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515 results on '"Jiang, Yilin"'

1. Fast High-Quality Enhanced Imaging Algorithm for Layered Dielectric Targets Based on MMW MIMO-SAR System

Author

Chen, Xu, Yu, Guangsheng, Yuan, Zhian, Wu, Hao, Jiang, Yilin, Wang, Ying, Deng, Bin, and Guo, Limin

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Millimeter-wave (MMW) multiple-input multiple-output synthetic aperture radar (MIMO-SAR) system is a technology that can achieve high resolution, high frame rate, and all-weather imaging and has received extensive attention in the non-destructive testing and internal imaging applications of layered dielectric targets. However, the non-ideal scattering effect caused by dielectric materials can significantly deteriorate the imaging quality when using the existing MIMO-SAR fast algorithms. This paper proposes a rapid, high-quality dielectric target-enhanced imaging algorithm for a new universal non-uniform MIMO-SAR system. The algorithm builds on the existing non-uniform MIMO-SAR dielectric target frequency-domain algorithm (DT-FDA) by constructing a forward sensing operator and incorporating it into the alternating direction method of multipliers (ADMM) framework. This approach avoids large matrix operations while maintaining computational efficiency. By integrating an optimal regularization parameter search, the algorithm enhances the image reconstruction quality of dielectric internal structures or defects. Experimental results show the proposed algorithm outperforms IBP and DT-FDA, achieving better focusing, sidelobe suppression, and 3D imaging accuracy. It yields the lowest image entropy (8.864) and significantly improves efficiency (imaging time: 15.29 s vs. 23295.3 s for IBP)., Comment: 8 pages

Published
2024

2. A general approach to fitting multistate cure models based on an extended-long-format data structure

Author

Jiang, Yilin, van Tinteren, Harm, and Fiocco, Marta

Subjects
Statistics - Methodology
Abstract

A multistate cure model is a statistical framework used to analyze and represent the transitions that individuals undergo between different states over time, taking into account the possibility of being cured by initial treatment. This model is particularly useful in pediatric oncology where a fraction of the patient population achieves cure through treatment and therefore they will never experience some events. Our study develops a generalized algorithm based on the extended long data format, an extension of long data format where a transition can be split up to two rows each with a weight assigned reflecting the posterior probability of its cure status. The multistate cure model is fit on top of the current framework of multistate model and mixture cure model. The proposed algorithm makes use of the Expectation-Maximization (EM) algorithm and weighted likelihood representation such that it is easy to implement with standard package. As an example, the proposed algorithm is applied on data from the European Society for Blood and Marrow Transplantation (EBMT). Standard errors of the estimated parameters are obtained via a non-parametric bootstrap procedure, while the method involving the calculation of the second-derivative matrix of the observed log-likelihood is also presented.

Published
2024

19. Optimized cytogenetic risk-group stratification of KMT2A-rearranged pediatric acute myeloid leukemia

Author

van Weelderen, Romy E., Harrison, Christine J., Klein, Kim, Jiang, Yilin, Abrahamsson, Jonas, Alonzo, Todd, Aplenc, Richard, Arad-Cohen, Nira, Bart-Delabesse, Emmanuelle, Buldini, Barbara, De Moerloose, Barbara, Dworzak, Michael N., Elitzur, Sarah, Fernández Navarro, José M., Gamis, Alan, Gerbing, Robert B., Goemans, Bianca F., de Groot-Kruseman, Hester A., Guest, Erin, Ha, Shau-Yin, Hasle, Henrik, Kelaidi, Charikleia, Lapillonne, Hélène, Leverger, Guy, Locatelli, Franco, Miyamura, Takako, Norén-Nyström, Ulrika, Polychronopoulou, Sophia, Rasche, Mareike, Rubnitz, Jeffrey E., Stary, Jan, Tierens, Anne, Tomizawa, Daisuke, Zwaan, C. Michel, and Kaspers, Gertjan J. L.

Published
2024
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31. Inotuzumab ozogamicin as single agent in pediatric patients with relapsed and refractory acute lymphoblastic leukemia: results from a phase II trial

Author

Pennesi, Edoardo, Michels, Naomi, Brivio, Erica, van der Velden, Vincent H. J., Jiang, Yilin, Thano, Adriana, Ammerlaan, Anneke J. C., Boer, Judith M., Beverloo, H. Berna, Sleight, Barbara, Chen, Ying, Vormoor-Bürger, Britta, Rives, Susana, Bielorai, Bella, Rössig, Claudia, Petit, Arnaud, Rizzari, Carmelo, Engstler, Gernot, Starý, Jan, Bautista Sirvent, Francisco J., Chen-Santel, Christiane, Bruno, Benedicte, Bertrand, Yves, Rialland, Fanny, Plat, Geneviève, Reinhardt, Dirk, Vinti, Luciana, Von Stackelberg, Arend, Locatelli, Franco, and Zwaan, Christian M.

Published
2022
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34. Fludarabine exposure predicts outcome after CD19 CAR T-cell therapy in children and young adults with acute leukemia

Author

Dekker, Linde, Calkoen, Friso G., Jiang, Yilin, Blok, Hilly, Veldkamp, Saskia R., De Koning, Coco, Spoon, Maike, Admiraal, Rick, Hoogerbrugge, Peter, Vormoor, Britta, Vormoor, H. Josef, Visscher, Henk, Bierings, Marc, Van Der Vlugt, Marieke, Van Tinteren, Harm, Nijstad, A. Laura, Huitema, Alwin D.R., Van Der Elst, Kim C.M., Pieters, Rob, Lindemans, Caroline A., and Nierkens, Stefan

Published
2022
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35. Functional Mechanisms and the Application of Developmental Regulators for Improving Genetic Transformation in Plants.

Author

Jiang, Yilin, Liu, Siyuan, and An, Xueli

Subjects
GENETIC transformation, REGENERATION (Botany), CROP improvement, REGULATOR genes, MERISTEMS
Abstract

Enhancing the genetic transformation efficiency of major crops remains a significant challenge, primarily due to their suboptimal regeneration efficiency. Developmental regulators, known as key regulatory genes, involved in plant meristem and somatic embryo formation, play a crucial role in improving plant meristem induction and regeneration. This review provides a detailed summary of the molecular mechanisms and regulatory networks of many developmental regulators, in the context of enhancing the genetic transformation efficiency in major crops. We also propose strategies for exploring and utilizing additional developmental regulators. Further investigation into the mechanisms of these regulators will deepen our understanding of the regenerative capacity and genetic transformation processes of plants, offering valuable support for future crop improvement efforts. The discovery of novel developmental regulators is expected to further advance crop transformation and the effective manipulation of various developmental regulators could provide a promising approach in order to enhance genetic transformation efficiency. [ABSTRACT FROM AUTHOR]

Published
2024
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36. Strong and efficient bismuth telluride-based thermoelectrics for Peltier microcoolers.

Author

Zhuang, Hua-Lu, Cai, Bowen, Pan, Yu, Su, Bin, Jiang, Yilin, Pei, Jun, Liu, Fengming, Hu, Haihua, Yu, Jincheng, Li, Jing-Wei, Wang, Zhengqin, Han, Zhanran, Li, Hezhang, Wang, Chao, and Li, Jing-Feng

Subjects
THERMOELECTRIC materials, STRENGTH of materials, BISMUTH telluride, OPTOELECTRONIC devices, POWDER metallurgy
Abstract

Thermoelectric Peltier coolers (PCs) are being increasingly used as temperature stabilizers for optoelectronic devices. Increasing integration drives PC miniaturization, requiring thermoelectric materials with good strength. We demonstrate a simultaneous gain of thermoelectric and mechanical performance in (Bi, Sb)2Te3, and successfully fabricate micro PCs (2 × 2 mm2 cross-section) that show excellent maximum cooling temperature difference of 89.3 K with a hot-side temperature of 348 K. A multi-step process involving annealing, hot-forging and composition design, is developed to modify the atomic defects and nano- and microstructures. The peak ZT is improved to ∼1.50 at 348 K, and the flexural and compressive strengths are significantly enhanced to ∼140 MPa and ∼224 MPa, respectively. These achievements hold great potential for advancing solid-state refrigeration technology in small spaces. [ABSTRACT FROM AUTHOR]

Published
2024
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37. Identifying Chinese students' perceptions of smart classrooms and their relationships with design features.

Author

Qi, Fei, Jiang, Lin, Chen, Yi, Zhu, Liwei, and Jiang, Yilin

Subjects
PSYCHOLOGY of students, CLASSROOM environment, SEMANTIC differential scale, CHINESE-speaking students, DESIGN exhibitions
Abstract

Taking classes in a smart classroom is a novel experience for most college students in China, and comprehensive research on how Chinese students perceive smart classroom environments is limited. This study explored students' perceptions of smart classroom environments in plain language through a survey involving 358 students. The semantic difference and Kansei Engineering methods were employed to investigate students' perceptions of learning and physical environments and their relationships with the design features of smart classrooms. Statistical analysis revealed six factors of subjective assessments with a total interpretation rate of 66.29% and five design features of smart classrooms with a total interpretation rate of 59.40%. No significant differences were found across all the factors based on gender, but there were significant differences in students' technology self-efficacy according to each factor of subjective evaluation and design feature. All factors of the subjective assessments and design features exhibited significant correlations. Furthermore, regression models revealed a significant relationship between affective perception and other dimensions of subjective assessments and an important connection between the active learning environment and all design features. Thus, this study provides an empirical foundation for understanding students' perceptions of smart classrooms and offers a user-based perspective for designing smart classrooms. [ABSTRACT FROM AUTHOR]

Published
2024
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43. Synergistic Combination of Sb2Si2Te6 Additives for Enhanced Average ZT and Single‐Leg Device Efficiency of Bi0.4Sb1.6Te3‐based Composites

Author

Tan, Xian Yi, primary, Dong, Jinfeng, additional, Liu, Jiawei, additional, Zhang, Danwei, additional, Solco, Samantha Faye Duran, additional, Sağlık, Kıvanç, additional, Jia, Ning, additional, You, Ivan Joel Wen Jie, additional, Chien, Sheau Wei, additional, Wang, Xizu, additional, Hu, Lei, additional, Luo, Yubo, additional, Zheng, Yun, additional, Soo, Debbie Xiang Yun, additional, Ji, Rong, additional, Goh, Ken Choon Hwa, additional, Jiang, Yilin, additional, Li, Jing‐Feng, additional, Suwardi, Ady, additional, Zhu, Qiang, additional, Xu, Jianwei, additional, and Yan, Qingyu, additional

Published
2024
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47. Relating Local Structure to Thermoelectric Properties in Pb1–xGexBi2Te4

Author

Dong, Jinfeng, Liu, Yukun, Liu, Jue, Hu, Lei, Jiang, Yilin, Tan, Xian Yi, Shi, Yuansheng, Yang, Dongwang, Saglik, Kivanc, Suwardi, Ady, Li, Qian, Li, Jing-Feng, Dravid, Vinayak P., Yan, Qingyu, and Kanatzidis, Mercouri G.

Abstract

Layered compounds have garnered widespread interest owing to their nontrivial physical properties, particularly their potential as thermoelectric materials. We systematically investigated PbBi2Te4, a compound derived from Bi2Te3and PbTe. Synchrotron X-ray diffraction and transmission electron microscopy revealed that PbBi2Te4adopts and maintains the R3̅mphase from 300 to 723 K, without any phase transition. Moreover, neutron pair distribution function analysis confirmed that the short-range local structure was consistent with the high-symmetry R3̅mstructure. PbBi2Te4exhibits a negative Seebeck coefficient, indicating electron-dominated transport. It has a low lattice thermal conductivity (ca. 0.6 Wm–1K–1) and a ZT value of 0.4 at 573 K. The effects of GeBi2Te4alloying in PbBi2Te4(Pb1–xGexBi2Te4, where xranges from 0.0 to 0.6) were also investigated. Due to alloying-induced point defect scattering and the off-centering effects of Ge2+, the room-temperature lattice thermal conductivity decreased to 0.55 Wm–1K–1when x= 0.5. Combined with a maintained weighted mobility (ca. 60 cm2V–1s–2), the room-temperature ZT increased to 0.28. This value could further increase to 0.65 with a reduction in lattice thermal conductivity to its lower-limit value. A high ZT of 1.0 is also predicted for pristine PbBi2Te4at 473 K, demonstrating its potential as a near-room-temperature thermoelectric system.

Published
2024
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48. Ultralow thermal conductivity and high ZTof Cu2Se-based thermoelectric materials mediated by TiO2−nnanoclusters

Author

Yu, Jincheng, Liu, Xiaodong, Hu, Haihua, Jiang, Yilin, Zhuang, Hua-Lu, Li, Hezhang, Su, Bin, Li, Jing-Wei, Han, Zhanran, Wang, Zhengqin, Chen, Lu, Hayashi, Kei, Miyazaki, Yuzuru, Mehdi, B. Layla, and Li, Jing-Feng

Abstract

Cu2Se is a promising p-type thermoelectric material for energy harvesting due to its intrinsically low thermal conductivity arising from the liquid-like Cu ions, leaving very limited room for regulation of phonon propagation. Herein, the thermal conductivity of superionic Cu2Se is efficiently mediated by titanium oxide nanoclusters, leading to an exceptionally high thermoelectric figure of merit (ZT) at high temperatures. By controlling the oxygen deficiency, the sophisticated TiO2−narchitectures can be constructed with optimized phase composition and electrical properties. The presence of p-n junctions helps to reduce carrier concentration without degrading mobility, and the complex heterogeneous interfaces generated by TiO2−nnanoclusters give rise to huge interfacial thermal resistance. Benefiting from the suppressed electrical transport and enhanced phonon scattering, the total thermal conductivity shows a reduction of at least 36%, contributing to a high ZTvalue of 2.8 at 973 K. This work demonstrates a paradigm of modulating thermal transport through the self-assembly design.

Published
2024
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49. Reinforcement Learning Controlled Metasurface to Generate False Target Range Profile

Author

Jiang, Yilin, Pan, Yuxuan, Yan, Chengyue, and Li, Jinxin

Abstract

This letter designs and simulates an interference metasurface capable of generating range profiles of false targets, by manipulating the electromagnetic reflection properties of the surface through control codes. Deep deterministic policy gradient algorithm is applied to generate multiple sets of control codes that result in high similarity between the range profiles produced by the metasurface and those of real targets, as measured by the Pearson product moment correlation coefficient. Furthermore, the encoded metasurface is able to maintain similarity with the range profiles of real targets even when the incident wave's azimuthal angle is altered, thus achieving dynamic interference angle manipulation.

Published
2024
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