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18,823 results on '"Zhou Lei"'

51. OXYGENERATOR: Reconstructing Global Ocean Deoxygenation Over a Century with Deep Learning

Author

Lu, Bin, Zhao, Ze, Han, Luyu, Gan, Xiaoying, Zhou, Yuntao, Zhou, Lei, Fu, Luoyi, Wang, Xinbing, Zhou, Chenghu, and Zhang, Jing

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Physics - Atmospheric and Oceanic Physics
Abstract

Accurately reconstructing the global ocean deoxygenation over a century is crucial for assessing and protecting marine ecosystem. Existing expert-dominated numerical simulations fail to catch up with the dynamic variation caused by global warming and human activities. Besides, due to the high-cost data collection, the historical observations are severely sparse, leading to big challenge for precise reconstruction. In this work, we propose OxyGenerator, the first deep learning based model, to reconstruct the global ocean deoxygenation from 1920 to 2023. Specifically, to address the heterogeneity across large temporal and spatial scales, we propose zoning-varying graph message-passing to capture the complex oceanographic correlations between missing values and sparse observations. Additionally, to further calibrate the uncertainty, we incorporate inductive bias from dissolved oxygen (DO) variations and chemical effects. Compared with in-situ DO observations, OxyGenerator significantly outperforms CMIP6 numerical simulations, reducing MAPE by 38.77%, demonstrating a promising potential to understand the "breathless ocean" in data-driven manner., Comment: Accepted to ICML 2024

Published
2024

52. RepEval: Effective Text Evaluation with LLM Representation

Author

Sheng, Shuqian, Xu, Yi, Zhang, Tianhang, Shen, Zanwei, Fu, Luoyi, Ding, Jiaxin, Zhou, Lei, Wang, Xinbing, and Zhou, Chenghu

Subjects
Computer Science - Computation and Language
Abstract

Automatic evaluation metrics for generated texts play an important role in the NLG field, especially with the rapid growth of LLMs. However, existing metrics are often limited to specific scenarios, making it challenging to meet the evaluation requirements of expanding LLM applications. Therefore, there is a demand for new, flexible, and effective metrics. In this study, we introduce RepEval, the first metric leveraging the projection of LLM representations for evaluation. RepEval requires minimal sample pairs for training, and through simple prompt modifications, it can easily transition to various tasks. Results on ten datasets from three tasks demonstrate the high effectiveness of our method, which exhibits stronger correlations with human judgments compared to previous metrics, even outperforming GPT-4. Our work underscores the richness of information regarding text quality embedded within LLM representations, offering insights for the development of new metrics.

Published
2024

53. Rules and Algorithms for Objective Construction of Fuzzy Sets

Author

Zhou, Lei

Subjects
Mathematics - General Mathematics
Abstract

This paper aims to present objective methods for constructing new fuzzy sets from known fuzzy or classical sets, defined over the elements of a finite universe's superstructure. The paper proposes rules for assigning membership functions to these new fuzzy sets, leading to two important findings. Firstly, the property concerning the cardinality of a power set in classical theory has been extended to the fuzzy setting, whereby the scalar cardinality of a fuzzy set $\tilde B$ defined on the power set of a finite universe of a fuzzy set $\tilde A$ satisfies $\text{card}(\tilde B)=2^{\text{card}(\tilde A)}$. Secondly, the novel algorithms allow for an arbitrary membership value to be objectively achieved and represented by a specific binary sequence.

Published
2024

54. You Only Scan Once: A Dynamic Scene Reconstruction Pipeline for 6-DoF Robotic Grasping of Novel Objects

Author

Zhou, Lei, Wang, Haozhe, Zhang, Zhengshen, Liu, Zhiyang, Tay, Francis EH, and Ang. Jr, adn Marcelo H.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Robotics
Abstract

In the realm of robotic grasping, achieving accurate and reliable interactions with the environment is a pivotal challenge. Traditional methods of grasp planning methods utilizing partial point clouds derived from depth image often suffer from reduced scene understanding due to occlusion, ultimately impeding their grasping accuracy. Furthermore, scene reconstruction methods have primarily relied upon static techniques, which are susceptible to environment change during manipulation process limits their efficacy in real-time grasping tasks. To address these limitations, this paper introduces a novel two-stage pipeline for dynamic scene reconstruction. In the first stage, our approach takes scene scanning as input to register each target object with mesh reconstruction and novel object pose tracking. In the second stage, pose tracking is still performed to provide object poses in real-time, enabling our approach to transform the reconstructed object point clouds back into the scene. Unlike conventional methodologies, which rely on static scene snapshots, our method continuously captures the evolving scene geometry, resulting in a comprehensive and up-to-date point cloud representation. By circumventing the constraints posed by occlusion, our method enhances the overall grasp planning process and empowers state-of-the-art 6-DoF robotic grasping algorithms to exhibit markedly improved accuracy., Comment: ICRA 2024

Published
2024

55. Is Reference Necessary in the Evaluation of NLG Systems? When and Where?

Author

Sheng, Shuqian, Xu, Yi, Fu, Luoyi, Ding, Jiaxin, Zhou, Lei, Wang, Xinbing, and Zhou, Chenghu

Subjects
Computer Science - Computation and Language
Abstract

The majority of automatic metrics for evaluating NLG systems are reference-based. However, the challenge of collecting human annotation results in a lack of reliable references in numerous application scenarios. Despite recent advancements in reference-free metrics, it has not been well understood when and where they can be used as an alternative to reference-based metrics. In this study, by employing diverse analytical approaches, we comprehensively assess the performance of both metrics across a wide range of NLG tasks, encompassing eight datasets and eight evaluation models. Based on solid experiments, the results show that reference-free metrics exhibit a higher correlation with human judgment and greater sensitivity to deficiencies in language quality. However, their effectiveness varies across tasks and is influenced by the quality of candidate texts. Therefore, it's important to assess the performance of reference-free metrics before applying them to a new task, especially when inputs are in uncommon form or when the answer space is highly variable. Our study can provide insight into the appropriate application of automatic metrics and the impact of metric choice on evaluation performance.

Published
2024

67. Research progress in photocatalysis of titanium dioxide nanowire

Author

GAO Yan, LIU Ying, ZHOU Lei, and XU Shulan

Subjects
Titanium dioxide, Nanowire, Ultraviolet, Photocatalysis, Osseointegration, implant, surface treatment, Medicine
Abstract

Because nanoparticles have particular characteristics, such as small size and surface effects, nano⁃TiO2 is widely used in air purification, wastewater treatment and self⁃cleaning. In recent years, TiO2 photocatalysis has thorough⁃ ly explored as a new titanium implant surface treatment method. Photocatalytic performance is better for TiO2 nanowires than for nano⁃TiO2 particles. Hence, these nanowires have received widespread attention with regard for their more spe⁃ cific surface area and surface energy, improved charge carrier transport efficiency, and enhanced charge collection effi⁃ ciency. Photon⁃generated carrier transport moves in a one dimensional straight path along a nanowire, and this could de⁃ crease photoelectron loss. In this paper, we summarized the principles underlying, factors that influence, and applica⁃ tions involving TiO2 nanowire photocatalysis. Additionally, we describe its method of preparation and toxicity

Published
2018
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68. CNTs/Al5083 Composites of High-performance Uniform and Dispersion Fabricated by High-energy Ball-milling

Author

GUO Li, CAI Xiao-lan, LI Zheng, ZHOU Lei, PENG Gang, ZHANG Wen-zhong, and WANG Zi-yang

Subjects
Al5083, CNTs, high-energy ball milling, mechanical property, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Carbon nanotubes (CNTs, mass fraction of 0%-2%) reinforced Al5083 composites were fabricated by horizontal high-energy ball milling. The effects of ball milling time and CNTs contents on the properties of composite materials were studied. The micro morphology of CNTs/Al5083 composites was characterized by scanning electron microscopy(SEM) and transmission electron microscopy(TEM), the tensile strength and microhardness of the composites were tested. The results indicate that after high-energy ball milling for 1.5h, the carbon nanotubes are dispersed homogeneously in the Al5083 matrix, and good interfacial bonding strength between CNTs and Al5083 is obtained at the addition of 1.5%CNTs. Under these conditions, the tensile strength and microhardness of CNTs/Al5083 composites are 188.8MPa and 136HV, respectively. Compared to Al5083 matrix without CNTs reinforcement, tensile strength and microhardness of CNTs/Al5083 composites are increased by 32.2% and 36%, respectively.

Published
2017
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69. Application of All⁃on⁃Four technology in the field of dental implants

Author

ZHOU Lei and YUE Xin⁃xin

Subjects
All⁃on⁃Four, Dental implant restoration, Oblique implant, Edentulous, Medicine
Abstract

Dental implant restoration is an effective way to restore the chewing and aesthetic function for edentu⁃lous. However, dental implant restoration is facing great challenges of the lack of available bone, the maxillary sinus or inferior alveolar nerve vascular bundle, which is often necessary to carry out the related bone augmentation operation. All⁃on⁃Four technique is to use four implants in the anterior part of complete edentulous jaws, the two most anterior im⁃ plants are placed axially whereas the two posterior implants are placed distally angled, to support a provisional, fixed, and immediately loaded prosthesis. The technique avoids the artificial bone substitutes implantation and maxillary sinus augmentation or other bone augmentation surgery. Besides, it could alleviate patients' psychological reaction, postopera⁃ tive reaction, as well as time and money costs. It is considered a feasible treatment method to combine the application of the oblique implant and the axial implant in the treatment of the edentulous patients. This paper will elaborate on the concept of All⁃on⁃Four, the conventional technology, the evaluation research and some new viewpoints.

Published
2017
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70. CNTs Modified and Enhanced Cu Matrix Composites

Author

ZHANG Wen-zhong, CAI Xiao-lan, ZHOU Lei, and WANG Zi-yang

Subjects
CNTs, wet ball milling, modification, dispersion, Cu matrix composite, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

The composite powders of 2%-CNTs were prepared by wet ball milling and hydrogen annealing treatment-cold pressing sintering was used to consolidate the ball milled composite powders with different modifications of the CNTs. The results show that the length of the CNTs is shortened, ports are open, and amorphous carbon content is increased by ball milling. And after a mixed acid purification, the impurity on the surface of the CNTs is completely removed,and a large number of oxygen-containing reactive groups are introduced; the most of CNTs can be embedded in the Cu matrix and the CNTs have a close bonding with the Cu matrix, forming the lamellar composite structure, then, ultrafine-grained composite powders can be obtained by hydrogen annealing treatment. Shortening and purification of the CNTs are both good for dispersion and bonding of CNTs in the Cu matrix, and the tensile strength and hardness of the composites after shortening and purification reaches the highest, and is 296MPa and 139.8HV respectively, compared to the matrix, up to 123.6% in tensile strength and 42.9% in hardness, attributed to the fine grain strengthening and load transferring.

Published
2016
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71. The osteoplastic effect of Y500R coral hydroxyapatite composite grafts with fluoride on the rabbit skull

Author

GUO Yi, ZHOU Lei, and XIE Jian⁃ya

Subjects
Fluoride,, Coral hydroxyapatite,, Bone substitute,, Osteogenesis effect,, Itanium cylinder􀆳s barrier,, Medicine
Abstract

Objective To explore the effect and changes in osteogenesis efficacy of CHA (Coral hydroxyapatite) com⁃ posite grafts with fluoride in guided bone augmentation on rabbit skull. Methods Twenty ⁃ four rabbits were studied. Y500R CHA composite grafts contained fluoride and titanium cylinders were prepared. Two titanium cylinders on the test group's rabbit skull were filled with composite grafts contain fluoride and non⁃fluoride grafts were filled in the control group. Cyclomycin and calcein were injected, After 2, 4 and 6 weeks, the animals were sacrificed to obtain ground sec⁃ tions for histology and histomorphometry. The general observation and area of highly fluorescent band of new bone forma⁃ tion was measured after sample treatment. Results Significantly more neogenesis bone was augmented in the test groups than the control group. The osteoplastic effect in the test group more athletic. The experimental data had statistical signifi⁃ cance (F = 6.36, P = 0.019 3). Conclusion Low concentration (1.0 × 10⁃7 mol/L ~ 5.0 × 10⁃5 mol/L) fluoride can pro⁃ mote bone formation effectively.

Published
2016
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72. A broadband horizontally polarised omnidirectional antenna with stable radiation patterns

Author

Zhou Lei, Cui Mantang, and Lu Yangyi

Subjects
ultra wideband antennas, antenna feeds, microstrip antennas, antenna radiation patterns, Long Term Evolution, omnidirectional antennas, power dividers, planar antennas, stable radiation patterns, orthogonal broadband HPOA units, wideband power divider, modified Vivaldi antennas, designed antenna, antenna gains, omnidirectional radiation feature, broadband horizontally polarised omnidirectional antenna, noise figure -10.0 dB, noise figure 4.8 dB, frequency 2.5 GHz to 6.5 GHz, Engineering (General). Civil engineering (General), TA1-2040
Abstract

A broadband horizontally polarised omnidirectional antenna (HPOA) with stable radiation patterns is proposed. The antenna is composed of two orthogonal broadband HPOA units fed by a wideband power divider. Each HPOA consists of four modified Vivaldi antennas fed by a 1-to-4-way wideband power divider. The four Vivaldi antennas are etched on a circular substrate. The proposed antenna is simulated and discussed. Simulation results demonstrate that the designed antenna obtains a bandwidth of 88.9% from 2.5 to 6.5 GHz with reflection coefficients less than −10 dB, and the antenna gains are higher than 2 dBi in the whole frequency band. The antenna shows omnidirectional radiation feature with ripples less than 4.8 dB in the horizontal plane. The proposed antenna is suitable for 4G-LTE and 5G communication systems.

Published
2019
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73. KDAS-ReID: Architecture Search for Person Re-Identification via Distilled Knowledge with Dynamic Temperature

Author

Zhou Lei, Kangkang Yang, Kai Jiang, and Shengbo Chen

Subjects
architecture search, knowledge distillation, person re-identification, dynamic temperature, convolutional network, Industrial engineering. Management engineering, T55.4-60.8, Electronic computers. Computer science, QA75.5-76.95
Abstract

Person re-Identification(Re-ID) based on deep convolutional neural networks (CNNs) achieves remarkable success with its fast speed. However, prevailing Re-ID models are usually built upon backbones that manually design for classification. In order to automatically design an effective Re-ID architecture, we propose a pedestrian re-identification algorithm based on knowledge distillation, called KDAS-ReID. When the knowledge of the teacher model is transferred to the student model, the importance of knowledge in the teacher model will gradually decrease with the improvement of the performance of the student model. Therefore, instead of applying the distillation loss function directly, we consider using dynamic temperatures during the search stage and training stage. Specifically, we start searching and training at a high temperature and gradually reduce the temperature to 1 so that the student model can better learn from the teacher model through soft targets. Extensive experiments demonstrate that KDAS-ReID performs not only better than other state-of-the-art Re-ID models on three benchmarks, but also better than the teacher model based on the ResNet-50 backbone.

Published
2021
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74. Impact Fracture and Fragmentation of Glass via the 3D Combined Finite-Discrete Element Method

Author

Zhou Lei, Esteban Rougier, Earl E. Knight, Mengyan Zang, and Antonio Munjiza

Subjects
combined finite discrete element method, traction-separation model, impact, fracture and fragmentation, glass, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

A driving technical concern for the automobile industry is their assurance that developed windshield products meet Federal safety standards. Besides conducting innumerable glass breakage experiments, product developers also have the option of utilizing numerical approaches that can provide further insight into glass impact breakage, fracture, and fragmentation. The combined finite-discrete element method (FDEM) is one such tool and was used in this study to investigate 3D impact glass fracture processes. To enable this analysis, a generalized traction-separation model, which defines the constitutive relationship between the traction and separation in FDEM cohesive zone models, was introduced. The mechanical responses of a laminated glass and a glass plate under impact were then analyzed. For laminated glass, an impact fracture process was investigated and results were compared against corresponding experiments. Correspondingly, two glass plate impact fracture patterns, i.e., concentric fractures and radial fractures, were simulated. The results show that for both cases, FDEM simulated fracture processes and fracture patterns are in good agreement with the experimental observations. The work demonstrates that FDEM is an effective tool for modeling of fracture and fragmentation in glass.

Published
2021
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75. Benchmarking Numerical Methods for Impact and Cratering Applications

Author

Wendy K. Caldwell, Bryan Euser, Catherine S. Plesko, Carene Larmat, Zhou Lei, Earl E. Knight, Esteban Rougier, and Abigail Hunter

Subjects
ALE, FDEM, finite-volume, impact modeling, cratering, code verification, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Large scale computational models are important for studying impact cratering events that are prevalent both on Earth and, more broadly, in this solar system. To address these problems, models must reliably account for both large length scales (e.g., kilometers) and relatively long time scales (hundreds of seconds). This work benchmarks two such approaches, a more traditional hydrodynamics approach and a finite-discrete element method (FDEM), for impact cratering applications. Both 2D and 3D results are discussed for two different impact velocities, 5 km/s and 20 km/s, striking normal to the target and, for 3D simulations, 45° from vertical. In addition, comparisons to previously published data are presented. Finally, differences in how these methods model damage are discussed. Ultimately, both approaches show successful modeling of several different impact scenarios.

Published
2021
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76. Person Re-Identification Based on Attention Mechanism and Context Information Fusion

Author

Shengbo Chen, Hongchang Zhang, and Zhou Lei

Subjects
deep learning, person re-identification, attention mechanism, context information fusion, margin sample mining, Information technology, T58.5-58.64
Abstract

Person re-identification (ReID) plays a significant role in video surveillance analysis. In the real world, due to illumination, occlusion, and deformation, pedestrian features extraction is the key to person ReID. Considering the shortcomings of existing methods in pedestrian features extraction, a method based on attention mechanism and context information fusion is proposed. A lightweight attention module is introduced into ResNet50 backbone network equipped with a small number of network parameters, which enhance the significant characteristics of person and suppress irrelevant information. Aiming at the problem of person context information loss due to the over depth of the network, a context information fusion module is designed to sample the shallow feature map of pedestrians and cascade with the high-level feature map. In order to improve the robustness, the model is trained by combining the loss of margin sample mining with the loss function of cross entropy. Experiments are carried out on datasets Market1501 and DukeMTMC-reID, our method achieves rank-1 accuracy of 95.9% on the Market1501 dataset, and 90.1% on the DukeMTMC-reID dataset, outperforming the current mainstream method in case of only using global feature.

Published
2021
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91. Flexible generation of structured terahertz fields via programmable exchange-biased spintronic emitters

Author

Wang, Shunjia, Qin, Wentao, Guan, Tongyang, Liu, Jingyu, Cai, Qingnan, Zhang, Sheng, Zhou, Lei, Zhang, Yan, Wu, Yizheng, and Tao, Zhensheng

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Structured light, particularly in the terahertz frequency range, holds considerable potential for a diverse range of applications. However, the generation and control of structured terahertz radiation pose major challenges. In this work, we demonstrate a novel programmable spintronic emitter that can flexibly generate a variety of structured terahertz waves. This is achieved through the precise and high-resolution programming of the magnetization pattern on the emitter surface, utilizing laser-assisted local field cooling of an exchange-biased ferromagnetic heterostructure. Moreover, we outline a generic design strategy for realizing specific complex structured terahertz fields in the far field. Our device successfully demonstrates the generation of terahertz waves with diverse structured polarization states, including spatially separated circular polarizations, azimuthal or radial polarization states, and a full Poincare beam. This innovation opens a new avenue for designing and generating structured terahertz radiations, with potential applications in terahertz microscopy, communication, quantum information, and light-matter interactions.

Published
2023

92. Nonsmooth-Optimization-Based Bandwidth Optimal Control for Precision Motion Systems

Author

Wu, Jingjie and Zhou, Lei

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Precision motion systems are at the core of various manufacturing equipment. The rapidly increasing demand for higher productivity necessitates higher control bandwidth in the motion systems to effectively reject disturbances while maintaining excellent positioning accuracy. However, most existing optimal control methods do not explicitly optimize for control bandwidth, and the classic loop-shaping method suffers from conservative designs and fails to address cross-couplings, which motivates the development of new control solutions for bandwidth optimization. This paper proposes a novel bandwidth optimal control formulation based on nonsmooth optimization for precision motion systems. Our proposed method explicitly optimizes the system's MIMO control bandwidth while constraining the H-infinity norm of the closed-loop sensitivity function for robustness. A nonsmooth optimization solver, GRANSO, is used to solve the proposed program, and an augmented quadratic programming (QP)--based descent direction search is proposed to facilitate convergence. Simulation evaluations show that the bandwidth optimal control method can achieve a 23% higher control bandwidth than conventional loop-shaping design, and the QP-based descent direction search can reduce iteration number by 60%, which illustrates the effectiveness and efficiency of the proposed approach.

Published
2023

93. GasMono: Geometry-Aided Self-Supervised Monocular Depth Estimation for Indoor Scenes

Author

Zhao, Chaoqiang, Poggi, Matteo, Tosi, Fabio, Zhou, Lei, Sun, Qiyu, Tang, Yang, and Mattoccia, Stefano

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This paper tackles the challenges of self-supervised monocular depth estimation in indoor scenes caused by large rotation between frames and low texture. We ease the learning process by obtaining coarse camera poses from monocular sequences through multi-view geometry to deal with the former. However, we found that limited by the scale ambiguity across different scenes in the training dataset, a na\"ive introduction of geometric coarse poses cannot play a positive role in performance improvement, which is counter-intuitive. To address this problem, we propose to refine those poses during training through rotation and translation/scale optimization. To soften the effect of the low texture, we combine the global reasoning of vision transformers with an overfitting-aware, iterative self-distillation mechanism, providing more accurate depth guidance coming from the network itself. Experiments on NYUv2, ScanNet, 7scenes, and KITTI datasets support the effectiveness of each component in our framework, which sets a new state-of-the-art for indoor self-supervised monocular depth estimation, as well as outstanding generalization ability. Code and models are available at https://github.com/zxcqlf/GasMono, Comment: ICCV 2023. Code: https://github.com/zxcqlf/GasMono

Published
2023

94. Transcending the Acceleration-Bandwidth Trade-off: Lightweight Precision Stages with Active Control of Flexible Dynamics

Author

Wu, Jingjie and Zhou, Lei

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Micro/Nano-positioning stages are of great importance in a wide range of manufacturing machines and instruments. In recent years, the drastically growing demand for higher throughput and reduced power consumption in various IC manufacturing equipment calls for the development of next-generation precision positioning systems with unprecedented acceleration capability while maintaining exceptional positioning accuracy and high control bandwidth. Reducing the stage's weight is an effective approach to achieving this goal. However, the reduction of stages' weight tends to decrease its structural resonance frequency, which limits the closed-loop control bandwidth and can even cause stability issues. Aiming to overcome the aforementioned challenge and thus create new lightweight precision stages with substantially improved acceleration capability without sacrificing stage control performance, this research presents a novel sequential structure and control design framework for lightweight stages with low-frequency flexible modes of the stage being actively controlled. Additional actuators and sensors are placed to actively control the flexible structural dynamics of the lightweight stage to attain high control bandwidth. A case study is simulated to evaluate the effectiveness of the proposed approach, where a stage weight reduction of 24% is demonstrated compared to a baseline case, which demonstrates the potential of the proposed design framework. Experimental evaluation of the designed stage's motion performance will be performed on a magnetically levitated linear motor platform for performance demonstration., Comment: arXiv admin note: substantial text overlap with arXiv:2301.04208; text overlap with arXiv:2309.11735

Published
2023

95. Temporal networks provide a unifying understanding of the evolution of cooperation

Author

Li, Aming, Meng, Yao, Zhou, Lei, Masuda, Naoki, and Wang, Long

Subjects
Physics - Physics and Society, Mathematics - Dynamical Systems
Abstract

Understanding the evolution of cooperation in structured populations represented by networks is a problem of long research interest, and a most fundamental and widespread property of social networks related to cooperation phenomena is that the node's degree (i.e., number of edges connected to the node) is heterogeneously distributed. Previous results indicate that static heterogeneous (i.e., degree-heterogeneous) networks promote cooperation in stationarity compared to static regular (i.e., degree-homogeneous) networks if equilibrium dynamics starting from many cooperators and defectors is employed. However, the above conclusion reverses if we employ non-equilibrium stochastic processes to measure the fixation probability for cooperation, i.e., the probability that a single cooperator successfully invades a population. Here we resolve this conundrum by analyzing the fixation of cooperation on temporal (i.e., time-varying) networks. We theoretically prove and numerically confirm that on both synthetic and empirical networks, contrary to the case of static networks, temporal heterogeneous networks can promote cooperation more than temporal regular networks in terms of the fixation probability of cooperation. Given that the same conclusion is known for the equilibrium fraction of cooperators on temporal networks, the present results provide a unified understanding of the effect of temporal degree heterogeneity on promoting cooperation across two main analytical frameworks, i.e., equilibrium and non-equilibrium ones., Comment: 7 pages, 4 figures

Published
2023

96. FleXstage: Lightweight Magnetically Levitated Precision Stage with Over-Actuation towards High-Throughput IC Manufacturing

Author

Wu, Jingjie and Zhou, Lei

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Precision motion stages play a critical role in various manufacturing and inspection equipment, for example, the wafer/reticle scanning in photolithography scanners and positioning stages in wafer inspection systems. To meet the growing demand for higher throughput in chip manufacturing and inspection, it is critical to create new precision motion stages with higher acceleration capability with high control bandwidth, which calls for the development of lightweight precision stages. However, in today's precision motion systems, only the rigid body motion of the system are under control, and the flexible dynamic systems are in open loop. For these systems, the motion control bandwidth is limited by the first structural resonance frequency of the stage, which enforces a fundamental trade-off between the stage's bandwidth and acceleration capability. Aiming to overcome this trade-off, we have introduced a sequential structure and control design framework for lightweight stages with the low-frequency flexible modes of the stage are under active control. To facilitate the controller design, we further propose to minimize the resonance frequency of the stage's mode being controlled and to maximize the resonance frequency of the uncontrolled mode. The system's control bandwidth is placed in between the resonance frequencies. This paper presents the design, optimization, building, and experimental evaluations for a lightweight magnetically levitated planar stage, which we call FleXstage, with first flexible mode actively controlled via over-actuation. Simulations show the proposed design is highly promising in enabling stages with lightweight without sacrificing control bandwidth. We have some preliminary results now and are still working on the experimental evaluations for the closed-loop system, and will present the results in the oral presentation.

Published
2023

97. DR-Pose: A Two-stage Deformation-and-Registration Pipeline for Category-level 6D Object Pose Estimation

Author

Zhou, Lei, Liu, Zhiyang, Gan, Runze, Wang, Haozhe, and Ang Jr, Marcelo H.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Robotics
Abstract

Category-level object pose estimation involves estimating the 6D pose and the 3D metric size of objects from predetermined categories. While recent approaches take categorical shape prior information as reference to improve pose estimation accuracy, the single-stage network design and training manner lead to sub-optimal performance since there are two distinct tasks in the pipeline. In this paper, the advantage of two-stage pipeline over single-stage design is discussed. To this end, we propose a two-stage deformation-and registration pipeline called DR-Pose, which consists of completion-aided deformation stage and scaled registration stage. The first stage uses a point cloud completion method to generate unseen parts of target object, guiding subsequent deformation on the shape prior. In the second stage, a novel registration network is designed to extract pose-sensitive features and predict the representation of object partial point cloud in canonical space based on the deformation results from the first stage. DR-Pose produces superior results to the state-of-the-art shape prior-based methods on both CAMERA25 and REAL275 benchmarks. Codes are available at https://github.com/Zray26/DR-Pose.git., Comment: Camera-ready version accepted to IROS 2023

Published
2023

98. Video Captioning Based on Channel Soft Attention and Semantic Reconstructor

Author

Zhou Lei and Yiyong Huang

Subjects
video captioning, channel soft attention, semantic reconstructor, recurrent convolution networks, Information technology, T58.5-58.64
Abstract

Video captioning is a popular task which automatically generates a natural-language sentence to describe video content. Previous video captioning works mainly use the encoder–decoder framework and exploit special techniques such as attention mechanisms to improve the quality of generated sentences. In addition, most attention mechanisms focus on global features and spatial features. However, global features are usually fully connected features. Recurrent convolution networks (RCNs) receive 3-dimensional features as input at each time step, but the temporal structure of each channel at each time step has been ignored, which provide temporal relation information of each channel. In this paper, a video captioning model based on channel soft attention and semantic reconstructor is proposed, which considers the global information for each channel. In a video feature map sequence, the same channel of every time step is generated by the same convolutional kernel. We selectively collect the features generated by each convolutional kernel and then input the weighted sum of each channel to RCN at each time step to encode video representation. Furthermore, a semantic reconstructor is proposed to rebuild semantic vectors to ensure the integrity of semantic information in the training process, which takes advantage of both forward (semantic to sentence) and backward (sentence to semantic) flows. Experimental results on popular datasets MSVD and MSR-VTT demonstrate the effectiveness and feasibility of our model.

Published
2021
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99. circCD2AP promotes epithelial mesenchymal transition and stemness in bladder cancer by regulating FOXQ1/USP21 axis.

Author

Wang, Jinrong, Tan, Jing, Zhang, Yichuan, Zhou, Lei, and Liu, Yuan

Subjects
Cancer, Cell biology, Molecular biology
Abstract

Bladder cancer (BC) is a prevalent and deadly disease. circCD2AP was suggested to be highly expressed in BC. However, the exact mechanism needs further investigation. In this study, circCD2AP was observed to be upregulated in BC and linked to poor prognosis in individuals. Functionally, circCD2AP or USP21 knockdown inhibited BC cell EMT and stemness both in vitro and in vivo. Mechanistically, circCD2AP interacted with ELAVL1 to enhance the stability of USP21 mRNA, which, in turn, inhibited the ubiquitination degradation of FOXQ1. Through rescue assay, USP21 or FOXQ1 knockdown was found to abolish the promoting effects of circCD2AP or USP21 overexpression on BC cell EMT and stemness. Overall, this study has unveiled the role of circCD2AP/ELAVL1/USP21/FOXQ1 axis in BC EMT and stemness regulation, offering insights into the mechanisms underlying BC progression, with potential implications for therapeutic strategies.

Published
2024

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