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192 results on '"He, Shaojian"'

1. Multi-level Contrastive Learning Framework for Sequential Recommendation

Author

Wang, Ziyang, Liu, Huoyu, Wei, Wei, Hu, Yue, Mao, Xian-Ling, He, Shaojian, Fang, Rui, and chen, Dangyang

Subjects
Computer Science - Information Retrieval
Abstract

Sequential recommendation (SR) aims to predict the subsequent behaviors of users by understanding their successive historical behaviors. Recently, some methods for SR are devoted to alleviating the data sparsity problem (i.e., limited supervised signals for training), which take account of contrastive learning to incorporate self-supervised signals into SR. Despite their achievements, it is far from enough to learn informative user/item embeddings due to the inadequacy modeling of complex collaborative information and co-action information, such as user-item relation, user-user relation, and item-item relation. In this paper, we study the problem of SR and propose a novel multi-level contrastive learning framework for sequential recommendation, named MCLSR. Different from the previous contrastive learning-based methods for SR, MCLSR learns the representations of users and items through a cross-view contrastive learning paradigm from four specific views at two different levels (i.e., interest- and feature-level). Specifically, the interest-level contrastive mechanism jointly learns the collaborative information with the sequential transition patterns, and the feature-level contrastive mechanism re-observes the relation between users and items via capturing the co-action information (i.e., co-occurrence). Extensive experiments on four real-world datasets show that the proposed MCLSR outperforms the state-of-the-art methods consistently.

Published
2022
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7. Learning User Representations with Hypercuboids for Recommender Systems

Author

Zhang, Shuai, Liu, Huoyu, Zhang, Aston, Hu, Yue, Zhang, Ce, Li, Yumeng, Zhu, Tanchao, He, Shaojian, and Ou, Wenwu

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

Modeling user interests is crucial in real-world recommender systems. In this paper, we present a new user interest representation model for personalized recommendation. Specifically, the key novelty behind our model is that it explicitly models user interests as a hypercuboid instead of a point in the space. In our approach, the recommendation score is learned by calculating a compositional distance between the user hypercuboid and the item. This helps to alleviate the potential geometric inflexibility of existing collaborative filtering approaches, enabling a greater extent of modeling capability. Furthermore, we present two variants of hypercuboids to enhance the capability in capturing the diversities of user interests. A neural architecture is also proposed to facilitate user hypercuboid learning by capturing the activity sequences (e.g., buy and rate) of users. We demonstrate the effectiveness of our proposed model via extensive experiments on both public and commercial datasets. Empirical results show that our approach achieves very promising results, outperforming existing state-of-the-art., Comment: Accepted by WSDM 2021

Published
2020

8. Contextual-Bandit Based Personalized Recommendation with Time-Varying User Interests

Author

Xu, Xiao, Dong, Fang, Li, Yanghua, He, Shaojian, and Li, Xin

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

A contextual bandit problem is studied in a highly non-stationary environment, which is ubiquitous in various recommender systems due to the time-varying interests of users. Two models with disjoint and hybrid payoffs are considered to characterize the phenomenon that users' preferences towards different items vary differently over time. In the disjoint payoff model, the reward of playing an arm is determined by an arm-specific preference vector, which is piecewise-stationary with asynchronous and distinct changes across different arms. An efficient learning algorithm that is adaptive to abrupt reward changes is proposed and theoretical regret analysis is provided to show that a sublinear scaling of regret in the time length $T$ is achieved. The algorithm is further extended to a more general setting with hybrid payoffs where the reward of playing an arm is determined by both an arm-specific preference vector and a joint coefficient vector shared by all arms. Empirical experiments are conducted on real-world datasets to verify the advantages of the proposed learning algorithms against baseline ones in both settings., Comment: Accepted by AAAI 20

Published
2020

21. Polymer Composites for Electrical and Electronic Engineering Application.

Author

He, Shaojian and He, Shaojian

Subjects
History of engineering & technology, Materials science, Technology: general issues, Eucommia ulmoides gum, Langmuir, SiC crystal form, active product, alumina nanoplates, antioxidant 4010NA, aramid nanofiber, arcing, breakdown field strength, breakdown strength, carbon nanotubes, corona discharge, creepage distance, curved profiles, damping performance, dielectric elastomer, droplet vibration, electric breakdown strength, electro-thermal dissociation, electromagnetic shielding, energy harvesting, epoxy resin, epoxy resins, frequency, graphene, graphene oxide, graphitic carbon nitride nanosheets, high voltage insulator, honeycomb sandwich composites, hydrogen bonds, interfacial interaction, intrinsic property, low frequency, mechanical strength, metamaterial, micro-nano compound, microwave absorbing material, molecular dynamics simulation, molecular simulation, nitrile-butadiene rubber, partial discharge, polydopamine, polyimide, polyimide polymer, polymeric surface, prediction, radar stealth, reactive molecular dynamics, silicone rubber coating, space charge, streamer discharge, streamer propagation "stability" field, streamer propagation path, streamer propagation velocity, surface properties, surface streamer discharge, temperature, terahertz, thermal conductivity, thermally stimulated current method, three-electrode arrangement, unipolar electrical stress
Abstract

Summary: Polymer composite materials have attracted great interest for the development of electrical and electronic engineering and technology, and have been widely applied in electrical power systems, electrical insulation equipment, electrical and electronic devices, etc. Due to the significant expansion in the use of newly developed polymer composite materials, it is necessary to understand and accurately describe the relationship between composite structure and material properties, as only based on thorough laboratory characterization is it possible to estimate the properties for their future commercial applications. This book focuses on polymer composites applied in the field of electrical and electronic equipment, including but not limited to synthesis and preparation of new polymeric materials, structure-properties relationship of polymer composites, evaluation of materials application, simulation and modelling of material performance.

22. Properties of EPDM Nanocomposites Reinforced with Modified Montmorillonite.

Author

Li, Zhanxu, Chen, Zilong, Sun, Weichong, Liu, Yangling, Wang, Xiong, Lin, Jun, Wang, Jian, and He, Shaojian

Subjects
SILANE coupling agents, X-ray diffraction, TENSILE strength, MONOMERS, ETHYLENE
Abstract

Considering the dilemma of obtaining economic and high-performance composites based on non-polar and main-chain-saturated ethylene propylene diene monomer rubber (EPDM), we proposed an effective and universal filler modification and nanocomposite preparation method. Specifically, the montmorillonite (MMT) surface was coated with polydopamine (PDA) to obtain DMMT, which was confirmed by XRD, XPS, FTIR, and TGA. After compounding DMMT gel with the solid EPDM via the gel compounding method, a silane coupling agent, vinyltrimethoxysilane, was introduced to construct covalent interactions between rubber and filler. Compared with the unmodified MMT filler EPDM, the EPDM/DMMT nanocomposite showed much fewer filler aggregates in the matrix. The highest tensile strength of the composites reached 6.5 MPa with 10 phr DMMT, almost 200% higher than that of pure EPDM. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Polynorepinephrine-Regulated Filler Sulfonation Toward Interfacial Reformation And Conductive Promotion Of Nanocomposite Proton Exchange Membrane

Author

Huang, Tong, primary, Liu, Xin, additional, Ma, Ruibin, additional, Gao, Yangyang, additional, Xu, Xiaomin, additional, Yan, Chengrun, additional, Guo, Yuchen, additional, Li, Xiaoxu, additional, Sharma, Kamlesh, additional, Liu, Lingling, additional, Xue, Jiandang, additional, Huang, Huadong, additional, Zhang, Xiyuan, additional, Yin, Xiaochun, additional, Zhai, Shaoxiong, additional, Chen, Jiechao, additional, Jia, Xiaoyang, additional, He, Shaojian, additional, Lin, Jun, additional, and Zhang, Liqun, additional

Published
2023
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38. Analysis of the Electrical and Thermal Properties for Magnetic Fe 3 O 4 -Coated SiC-Filled Epoxy Composites

Author

Wu, Jiale, Zhang, Yiran, Gong, Yangzhi, Wang, Kun, Chen, Yun, Song, Xupeng, Lin, Jun, Shen, Boyang, He, Shaojian, Bian, Xingming, Wu, Jiale [0000-0003-2083-0282], Shen, Boyang [0000-0001-8169-6588], He, Shaojian [0000-0002-4358-4662], Bian, Xingming [0000-0003-2706-8251], and Apollo - University of Cambridge Repository

Subjects
magnetization treatment, dielectric properties, silicon carbide, breakdown strength, thermal conductivity, orderly arrangement
Abstract

Orderly arranged Silicon carbide (SiC)/epoxy (EP) composites were fabricated. SiC was made magnetically responsive by decorating the surface with iron oxide (Fe3O4) nanoparticles. Three treatment methods, including without magnetization, pre-magnetization and curing magnetization, were used to prepare SiC/EP composites with different filler distributions. Compared with unmodified SiC, magnetic SiC with core-shell structure was conducive to improve the breakdown strength of SiC/EP composites and the maximum enhancement rate was 20.86%. Among the three treatment methods, SiC/EP composites prepared in the curing-magnetization case had better comprehensive properties. Under the action of magnetic field, magnetic SiC were orderly oriented along the direction of an external field, thereby forming SiC chains. The magnetic alignment of SiC restricted the movement of EP macromolecules or polar groups to some extent, resulting in the decrease in the dielectric constant and dielectric loss. The SiC chains are equivalent to heat flow channels, which can improve the heat transfer efficiency, and the maximum improvement rate was 23.6%. The results prove that the orderly arrangement of SiC had a favorable effect on dielectric properties and thermal conductivity of SiC/EP composites. For future applications, the orderly arranged SiC/EP composites have potential for fabricating insulation materials in the power electronic device packaging field.

Published
2021

49. Improved crack growth resistance and its molecular origin of natural rubber/carbon black by nanodispersed clay

Author

Wu, Xiaohui, Wang, Yiqing, Liu, Jun, He, Shaojian, and Zhang, Liqun

Subjects
Carbon-black -- Mechanical properties, Strength of materials -- Research, Polymeric composites -- Mechanical properties -- Composition, Engineering and manufacturing industries, Science and technology
Abstract

In practice, rubber articles often fail attributed to crack growth under static and dynamic conditions. In this work we designed various experimental methods with precut samples to characterize the effect of nanodispersed clay on the crack growth resistance. The results indicate that the incorporation of nanodispersed clay can greatly improve the crack growth resistance of natural rubber (NR)/carbon black (CB), as evidenced by the enhancement of the tensile strength under static conditions, and improvement of flex-fatigue properties under dynamic conditions, which could find wide application in the industry. Furthermore, the scanning electron microscopy (SEM) observations and molecular simulations are combined to uncover the underlying mechanism of the crack growth resistance, highlighting the enhanced polymer orientation and highly stretched ligaments, and the orientation Of the Clay Sheets. POLYM. ENG. SCI., 52: 1027-1036, 2012. © 2011 Society of Plastics Engineers, INTRODUCTION It is well known that elastomer materials with high elasticity have been widely used in tire treads, vibration dumpers and seals, and traditional fillers such as carbon black(CB) and [...]

Published
2012
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