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作品数:216被引量:691H指数:11
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基于SRGAN-DAE的室内定位指纹生成
《电子测量技术》2025年第3期154-160,共7页吕博 周蓉 张甜愉 浦梦杨 
国家自然科学基金(62301220)项目资助。
基于WiFi指纹数据库的室内定位技术因其高精度和易于部署的特点而备受关注,而离线指纹数据库的质量则是决定定位精度的关键因素。针对离线指纹数据库采集成本高的问题,提出了一种基于降噪自编码器超分辨率生成对抗网络的降噪指纹数据库...
关键词:室内定位 超分辨率生成对抗网络 降噪自编码器 指纹数据库 数据增强 
基于太赫兹成像结合压缩感知与超分辨的葵花籽饱满度检测
《农业工程学报》2025年第3期263-271,共9页李斌 谢立明 黎艳兵 杨金丽 吴建 欧阳爱国 
江西省自然科学基金项目(20232BAB211023)。
太赫兹成像技术虽已被证实能够用于检测葵花籽内部品质,然而其成像速度较为缓慢,难以实现切实且迅速的检测。为了实现对葵花籽饱满度的快速检测,该研究将压缩感知与注意力增强超分辨率生成对抗网络(A-ESRGAN)模型相结合应用于太赫兹成...
关键词:葵花籽 压缩感知 A-ESRGAN-multi 饱满度 太赫兹成像 模型 
Advances in virus-host interaction research based on microfluidic platforms
《Chinese Chemical Letters》2024年第12期125-137,共13页Cheng Wang Ji Wang Dong Liu Zhi-Ling Zhang 
supported by the National Natural Science Foundation of China(Nos.22274118,22074107,and 81870359);the Natural Science Foundation of the Jiangsu Higher Education Institutions of China(No.22KJB320020);InnoHK funding(C2i)from Innovation&Technology Commission(ITC)of Hong Kong SAR Government。
Viral epidemics pose a serious threat to global public health,making it essential to explore virus-host interactions for uncovering the pathogenesis of viral diseases and developing effective antiviral strategies.Trad...
关键词:MICROFLUIDICS Virus-host interaction Cellular microchip Single-cell analysis Organ-on-a-chip Viral infectious disease 
Dynamic microphysiological system chip platform for high-throughput,customizable,and multi-dimensional drug screening被引量:2
《Bioactive Materials》2024年第9期59-73,共15页Yuxuan Zhu Deming Jiang Yong Qiu Xin Liu Yuhan Bian Shichao Tian Xiandi Wang K.Jimmy Hsia Hao Wan Liujing Zhuang Ping Wang 
funded by the National Key Research and Development Program of China(No.2021YFF1200803);National Natural Science Foundation of China(No.62120106004,61901412,62271443);and China Postdoctoral Science Foundation Funded Project(2022M712783).
Spheroids and organoids have attracted significant attention as innovative models for disease modeling and drug screening.By employing diverse types of spheroids or organoids,it is feasible to establish microphysiolog...
关键词:Microphysiological system Organ-on-a-chip Biomimetics High throughput Multidimensional drug screening 
A mechanically stable self-pumping organohydrogel dressing with aligned microchannels for accelerated diabetic wound healing
《Science China Materials》2024年第9期2995-3002,共8页Wuyi Xiao Xizi Wan Yikai Zhang Jinze Lan Lianxin Shi Shutao Wang 
supported by the National Natural Science Foundation of China(22035008,21972155,22002177,and 22205244);Youth Innovation Promotion Association,Chinese Academy of Sciences(CAS)(2022027);CAS-Croucher Funding Scheme for Joint Laboratories;China Postdoctoral Science Foundation(2022M713225)。
Self-pumping dressings(SPDs)have been developed as a new type of effective material for the drainage of excessive wound exudates based on the structure of asymmetric wettability.However,current SPDs are easy to lose t...
关键词:SPDs mechanically stable interfaces WET strategy ice-templating organohydrogel diabetic wounds 
Vascular units as advanced living materials for bottom-up engineering of perfusable 3D microvascular networks
《Bioactive Materials》2024年第8期499-511,共13页I.D.Orge H.Nogueira Pinto M.A.Silva S.J.Bidarra S.A.Ferreira I.Calejo R.Masereeuw S.M.Mihail C.C.Barrias 
developed under the scope of the EndoSWITCH project(PTDC/BTMORG/5154/2020);supported by the Portuguese Founda-tion for Science and Technology(FCT).The authors thanks FCT for Iasmim Orge’s PhD scholarship SFRH/BD/2020.07458;Sílvia Bidarra’s research contract DL 57/2016/CP1360/CT0006 and Silvia Ferreira’s research contract CEECINST/00132/2021/CP1774/CT0001;Iasmim Orge thanks the training provided under the scope of the REMODEL project(European Union’s Horizon 2020 research and innovation pro-gramme,grant agreement 7857491);The authors also acknowledge the support of i3S Scientific Platforms:“Bioimaging”member of the PPBI(Grant No:PPBI-POCI-01-0145-FEDER-022122);“Biointerfaces and Nanotechnology”(Grant No:UID/BIM/04293/2019);“BioSciences Screening”(member of the PT-OPENSCREEN(NORTE-01-0145-FEDER-085468);PPBI(PPBI-POCI-01-0145-FEDER-022122)).
The timely establishment of functional neo-vasculature is pivotal for successful tissue development and regen-eration,remaining a central challenge in tissue engineering.In this study,we present a novel(micro)vascular...
关键词:Engineered tissue Organ-on-chip Microtissue SPHEROID endothelial colony-forming cells 
Advancements in life-on-a-chip: The impact of “Beyond Limits Manufacturing” technology
《Chinese Chemical Letters》2024年第5期13-16,共4页Weiwei He Hongbo Zhang Xudong Lin Lili Zhu Tingting Zheng Hao Pei Yang Tian Min Zhang Guoyue Shi Lei Wu Jianlong Zhao Gulinuer Wumaier Shengqing Li Yufang Xu Honglin Li Xuhong Qian 
the “Shanghai Beyond Limits Manufacturing Project” for supporting the realization of the BLM concept for microchip products.
This review explores the concept of life-on-a-chip,which involves the creation of miniaturized biological systems,such as organs,tissues,and model organisms,on microscale platforms called microfluidic chips.These chip...
关键词:Beyond Limit Manufacturing Model-organism-on-a-chip Organ-on-a-chip 
Hydrophobic surface induced pro-metastatic cancer cells for in vitro extravasation models
《Bioactive Materials》2024年第4期401-413,共13页Minseok Lee Seunggyu Kim Sun Young Lee Jin Gyeong Son Joonha Park Seonghyeon Park Jemin Yeun Tae Geol Lee Sung Gap Im Jessie S.Jeon 
supported by the National Research Foundation of Korea(NRF)grant funded by the Ministry of Science and ICT(MSIT)of Korea(No.2021R1A2B5B03001416,No.2020R1A2C1100471,No.2020R1A5A8018367);the BK21 FOUR Program of the NRF grant funded by the Ministry of Education(MOE)of Korea.
In vitro vascularized cancer models utilizing microfluidics have emerged as a promising tool for mechanism study and drug screening.However,the lack of consideration and preparation methods for cancer cellular sources...
关键词:Initiated chemical vapor deposition Cancer spheroid Cancer extravasation Organ-on-a-chip In vitro disease model 
Harnessing mesenchymal aggregation for engineered organ-level regeneration:Recent progress and perspective被引量:1
《Aggregate》2024年第2期166-187,共22页Chen-Xi Zheng Bing-Dong Sui Yan Jin 
National Key Research and Development Program of China,Grant/Award Number:2022YFA1104400;National Natural Science Foundation of China,Grant/Award Numbers:81930025,82301028,82371020;China Postdoctoral Science Foundation,Grant/Award Number:BX20230485;Shaanxi Youth Science and Technology Rising Star Program,Grant/Award Number:2023KJXX-027。
Stem cells,especially mesenchymal progenitors or mesenchymal stem cells(MSCs),possess an intrinsic property to form compact spheroid-like assemblies,a phenomenon known as cell aggregation.In recent years,a growing bod...
关键词:mesenchymal aggregation organ regeneration ORGANOGENESIS 
An osteosarcoma-on-a-chip model for studying osteosarcoma matrix-cell interactions and drug responses
《Bioactive Materials》2024年第4期1-16,共16页Zuyan Lu XiangWan Miao Chenyu Zhang Binbin Sun Aleksander Skardal Anthony Atala Songtao Ai JiaNing Gong Yongqiang Hao Jie Zhao Kerong Dai 
the Shanghai Pujiang Program(21PJ1409200);the China Postdoctoral Science Foundation(2022M722122);Three-year Action Plan of Shenkang Development Center(SHDC2020CR2019B);Biomaterials and Regenerative Medicine Institute Cooperative Research Project,Shanghai Jiao Tong University School of Medicine(2022LHB07,2022LHA01);Shanghai Frontiers Science Center of Degeneration and Regeneration in Skeletal System;the Fundamental Research Funds for the Central Universities(YG2023LC07);Clinical Research Program of Shanghai Ninth People’s Hospital,Shanghai Jiao Tong University School of Medicine(JYLJ202122);the Project of Biobank from Shanghai Ninth People’s Hospital,Shanghai Jiao Tong University School of Medicine(YBKB202116);the National Scientific Foundation of China(82171993,81972058,82130073).
Marrow niches in osteosarcoma(OS)are a specialized microenvironment that is essential for the maintenance and regulation of OS cells.However,existing animal xenograft models are plagued by variability,complexity,and h...
关键词:3D printing Osteosarcoma-on-a-chip Organ-on-a-chip Bone marrow niches 
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