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Your search keyword '"Zhu, Yaping"' showing total 501 results
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501 results on '"Zhu, Yaping"'

1. Asymptotic behaviors of subcritical branching killed Brownian motion with drift

Author

Hou, Haojie, Ren, Yan-Xia, Song, Renming, and Zhu, Yaping

Subjects
Mathematics - Probability
Abstract

In this paper, we study asymptotic behaviors of a subcritical branching killed Brownian motion with drift $-\rho$ and offspring distribution $\{p_k:k\ge 0\}$. Let $\widetilde{\zeta}^{-\rho}$ be the extinction time of this subcritical branching killed Brownian motion, $\widetilde{M}_t^{-\rho}$ the maximal position of all the particles alive at time $t$ and $\widetilde{M}^{-\rho}:=\max_{t\ge 0}\widetilde{M}_t^{-\rho}$ the all time maximal position. Let $\mathbb{P}_x$ be the law of this subcritical branching killed Brownian motion when the initial particle is located at $x\in (0,\infty)$. Under the assumption $\sum_{k=1}^\infty k (\log k) p_k <\infty$, we establish the decay rates of $\mathbb{P}_x(\widetilde{\zeta}^{-\rho}>t)$ and $\mathbb{P}_x(\widetilde{M}^{-\rho}>y)$ as $t$ and $y$ tend to $\infty$ respectively. We also establish the decay rate of $\mathbb{P}_x(\widetilde{M}_t^{-\rho}>z(t,\rho))$ as $t\to\infty$, where $z(t,\rho)=\sqrt{t}z-\rho t$ for $\rho\leq 0$ and $z(t,\rho)=z$ for $\rho>0$. As a consequence, we obtain a Yaglom-type limit theorem.

Published
2024

2. The extremal process of branching Brownian motion with absorption

Author

Yang, Fan and Zhu, Yaping

Subjects
Mathematics - Probability
Abstract

In this paper, we study branching Brownian motion with absorption, in which particles undergo Brownian motions with drift and are killed upon reaching the origin. We prove that the extremal process of this branching Brownian motion with absorption converges to a random shifted decorated Poisson point process. Furthermore, we show that the law of the right-most particle converges to the law of a random shifted Gumbel random variable., Comment: 23 pages

Published
2023

13. PGD-UNet: A Position-Guided Deformable Network for Simultaneous Segmentation of Organs and Tumors

Author

Li, Ziqiang, Pan, Hong, Zhu, Yaping, and Qin, A. K.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Neural and Evolutionary Computing
Abstract

Precise segmentation of organs and tumors plays a crucial role in clinical applications. It is a challenging task due to the irregular shapes and various sizes of organs and tumors as well as the significant class imbalance between the anatomy of interest (AOI) and the background region. In addition, in most situation tumors and normal organs often overlap in medical images, but current approaches fail to delineate both tumors and organs accurately. To tackle such challenges, we propose a position-guided deformable UNet, namely PGD-UNet, which exploits the spatial deformation capabilities of deformable convolution to deal with the geometric transformation of both organs and tumors. Position information is explicitly encoded into the network to enhance the capabilities of deformation. Meanwhile, we introduce a new pooling module to preserve position information lost in conventional max-pooling operation. Besides, due to unclear boundaries between different structures as well as the subjectivity of annotations, labels are not necessarily accurate for medical image segmentation tasks. It may cause the overfitting of the trained network due to label noise. To address this issue, we formulate a novel loss function to suppress the influence of potential label noise on the training process. Our method was evaluated on two challenging segmentation tasks and achieved very promising segmentation accuracy in both tasks., Comment: Accepted by the 2020 International Joint Conference on Neural Networks (IJCNN 2020)

Published
2020

14. Synthesis and characterization of poly(benzoxazine-co-siloxane) oligomers end-capped with arylacetylene

Author

Liu, Lele, Wang, Fan, Wang, Xiaohan, Zhu, Yaping, and Qi, Huimin

Subjects
Polymerization -- Methods, Oligomers -- Composition -- Properties, Formaldehyde -- Usage, Siloxanes -- Usage, Engineering and manufacturing industries, Science and technology
Abstract

Four poly(benzoxazine-co-siloxane) oligomers (PBcSs) were successfully synthesized by improving the synthesis step and controlling the ratio of phenol, bisphenol A, 1,3-bis(3-aminopropyl)tetramethyldisiloxane, m-aminophenyl acetylene, and formaldehyde; the resulting compounds all exhibited good processing properties. Siloxane addition can significantly improve the toughness of the polybenzoxazines. Additionally, compared with the PBcSs containing only phenol structure, the introduction of bisphenol A has a decelerating effect on the polymerization process of the benzoxazine oligomer, which leads to an increase in the exothermic peak temperature. Simultaneously, the PBcS containing bisphenol A also exhibits a higher glass transition temperature and increased thermal stability, but reduced flexural strength. Conversely, compared to the benzoxazine oligomers that do not contain alkynyl groups, the introduction of the terminal alkynyl group can accelerate the polymerization process, decrease the exothermic peak temperature, significantly increase the glass transition temperature, and greatly improve the heat resistance; the 5% thermal decomposition temperature of cured product is increased by up to 101[degrees]C. Furthermore, under conditions that ensure high flexural strength, appropriate alkynyl content can also significantly increase the material's flexural modulus. KEYWORDS heat resistance, oligomers, polybenzoxazine, siloxane, terminal alkynyl groups, 1 | INTRODUCTION Polybenzoxazines have attracted considerable attention as important thermosetting resins owing to their outstanding properties, including flexible molecular design, good dielectric properties, a long shelf life, and no [...]

Published
2023
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33. A flexible rotator-expanded molecular framework integrated strategy for improving microviscosity sensitivity of molecular rotor probes.

Author

Tang, Xiaofang, Zhu, Yaping, Guan, Weijiang, and Lu, Chao

Subjects
*MOLECULAR probes, *MACROMOLECULES
Abstract

A novel approach was proposed to enhance the microviscosity sensitivity of molecular rotor probes by integrating flexible rotators and expanded molecular frameworks, addressing the crucial challenge of weakening microviscosity sensitivity in dilute solutions of macromolecules. [ABSTRACT FROM AUTHOR]

Published
2024
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34. Enhanced Foliar Litter Decomposition Rate of Pinus massoniana When Admixed with Broadleaf Species.

Author

Xie, Jinjuan, Lei, Pifeng, and Zhu, Yaping

Subjects
FOREST litter decomposition, FOREST management, FOREST litter, BROADLEAF forests, MIXED forests, ALNUS glutinosa
Abstract

In the global ecosystem, the slow decomposition of coniferous forest litter has caused a number of ecological problems, among which is the decay of China's Pinus massoniana litter. It has been pointed out that converting pure P. massoniana plantations into mixed forests with broadleaf species can improve ecosystem services. Therefore, the selection of mixed species is key for the success or failure of the conversion of near-natural forests. In this study, from the perspective of apoplastic decomposition, the leaf litter of P. massoniana was mixed with three common native broadleaf species, namely Choerospondias axillaries, Cinnamomum camphora, and Cyclobalanopsis glauca, using an indoor incubation method to systematically analyse the differences in the decomposition rates of apoplastic material in each mixture, and to provide a theoretical basis for the selection and mixing of tree species for the management of near-natural forests in P. massoniana forests. After 175 days of indoor incubation of the foliar litter under dark conditions at 25 °C, the residual dry matter of the mixed apoplastic litter of P. massoniana and the three broadleaf trees was lower than that of P. massoniana. It indicated that the incorporation of broadleaf apoplastic foliage promoted litter decomposition, with the most pronounced effect in the case of admixture with C. Camphora. Compared with the group of pure P. massoniana alone, the remaining mass and residual rate decreased by 0.56 g and 9.45%, respectively. The regression equation of Olson's negative exponential decay model showed that the P. massoniana + C. Camphora mixture had the fastest decomposition rate (k) of 1.305, an increase of 0.237, a decrease in half-life of 0.11 years, and a decrease in turnover period of 0.49 year, compared to the P. massoniana alone group. Most of the measured values throughout the incubation period were significantly lower than the predicted values, suggesting that there was a non-additive and synergistic effect of litter mixing. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Multiobjective optimization of resin transfer molding curing process for silicon‐containing arylacetylene resin‐matrix composites.

Author

Jin, Chaoen, Wang, Lei, Zhu, Huamei, Wang, Fan, Zhu, Yaping, and Qi, Huimin

Subjects
TRANSFER molding, GENETIC algorithms, SENSITIVITY analysis, CURING, POLYMERIZATION, PRESSURE swing adsorption process
Abstract

Silicon‐containing arylacetylene resin (PSA)‐matrix composites hold great potential for aerospace applications due to their excellent heat resistance. In recent years, many PSAs with specific functions have been designed via materials genome approach (MGA), and appropriate resin transfer molding (RTM) curing processes need to be screened to strike a balance between low cost and high quality. In this study, a novel tool based on finite element curing simulation and multiobjective genetic algorithm was developed to optimize the RTM curing process for novel PSA‐matrix composites. The silicon‐containing fluorenylacetylene resin (PSA‐VBF) was selected as the object to systematically characterize its apparent curing kinetics. To address the problem of explosive polymerization of the resin at the injection port during the RTM process, a multiobjective optimization of the curing process using a genetic algorithm was performed to obtain the Pareto front with the maximum temperature gradient at the injection port of the resin, the maximum degree of cure gradient of the composites, and the process time as the objectives. A global sensitivity analysis was also conducted to identify the key parameters. The results demonstrate that the optimized curing process can significantly reduce the temperature gradient and the curing degree gradient with improved curing efficiency. [ABSTRACT FROM AUTHOR]

Published
2024
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43. Model Self-Supervised Federated Learning for Heterogeneous Fingerprint Localization

Author

Zhu, Yaping, Qiu, Ying, Wang, Junyuan, and Han, Fengxia

Abstract

Fingerprint localization is emerging as one of the most important indoor positioning methods, especially with the development of deep learning (DL). To avoid potential privacy leakage of clients from the large-scale fingerprinting samples for DL training, federated learning (FL) has been introduced to implement distributed learning without exchanging raw local data. However, FL-based localization suffers from severe accuracy degradation caused by heterogeneity among distributed data. To tackle this problem, this letter builds a model self-supervised federated learning (MSS-FL) framework for fingerprint localization. In MSS-FL, we propose to conduct self-supervised learning at the model level, and incorporate a model self-supervised loss into the local training objective to relieve the bias between global model and local model. Experiments on a real-world dataset are conducted to validate the improved localization accuracy with faster convergence of MSS-FL, compared with other state-of-the-art FL methods.

Published
2024
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45. Intelligent extraction of reservoir dispatching information integrating large language model and structured prompts.

Author

Yang, Yangrui, Chen, Sisi, Zhu, Yaping, Liu, Xuemei, Ma, Wei, and Feng, Ling

Subjects
LANGUAGE models, ARTIFICIAL intelligence, RESERVOIRS, DATA mining, MERGERS & acquisitions, FLOOD control
Abstract

Reservoir dispatching regulations are a crucial basis for reservoir operation, and using information extraction technology to extract entities and relationships from heterogeneous texts to form triples can provide structured knowledge support for professionals in making dispatch decisions and intelligent recommendations. Current information extraction technologies require manual data labeling, consuming a significant amount of time. As the number of dispatch rules increases, this method cannot meet the need for timely generation of dispatch plans during emergency flood control periods. Furthermore, utilizing natural language prompts to guide large language models in completing reservoir dispatch extraction tasks also presents challenges of cognitive load and instability in model output. Therefore, this paper proposes an entity and relationship extraction method for reservoir dispatch based on structured prompt language. Initially, a variety of labels are refined according to the extraction tasks, then organized and defined using the Backus–Naur Form (BNF) to create a structured format, thus better guiding large language models in the extraction work. Moreover, an AI agent based on this method has been developed to facilitate operation by dispatch professionals, allowing for the quick acquisition of structured data. Experimental verification has shown that, in the task of extracting entities and relationships for reservoir dispatch, this AI agent not only effectively reduces cognitive burden and the impact of instability in model output but also demonstrates high extraction performance (with F1 scores for extracting entities and relationships both above 80%), offering a new solution approach for knowledge extraction tasks in other water resource fields. [ABSTRACT FROM AUTHOR]

Published
2024
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46. Influences of the Decomposition Atmosphere and Heating Rate on the Pyrolysis Behaviors of Resin Sand.

Author

Xu, Qingwei, Zhu, Yaping, Xu, Kaili, Li, Bingjun, and Su, Nan

Subjects
SAND, FOUNDRY sand, SAND casting, PYROLYSIS, HEAT conduction, ATMOSPHERIC nitrogen, ACTIVATION energy
Abstract

The pouring of sand casting is accompanied by severe heat conduction, and there is an urgent need to investigate the pyrolysis properties of foundry sand. The main purpose of this study was to investigate the pyrolysis behaviors of resin sand, including precoated sand (PCS), hot box sand (HBS), and warm box sand (WBS), at heating rates of 20 °C/min, 30 °C/min, and 40 °C/min in nitrogen and air atmospheres. The mass loss of the resin sand was monitored continuously with a simultaneous thermal analyzer, and the kinetic parameters of the resin sand were calculated based on the Coats–Redfern method and thermal data. The average mass loss of the resin sand during pyrolysis was 3.03%, which was much smaller than that of the other sands. The volatile release characteristic index of resin sand could not be calculated based on this concept. To solve this issue, the term Tstv/mloss was established, and its value was determined. With increasing heating rates from 20 °C/min to 30 °C/min and from 30 °C/min to 40 °C/min, the mass losses of the resin sand increased by 0.79% and 0.64%, respectively, and the volatile release characteristic indices of the resin sand increased by 3.8 × 10−10 and 1.06 × 10−9, respectively. In addition, the mass losses and volatile release characteristic indices of resin sand in an air atmosphere were greater than those in a nitrogen atmosphere. With increasing heating rate, the activation energy of the resin sand decreased in a nitrogen atmosphere. The findings concerning the thermal decomposition behaviors of resin sand provided a theoretical basis for the pouring step of the sand casting process. [ABSTRACT FROM AUTHOR]

Published
2024
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47. A Homology Based Coverage Optimization Algorithm for Wireless Sensor Networks

Author

Xiang, Lei, Yan, Feng, Zhu, Yaping, Xia, Weiwei, Shen, Fei, Xing, Song, Wu, Yi, Shen, Lianfeng, 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 (Sherman), Editorial Board Member, Stan, Mircea, Editorial Board Member, Jia, Xiaohua, Editorial Board Member, Zomaya, Albert Y., Editorial Board Member, Zheng, Jun, editor, Li, Cheng, editor, Chong, Peter Han Joo, editor, Meng, Weixiao, editor, and Yan, Feng, editor

Published
2019
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48. Node Scheduling for Localization in Heterogeneous Software-Defined Wireless Sensor Networks

Author

Zhu, Yaping, Yan, Feng, Xia, Weiwei, Shen, Fei, Xing, Song, Wu, Yi, Shen, Lianfeng, Akan, Ozgur, Series Editor, Bellavista, Paolo, Series Editor, Cao, Jiannong, Series Editor, Coulson, Geoffrey, Series Editor, Dressler, Falko, Series Editor, Ferrari, Domenico, Series Editor, Gerla, Mario, Series Editor, Kobayashi, Hisashi, Series Editor, Palazzo, Sergio, Series Editor, Sahni, Sartaj, Series Editor, Shen, Xuemin (Sherman), Series Editor, Stan, Mircea, Series Editor, Xiaohua, Jia, Series Editor, Zomaya, Albert Y., Series Editor, Zheng, Jun, editor, Xiang, Wei, editor, Lorenz, Pascal, editor, Mao, Shiwen, editor, and Yan, Feng, editor

Published
2019
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