (ECS) for OWF. Enlightened by active distribution network, for OWF, we propose an ECS switch configuration that enables post-fault network recovery, along with a reliability assessment (RA) method based on optimization models. It can also determine the optimal normal state and network reconfiguration strategies to maximize ECS reliability. Case studies on several OWFs demonstrate that the proposed RA method is more computationally efficient and accurate than the traditional sequential Monte-Carlo simulation method. Moreover, the proposed switch configuration, in conjunction with the network reconfiguration strategy and proper topology, provides significant benefits to ECS reliability., Comment: 10 pages

Published
2023

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