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113 results on '"Li, Zhaocheng"'

1. RADAR: Robust Two-stage Modality-incomplete Industrial Anomaly Detection

Author

Miao, Bingchen, Zhang, Wenqiao, Li, Juncheng, Tang, Siliang, Li, Zhaocheng, Shi, Haochen, Xiao, Jun, and Zhuang, Yueting

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

Multimodal Industrial Anomaly Detection (MIAD), utilizing 3D point clouds and 2D RGB images to identify the abnormal region of products, plays a crucial role in industrial quality inspection. However, the conventional MIAD setting presupposes that all 2D and 3D modalities are paired, overlooking the fact that multimodal data collected from the real world is often imperfect due to missing modalities. Consequently, MIAD models that demonstrate robustness against modal-incomplete data are highly desirable in practice. To address this practical challenge, we introduce a first-of-its-kind study that comprehensively investigates Modality-Incomplete Industrial Anomaly Detection (MIIAD), to consider the imperfect learning environment in which the multimodal information may be incomplete. Not surprisingly, we discovered that most existing MIAD approaches are inadequate for addressing MIIAD challenges, leading to significant performance degradation on the MIIAD benchmark we developed. In this paper, we propose a novel two-stage Robust modAlity-imcomplete fusing and Detecting frAmewoRk, abbreviated as RADAR. Our bootstrapping philosophy is to enhance two stages in MIIAD, improving the robustness of the Multimodal Transformer: i) In feature fusion, we first explore learning modality-incomplete instruction, guiding the pre-trained Multimodal Transformer to robustly adapt to various modality-incomplete scenarios, and implement adaptive parameter learning based on a HyperNetwork; ii) In anomaly detection, we construct a real-pseudo hybrid module to highlight the distinctiveness of modality combinations, further enhancing the robustness of the MIIAD model. Our experimental results demonstrate that the proposed RADAR significantly surpasses conventional MIAD methods in terms of effectiveness and robustness on our newly created MIIAD dataset, underscoring its practical application value.

Published
2024

2. TeamLoRA: Boosting Low-Rank Adaptation with Expert Collaboration and Competition

Author

Lin, Tianwei, Liu, Jiang, Zhang, Wenqiao, Li, Zhaocheng, Dai, Yang, Li, Haoyuan, Yu, Zhelun, He, Wanggui, Li, Juncheng, Jiang, Hao, Tang, Siliang, and Zhuang, Yueting

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

While Parameter-Efficient Fine-Tuning (PEFT) methods like LoRA have effectively addressed GPU memory constraints during fine-tuning, their performance often falls short, especially in multidimensional task scenarios. To address this issue, one straightforward solution is to introduce task-specific LoRA modules as domain experts, leveraging the modeling of multiple experts' capabilities and thus enhancing the general capability of multi-task learning. Despite promising, these additional components often add complexity to the training and inference process, contravening the efficient characterization of PEFT designed for. Considering this, we introduce an innovative PEFT method, TeamLoRA, consisting of a collaboration and competition module for experts, and thus achieving the right balance of effectiveness and efficiency: (i) For collaboration, a novel knowledge-sharing and -organizing mechanism is devised to appropriately reduce the scale of matrix operations, thereby boosting the training and inference speed. (ii) For competition, we propose leveraging a game-theoretic interaction mechanism for experts, encouraging experts to transfer their domain-specific knowledge while facing diverse downstream tasks, and thus enhancing the performance. By doing so, TeamLoRA elegantly connects the experts as a "Team" with internal collaboration and competition, enabling a faster and more accurate PEFT paradigm for multi-task learning. To validate the superiority of TeamLoRA, we curate a comprehensive multi-task evaluation(CME) benchmark to thoroughly assess the capability of multi-task learning. Experiments conducted on our CME and other benchmarks indicate the effectiveness and efficiency of TeamLoRA. Our project is available at https://github.com/Lin-Tianwei/TeamLoRA.

Published
2024

10. Push and Pull Search Embedded in an M2M Framework for Solving Constrained Multi-objective Optimization Problems

Author

Fan, Zhun, Wang, Zhaojun, Li, Wenji, Yuan, Yutong, You, Yugen, Yang, Zhi, Sun, Fuzan, Ruan, Jie, and Li, Zhaocheng

Subjects
Computer Science - Neural and Evolutionary Computing
Abstract

In dealing with constrained multi-objective optimization problems (CMOPs), a key issue of multi-objective evolutionary algorithms (MOEAs) is to balance the convergence and diversity of working populations.

Published
2019

11. Embedding Push and Pull Search in the Framework of Differential Evolution for Solving Constrained Single-objective Optimization Problems

Author

Fan, Zhun, Li, Wenji, Wang, Zhaojun, Yuan, Yutong, Sun, Fuzan, Yang, Zhi, Ruan, Jie, Li, Zhaocheng, and Goodman, Erik

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Artificial Intelligence, Mathematics - Optimization and Control
Abstract

This paper proposes a push and pull search method in the framework of differential evolution (PPS-DE) to solve constrained single-objective optimization problems (CSOPs). More specifically, two sub-populations, including the top and bottom sub-populations, are collaborated with each other to search global optimal solutions efficiently. The top sub-population adopts the pull and pull search (PPS) mechanism to deal with constraints, while the bottom sub-population use the superiority of feasible solutions (SF) technique to deal with constraints. In the top sub-population, the search process is divided into two different stages --- push and pull stages.An adaptive DE variant with three trial vector generation strategies is employed in the proposed PPS-DE. In the top sub-population, all the three trial vector generation strategies are used to generate offsprings, just like in CoDE. In the bottom sub-population, a strategy adaptation, in which the trial vector generation strategies are periodically self-adapted by learning from their experiences in generating promising solutions in the top sub-population, is used to choose a suitable trial vector generation strategy to generate one offspring. Furthermore, a parameter adaptation strategy from LSHADE44 is employed in both sup-populations to generate scale factor $F$ and crossover rate $CR$ for each trial vector generation strategy. Twenty-eight CSOPs with 10-, 30-, and 50-dimensional decision variables provided in the CEC2018 competition on real parameter single objective optimization are optimized by the proposed PPS-DE. The experimental results demonstrate that the proposed PPS-DE has the best performance compared with the other seven state-of-the-art algorithms, including AGA-PPS, LSHADE44, LSHADE44+IDE, UDE, IUDE, $\epsilon$MAg-ES and C$^2$oDE., Comment: 11 pages, 3 tables

Published
2018

19. Magnetic and dielectric properties of low‐loss MnZn ferrites with wide temperature stability.

Author

Ying, Yao, Chen, Guo, Li, Zhaocheng, Zheng, Jingwu, Yu, Jing, Qiao, Liang, Li, Wangchang, Li, Juan, Wakiya, Naoki, Yamaguchi, Masahiro, and Che, Shenglei

Subjects
POLARIZATION (Electricity), EDDY current losses, ENERGY dissipation, DIELECTRIC properties, DIELECTRIC loss, PARTIAL pressure
Abstract

To meet the needs for higher energy efficiency and a wide operating temperature range of electric vehicles, the low‐loss MnZn ferrites in a wide temperature range have been developed by optimizing the Fe content and the oxygen partial pressure (PO2) during the sintering process in this work. For the optimal sample, power loss at 300 kHz/100mT is 204 kW/m3 at 25°C and remains below 290 kW/m3 in the wide temperature range from ‐10 to 120°C. The loss separation method was employed to clarify the effects of the Fe content and PO2 on power loss. The equivalent circuit model has been employed to fit the complex impedance and it is found that the increase of PO2 enhances both the grain resistance Rg and the grain boundary resistance Rgb. The enhancement of Rgb is mainly responsible for the reduction of eddy current loss and consequently power loss. Dielectric permittivity is as large as about 15000 in this series of samples due to the electric polarization at the rich grain boundaries. Dielectric loss is very low between ‐50 and 150°C and has little contribution to the energy loss. [ABSTRACT FROM AUTHOR]

Published
2025
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20. Design of Ultrathin-Seal Asphalt Pavement: Influence Analysis Based on the DEM and Mesoscopic Compaction.

Author

Xie, Yichang, Han, Dongdong, Pan, Yuanyuan, Tang, Dong, Li, Zhaocheng, and Zhao, Yongli

Subjects
COMPACTING, DISCRETE element method, SOIL compaction, ROUGH surfaces, ASPHALT pavements, ASPHALT
Abstract

An ultrathin seal serves as a preventive maintenance technology. The design method predominantly relies on engineering experience and lacks a theoretical foundation. In order to investigate the impact of aggregate size, spreading mass, and original pavement texture depth on the formation of an ultrathin seal, a compaction model was developed using the discrete element method (DEM). Different aggregate sizes and spreading masses were analyzed to examine the particle structure and thickness. The three-dimensional (3D) Weierstrass–Mandelbrot (WM) function was used to reconstruct random rough surfaces to assess the effect of the original pavement texture depth (1, 2, 3, and 4 mm) on voids and dosage of filling asphalt. Results showed that the dynamic compaction led to a rapid increase in collision velocity and then declined sharply by 0.02 s, eventually reaching zero by 0.3 s. Particle contacts steadily increased to 365 by 0.3 s and kept stable after the plateau, indicating the formation of an interlocking structure. Coordination numbers and contact vectors varied with particle size and spreading mass, which were more pronounced for small particles. However, the smaller particles (<4.5 mm) had negligible compaction effects, suggesting that the optimal aggregate size should be 3–5 mm. Excessive spreading mass resulted in a multilayered structure incompatible with the single thickness requirement and the recommended range was 9–12 kg/m2. Furthermore, greater texture depth led to higher void content at the bottom of the seal, requiring more filling asphalt. Therefore, when designing asphalt dosage, both the compaction and the variation in voids due to the original pavement texture depth should be considered to ensure sufficient contacts. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Effect of Skeleton Networks on the Bearing Capacity of Large Stone Porous Asphalt Mixes Using the Discrete Element Method.

Author

Li, Zhaocheng, Han, Dongdong, Xie, Yichang, Liu, Baowen, and Zhao, Yongli

Subjects
*STONE, *ASPHALT, *DISCRETE element method, *BASES (Architecture)
Abstract

Large stone porous asphalt mixes (LSPMs) have the characteristics of large gaps, large content of coarse aggregate, and large particle size of coarse aggregate. Compared with the traditional asphalt-treated base (ATB), LSPM forms a more obvious skeleton structure in the process of bearing load. In this study, the discrete element method (DEM) model of LSPM is established, and an evaluation method for studying the bearing capacity and high-temperature performance of LSPM through an internal skeleton network is proposed. Firstly, the DEM model of asphalt mixture with different gradations is established, and the virtual uniaxial penetration test is carried out. Then, the performance of the skeleton network inside the asphalt mixture is analyzed, and the contribution of each group of aggregates to the skeleton network is further studied. The experimental results show that the bearing capacity of an asphalt mixture is closely related to the performance of internal skeleton network. The skeleton network inside the asphalt mixture is extracted by the value of the contact force, the angle between the contacts, and the contact continuity. When the skeleton network has better bearing capacity and load-transfer capacity, the asphalt mixture can bear more external load in the virtual penetration test. The contribution of different coarse aggregates to the skeleton network is analyzed from four perspectives: total contact force, vertical work, contact number, and effective coordination number. The aggregates of 19–26.5 and 4.75–9.5 mm constitute the main body of the load-transfer path and play a major role in bearing and transmitting the load in the skeleton network. [ABSTRACT FROM AUTHOR]

Published
2024
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26. 3D Virtual reconstruction of asphalt mixture microstructure based on rigid body dynamic simulation.

Author

Han, Dongdong, Xi, Yinfei, Xie, Yichang, Li, Zhaocheng, and Zhao, Yongli

Subjects
DYNAMIC simulation, RIGID bodies, FINITE element method, MICROSTRUCTURE, OPTICAL scanners, ASPHALT, MIXTURES
Abstract

This paper presents a virtual generation method for the heterogeneous microstructure of asphalt mixtures. The coarse aggregates used in the digital asphalt mixture were derived from real aggregates captured by a three-dimensional (3D) laser scanner. Then, a rigid-body dynamic simulation framework was proposed to generate a stable skeletal structure composed of coarse aggregates similar to those formed by compaction. Furthermore, FAM and air voids were generated based on the generated aggregate skeleton and the assumption of equal thickness of FAM film. To prove the reliability of the model, the air voids of the digital asphalt mixture samples were verified by comparison with real specimens. The generated digital specimens were also applied to finite element method (FEM) simulations to predict the dynamic modulus of the asphalt mixture and the simulated results were in good agreement with the experimental results. The method can be applied to study the spatial distribution of asphalt mixture components, the movement pattern of aggregate particles during compaction and numerical simulations at the microscopic scale. [ABSTRACT FROM AUTHOR]

Published
2023
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33. P-RC APMP Pulping of the Triploid of Populus Tomentosa

Author

International Symposium on Wood, Fibre and Pulping Chemistry (13th : 2005 : Auckland, N.Z.), Kong, Fangong, Chen, Jiachuan, Wang, Shoujuan, Zhan, Huaiyu, Yang, Guihua, Li, Zhaocheng, and Sun, Lijun

Published
2005

36. Synthesis of Multicatalytic Nano-Magnetic Ceria with a Double in situ Hydrothermal Method for Phosphate Ions Removal and Peroxidase Mimicking

Author

Li Honglin, Li Zhaocheng, Akif Zeb, and Shafaq Sahar

Subjects
General Materials Science, Condensed Matter Physics
Abstract

A series of multicatalytic easily separable magnetic ceria (CeO2-CoFe2O4) nanocomposites were prepared with different content of CoFe2O4 by the in-house developed double in situ hydrothermal method. The crystal structure, morphology and magnetic properties of the samples were characterized in detail with the help of X-ray diffraction (XRD), scanning electron microscope (SEM) and vibrating sample magnetometer (VSM). XRD patterns showed that a small amount of CoFe2O4 did not affect the crystal structure of ceria, and CeO2-CoFe2O4 had typical characteristic peaks containing both ceria and CoFe2O4. SEM images show that CeO2-CoFe2O4 samples were in the form of uniform cubical structures with particle sizes within 20–50[Formula: see text]nm. The VSM results demonstrated that the ferrimagnetic nature of CeO2-CoFe2O4 sample was obvious and sample saturation magnetization increased with the CoFe2O4 content. The samples with different content of CoFe2O4 were further used in phosphate ions adsorption and artificial enzyme applications.

Published
2022

41. Effect of a YIG nanoparticle additive on the magnetic properties of MnZn ferrites for MHz frequency applications.

Author

Ying, Yao, Feng, Jiawei, Li, Zhaocheng, Zheng, Jingwu, Yu, Jing, Li, Wangchang, Qiao, Liang, Cai, Wei, Li, Juan, Huang, Hui, Zhao, Tiejun, and Che, Shenglei

Subjects
MAGNETIC properties, YTTRIUM iron garnet, EDDY current losses, FERRITES, MAGNETIC nanoparticles, CRYSTAL grain boundaries
Abstract

In this study, MnZn ferrites with added YIG nanoparticles were developed for MHz frequency applications. The effect of the magnetic YIG additive on the power loss, initial permeability, and cutoff frequency of MnZn ferrites was investigated. A small quantity of added YIG effectively reduces the power loss and concurrently increases the initial permeability. Compared to the results for the MnZn ferrite with no added YIG, the optimal MnZn ferrite with 600 ppm added YIG exhibits a reduction in the power loss at 25°C of 56.4% and 36.6% at 1 MHz/50 mT and 3 MHz/10 mT, respectively, and a 13.9% increase in the initial permeability. This sample also exhibits a good stability of the power loss against temperature. The power loss remains below 205 kW/m3 over temperatures ranging from 25 to 140°C. The effect mechanism of YIG addition on the magnetic properties of MnZn ferrites was studied. An analysis based on the equivalent circuit model showed that the reduction in the eddy current loss and power loss mainly results from the increase in the grain boundary resistance caused by the addition of highly resistive YIG. [ABSTRACT FROM AUTHOR]

Published
2023
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43. Nondegenerate P‐Type In‐Doped SnS 2 Monolayer Transistor

Author

Li, Zhaocheng, primary, Shu, Weining, additional, Li, Qiuqiu, additional, Xu, Weiting, additional, Zhang, Zhengwei, additional, Li, Jia, additional, Wang, Yiliu, additional, Liu, Yueyang, additional, Yang, Juehan, additional, Chen, Keqiu, additional, Duan, Xidong, additional, Wei, Zhongming, additional, and Li, Bo, additional

Published
2021
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46. Nondegenerate P‐Type In‐Doped SnS2 Monolayer Transistor.

Author

Li, Zhaocheng, Shu, Weining, Li, Qiuqiu, Xu, Weiting, Zhang, Zhengwei, Li, Jia, Wang, Yiliu, Liu, Yueyang, Yang, Juehan, Chen, Keqiu, Duan, Xidong, Wei, Zhongming, and Li, Bo

Subjects
FIELD-effect transistors, MONOMOLECULAR films, SEMICONDUCTOR doping, DENSITY functional theory, TRANSISTORS, N-type semiconductors
Abstract

Doping can change the intrinsic properties of 2D materials by tuning their electronic structure. In this work, high‐quality 2D In‐doped SnS2 (In‐SnS2) monolayer is reported through chemical vapor transport method and following mechanical cleavage process. The In content of In‐SnS2 is ≈0.9%, and doping results in the downward shift of the Fermi level compared with the undoped one. Transmission electron microscopy images show that doping is uniform in the In‐SnS2 nanosheets with high quality. The In‐SnS2 monolayer field effect transistors (FETs) show p‐type feature which is different from the n‐type feature of undoped SnS2. The average hole produced by one In atom is estimated as 0.37 from FETs measurement. Density functional theory calculations show that the decreasing of hole concentration results from the hole killing mechanism induced by S vacancy. The results suggest that changing the polarity of 2D semiconductor by doping is successful, and In‐SnS2 monolayer has great potential in the applications of electronics and optoelectronics. [ABSTRACT FROM AUTHOR]

Published
2021
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48. A pH‐responsive polymer linked with immunomodulatory drugs: synthesis, characteristics and in vitro biocompatibility.

Author

Li, Zhaocheng, Gao, Jiyuan, Xiang, Zexing, Zhang, Honglei, Wang, Yibei, and Zhang, Xuefei

Subjects
DRUG synthesis, COPOLYMER micelles, FOURIER transform infrared spectroscopy, GEL permeation chromatography, MAJOR histocompatibility complex, BIOCOMPATIBILITY
Abstract

Cancer immunotherapy is a promising method for cancer therapy. Imiquimod (R837) is a molecule that could activate immune systems for cancer immunotherapy, but an easily manufactured biocompatible carrier to deliver R837 may be needed to overcome the disadvantages of R837. Micelles formed by biocompatible copolymers have been widely used to deliver chemotherapeutic drugs but not immunotherapeutic drugs. In this study, R837 was linked to an amphiphilic biodegradable copolymer mPEG‐b‐PLA via acid‐sensitive Schiff bases. The molecular structures were investigated by 1H nuclear magnetic resonance, gel permeation chromatography and Fourier transform infrared spectroscopy. The product could be self‐assembled into micelles with R837 content as high as 22.4%. Owing to acid‐cleavable Schiff bases, the release of R837 from micelles was markedly accelerated under acidic media. Consequently, the micelles linked with R837 stimulated the expression of major histocompatibility complex II‐stimulating molecules on the surface of RAW 264.7 macrophages at pH 6.5 but not pH 7.4. By using human umbilical vein endothelial cells as the in vitro model, it was shown that the polymer carriers and R837‐linked micelles were minimally cytotoxic and did not induce the activation of endothelial cells under physiological pH, which suggested the relatively high biocompatibility. In conclusion, this study successfully developed pH‐responsive immunotherapeutic drug‐loaded micelles that could activate macrophages at acidic pH in vitro. The high biocompatibility of the micelles to endothelial cells also indicated the potential uses under in vivo conditions. This study successfully developed pH‐responsive immunotherapeutic drug‐linked micelles for potential uses in cancer immunotherapy. The micelles had moderate drug content, precisely controlled molecular structure and nanoscale size. The micelles increased the solubility of R837 and activated macrophages at acidic pH due to the acid‐sensitive Schiff bases. By using human umbilical vein endothelial cells, it was shown that the micelles were minimally cytotoxic and did not induce the activation of endothelial cells under physiological pH, indicating the relatively high biocompatibility. [ABSTRACT FROM AUTHOR]

Published
2021
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50. The Mechanisms of the Transportation Land Transfer Impact on Economic Growth: Evidence from China.

Author

Zhang, Mingzhi, Li, Zhaocheng, Wang, Xinpei, Li, Jiajia, Liu, Hongyu, and Zhang, Ying

Subjects
LAND title registration & transfer, ECONOMIC development, SUSTAINABLE development, URBANIZATION, LAND use
Abstract

Accessibility to transportation is a crucial factor for economic growth. Transportation land, defined as the land used to support transportation infrastructure, such as city and inter-city rail, ports, and air travel, is a critical element for constructing transportation facilities and has attracted increasing attention from researchers and policy makers. Transportation land transfer (TLT) is defined as the act by which the state transfers transportation land-use rights to a land user (collective or individual) within a certain period of time as the land owner (all land in China is owned by the state). The land user pays a land-use right transfer fee to the state. This article first reveals the multidimensional effect between TLT and economic growth based on data from China's 30 provinces for 2007–2019. The study found the following. (1) A continuous increase in the availability of transportation land is vital to ensure sustainable economic growth, and the construction of transportation land between adjacent areas has positive spatial spillover effects. (2) These positive effects work through three mechanisms, i.e., increased employment, industrial interactions, and improvements in economic operational efficiency, with a time lag. (3) The positive effects of TLT on economic growth have significant heterogeneous moderating effects on the differences in the economic development stage, the level of industrial structure, and urbanization rate. The study expands the front-end to back-end analysis of land use, provides a reference for countries and regions at different stages of development to promote economic growth using transportation land construction, and presents beneficial insights for governments to efficiently avoid the mismatch of transportation land resources. [ABSTRACT FROM AUTHOR]

Published
2022
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