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2,657 results on '"Li, Yongqiang"'

1. Enhanced channel estimation for near-field IRS-aided multi-user MIMO system via deep residual network

Author

Wang, Yan, Li, Yongqiang, Chen, Minghao, Yao, Yu, Shu, Feng, and Wang, Jiangzhou

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

In this paper, channel estimation (CE) of intelligent reflecting surface aided near-field (NF) multi-user communication is investigated. Initially, the least square (LS) estimator and minimum mean square error (MMSE) estimator for the estimated channel are designed, and their mean square errors (MSEs) are derived. Subsequently, to fully harness the potential of deep residual networks (DRNs) in denoising, the above CE problem is reconceptualized as a denoising task, and a DRN-driven NF CE (DRN-NFCE) framework is proposed, and the Cram$\acute{e}$r-Rao lower bound (CRLB) is derived to serve as a benchmark for performance evaluation. In addition, to effectively capture and leverage these diverse channel features, a federated learning (FL) based global DRN-NFCE network, namely FL-DRN-NFCE, is constructed through collaborative training and joint optimization of single region DRN-NFCE (SR-DRN-NFCE) networks in different user regions. Here, users are divided into multiple regions. Correspondingly, a user region classifier based on convolutional neural network is designed to achieve the goal of matching datasets from different user regions to the corresponding SR-DRN-NFCE network. Simulation results demonstrate that the proposed FL-DRN-NFCE framework outperforms LS, MMSE, and no residual connections in terms of MSE, and the proposed FL-DRN-NFCE method has higher CE accuracy over the SR-DRN-NFCE method.

Published
2024

2. Orbital phases of $p$-band ultracold fermions in the frustrated triangular lattice

Author

Wu, Jiaqi, Tan, Hui, Cao, Rui, Yuan, Jianmin, and Li, Yongqiang

Subjects
Condensed Matter - Quantum Gases, Quantum Physics
Abstract

Orbital degrees of freedom play an important role for understanding the emergence of unconventional quantum phases. Ultracold atomic gases in optical lattices provide a wonderful platform to simulate orbital physics. In this work, we consider spinless fermionic atoms loaded into $p$-orbital bands of a two-dimensional frustrated triangular lattice. The system can be described by an extended Fermi-Hubbard model, which is numerically solved by using the orbital version of real-space dynamical mean-field theory. Low-temperature phase diagrams are obtained, which contain stripe-, ferro- and para-orbital ordered quantum phases, due to the interplay of anisotropic hoppings and geometrical frustration. In order to understand the underlying mechanics of competing orbital orders, we derive an effective orbital-exchange model, which yields consistent explanation with our main numerical results., Comment: 9 pages, 7 figures

Published
2024

3. Emergence of topological states in relaxation dynamics of interacting bosons

Author

Huang, Wang, Yang, Xuchen, Cao, Rui, Wu, Yinghai, Yuan, Jianmin, and Li, Yongqiang

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Strongly Correlated Electrons, Physics - Atomic Physics
Abstract

Topological concepts have been employed to understand the ground states of many strongly correlated systems, but it is still quite unclear if and how topology manifests itself in the relaxation dynamics. Here we uncover emergent topological phenomena in the time evolution of far-from-equilibrium one-dimensional interacting bosons. Beginning with simple product states, the system evolves into long-time stationary states with high energy that are nonthermal for a wide range of parameters, and they exhibit nonlocal string correlation that is characteristic of the symmetry-protected topological ground state of the Hamiltonian. In contrast, no topological feature is found in the stationary state as long as the system thermalizes. This difference is further corroborated by the distinct behaviour of quantum entanglement and edge states of the system. Our theoretical prediction can be examined by current experimental techniques and paves the way for a more comprehensive understanding of topological phases in nonequilibrium settings., Comment: 7 pages, 4 figures, with supplymentary information

Published
2024

5. WPDA: Frequency-based Backdoor Attack with Wavelet Packet Decomposition

Author

Song, Zhengyao, Li, Yongqiang, Yuan, Danni, Liu, Li, Wei, Shaokui, and Wu, Baoyuan

Subjects
Computer Science - Cryptography and Security, I.4.9
Abstract

This work explores an emerging security threat against deep neural networks (DNNs) based image classification, i.e., backdoor attack. In this scenario, the attacker aims to inject a backdoor into the model by manipulating training data, such that the backdoor could be activated by a particular trigger and bootstraps the model to make a target prediction at inference. Currently, most existing data poisoning-based attacks struggle to achieve success at low poisoning ratios, increasing the risk of being defended by defense methods. In this paper, we propose a novel frequency-based backdoor attack via Wavelet Packet Decomposition (WPD), WPD decomposes the original image signal to a spectrogram that contains frequency information with different semantic meanings. We leverage WPD to statistically analyze the frequency distribution of the dataset to infer the key frequency regions the DNNs would focus on, and the trigger information is only injected into the key frequency regions. Our method mainly includes three parts: 1) the selection of the poisoning frequency regions in spectrogram; 2) trigger generation; 3) the generation of the poisoned dataset. Our method is stealthy and precise, evidenced by the 98.12% Attack Success Rate (ASR) on CIFAR-10 with the extremely low poisoning ratio 0.004% (i.e., only 2 poisoned samples among 50,000 training samples) and can bypass most existing defense methods. Besides, we also provide visualization analyses to explain why our method works., Comment: 15 pages, 15 figures

Published
2024

6. Efficient and Generalized end-to-end Autonomous Driving System with Latent Deep Reinforcement Learning and Demonstrations

Author

Tang, Zuojin, Chen, Xiaoyu, Li, YongQiang, and Chen, Jianyu

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

An intelligent driving system should dynamically formulate appropriate driving strategies based on the current environment and vehicle status while ensuring system security and reliability. However, methods based on reinforcement learning and imitation learning often suffer from high sample complexity, poor generalization, and low safety. To address these challenges, this paper introduces an Efficient and Generalized end-to-end Autonomous Driving System (EGADS) for complex and varied scenarios. The RL agent in our EGADS combines variational inference with normalizing flows, which are independent of distribution assumptions. This combination allows the agent to capture historical information relevant to driving in latent space effectively, thereby significantly reducing sample complexity. Additionally, we enhance safety by formulating robust safety constraints and improve generalization and performance by integrating RL with expert demonstrations. Experimental results demonstrate that, compared to existing methods, EGADS significantly reduces sample complexity, greatly improves safety performance, and exhibits strong generalization capabilities in complex urban scenarios. Particularly, we contributed an expert dataset collected through human expert steering wheel control, specifically using the G29 steering wheel.

Published
2024

7. Orion-14B: Open-source Multilingual Large Language Models

Author

Chen, Du, Huang, Yi, Li, Xiaopu, Li, Yongqiang, Liu, Yongqiang, Pan, Haihui, Xu, Leichao, Zhang, Dacheng, Zhang, Zhipeng, and Han, Kun

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

In this study, we introduce Orion-14B, a collection of multilingual large language models with 14 billion parameters. We utilize a data scheduling approach to train a foundational model on a diverse corpus of 2.5 trillion tokens, sourced from texts in English, Chinese, Japanese, Korean, and other languages. Additionally, we fine-tuned a series of models tailored for conversational applications and other specific use cases. Our evaluation results demonstrate that Orion-14B achieves state-of-the-art performance across a broad spectrum of tasks. We make the Orion-14B model family and its associated code publicly accessible https://github.com/OrionStarAI/Orion, aiming to inspire future research and practical applications in the field., Comment: Authors are alphabetically listed by last names, except the corresponding author who is listed last

Published
2024

8. Batch Lattice-Based Designated-Verifier ZK-SNARKs for R1CS

Author

Lin, Xi, Xia, Han, Li, Yongqiang, Wang, Mingsheng, Akan, Ozgur, Editorial Board Member, Bellavista, Paolo, Editorial Board Member, Cao, Jiannong, Editorial Board Member, Coulson, Geoffrey, Editorial Board Member, Dressler, Falko, Editorial Board Member, Ferrari, Domenico, Editorial Board Member, Gerla, Mario, Editorial Board Member, Kobayashi, Hisashi, Editorial Board Member, Palazzo, Sergio, Editorial Board Member, Sahni, Sartaj, Editorial Board Member, Shen, Xuemin, Editorial Board Member, Stan, Mircea, Editorial Board Member, Jia, Xiaohua, Editorial Board Member, Zomaya, Albert Y., Editorial Board Member, Duan, Haixin, editor, Debbabi, Mourad, editor, de Carné de Carnavalet, Xavier, editor, Luo, Xiapu, editor, Du, Xiaojiang, editor, and Au, Man Ho Allen, editor

Published
2025
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10. Entanglement-Enhanced Quantum Strategies for Accurate Estimation of Multibody Group Motion and Moving Object Characteristics

Author

Li, Yongqiang and Ren, Changliang

Subjects
Quantum Physics
Abstract

This study presents a quantum strategy for simultaneous estimation of two physical quantities using different entanglement resources. We explore the utilization of positively or negatively timecorrelated photons. The proposed method enables the detection of central position and relative velocity of multibody systems, as well as precise measurement of size and velocity of moving objects. Comparative analysis with other strategies reveals the superior quantum advantage of our approach, particularly when appropriate entanglement sources with high entanglement degree are employed. These findings contribute to advancing our understanding of quantum strategies for accurate measurements.

Published
2023

20. Quantum phases of $sp^2$-orbital bosonic gases in a hexagonal lattice

Author

Zhang, Pengfei, Tan, Hui, Yuan, Jianmin, and Li, Yongqiang

Subjects
Condensed Matter - Quantum Gases
Abstract

Orbital degree of freedom plays an important role for understanding quantum many-body phenomena. In this work, we study an experimentally related setup with ultracold bosons loaded into hybridized bands of two-dimensional hexagonal optical lattices. We find that the system supports various quantum many-body phases at zero temperature, including chiral superfluid and chiral Mott insulator by breaking time-reversal symmetry, and time-reversal-even insulating phase, based on dynamical mean-field theory. To explain the time-reversal-even phase, a fourth-order orbital-exchange model is derived to explain the underlying mechanics. To relate to experimental situations, we make band-structure calculations to obtain the Hubbard parameters, and show that these orbital ordering phases persist also in the presence of next-nearest-neighbor hopping., Comment: 9 pages, 5 figures

Published
2023

21. Emergent Orbital Skyrmion Lattice in a Triangular Atom Array

Author

Cao, Rui, Han, Jinsen, Yuan, Jianmin, Li, Xiaopeng, and Li, Yongqiang

Subjects
Condensed Matter - Quantum Gases, Condensed Matter - Strongly Correlated Electrons
Abstract

Multi-orbital optical lattices have been attracting rapidly growing research interests in the last several years, providing fascinating opportunities for orbital-based quantum simulations. Here, we consider bosonic atoms loaded in the degenerate $p$-orbital bands of a two-dimensional triangular optical lattice. This system is described by a multi-orbital Bose-Hubbard model. We find the confined atoms in this system develop spontaneous orbital polarization, which forms a chiral Skyrmion lattice pattern in a large regime of the phase diagram. This is in contrast to its spin analogue which largely requires spin-orbit couplings. The emergence of the Skyrmion lattice is confirmed in both bosonic dynamical mean-field theory (BDMFT) and exact diagonalization (ED) calculations. By analyzing the quantum tunneling induced orbital-exchange interaction in the strong interaction limit, we find the Skyrmion lattice state arises due to the interplay of $p$-orbital symmetry and the geometric frustration of the triangular lattice. We provide experimental consequences of the orbital Skyrmion state, that can be readily tested in cold atom experiments. Our study implies orbital-based quantum simulations could bring exotic scenarios unexpected from their spin analogue., Comment: 6 pages, 4 figures, with supplementary material

Published
2022

23. Effects of Mushroom Residue Organic Fertilizer Combined with Desulfurized Gypsum on Active Organic Carbon and Its Sensitivity in Saline-Alkali Soil of the Yellow River Delta

Author

LI Chuanfu, XU Jialin, MING Yufei, GAO Shu, LÜ Xin, YANG Yuxuan, LI Yongqiang, and JIAO Shuying

Subjects
saline-alkali land, mushroom residue organic fertilizer, desulfurization gypsum, activated organic carbon, carbon pool management index, Environmental sciences, GE1-350, Agriculture
Abstract

[Objective] In order to investigate the effects of mushroom residue organic fertilizer and desulfurized gypsum on organic carbon components and carbon pool management index (CPMI) of saline-alkali soil. [Methods] The newly reclaimed wheat-maize rotation land in the Yellow River Delta was used as the research subject, and the randomized block experiment method was conducted to set up four treatments: no fertilization (CK), conventional farming fertilization (CN), mushroom residue organic fertilizer (MCOF), mushroom residue organic fertilizer and desulfurized gypsum (MCOG), which were treated by field fertilization for 3 years. [Results] The combined application of mushroom residue organic fertilizer and desulfurized gypsum significantly reduced the salinity of 0—20 cm soil layer, and increased the soil nitrogen, phosphorus and potassium nutrition content and cation exchange capacity (p

Published
2024
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24. Quantum phases of spin-orbital-angular-momentum coupled bosonic gases in optical lattices

Author

Cao, Rui, Han, Jinsen, Wu, Jianhua, Yuan, Jianmin, He, Lianyi, and Li, Yongqiang

Subjects
Condensed Matter - Quantum Gases, Physics - Atomic Physics
Abstract

Spin-orbit coupling plays an important role in understanding exotic quantum phases. In this work, we present a scheme to combine spin-orbital-angular-momentum (SOAM) coupling and strong correlations in ultracold atomic gases. Essential ingredients of this setting is the interplay of SOAM coupling and Raman-induced spin-flip hopping, engineered by lasers that couples different hyperfine spin states. In the presence of SOAM coupling only, we find rich quantum phases in the Mott-insulating regime, which support different types of spin defects such as spin vortex and composite vortex with antiferromagnetic core surrounded by the outer spin vortex. Based on an effective exchange model, we find that these competing spin textures are a result of the interplay of Dzyaloshinskii-Moriya and Heisenberg exchange interactions. In the presence of both SOAM coupling and Raman-induced spin-flip hopping, more many-body phases appear, including canted-antiferromagnetic and stripe phases. Our prediction suggests that SOAM coupling could induce rich exotic many-body phases in the strongly interacting regime., Comment: 12 pages, 7 figures

Published
2022
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25. Tumor microenvironment RNA test to predict immunotherapy outcomes in advanced gastric cancer: The TIMES001 trial

Author

Shi, Min, Zeng, Dongqiang, Luo, Huiyan, Xiao, Jian, Li, Yongqiang, Yuan, Xia, Huang, Na, Wu, Jiani, Zheng, Siting, Wu, Jianhua, Li, Shaowei, Rong, Xiaoxiang, Wang, Chunlin, Jiang, Luyang, Mao, Qianqian, Qiu, Wenjun, Guo, Jian, Deng, Qiong, Sun, Huiying, Lu, Xiansheng, Yu, Yunfang, Lai, Yonghong, Fang, Yiran, Zhou, Rui, Wang, Ling, Huang, Xiatong, Kong, Yuyun, Li, Jun, Liang, Li, Bin, Jianping, Liao, Yulin, and Liao, Wangjun

Published
2024
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