XiaoMi-AI文件搜索系统
World File Search SystemContributed
火灾探测技术的发展
Advancements in data technology, identifiers, and microelectronics, coupled with a deeper understanding of fire physical science, have significantly contributed to significant growth in the fire identification technology over the past decade. In practice, fire identification technology encounters obstacles such as mitigating deceptive issues, increasing responsiveness through dynamic response, and enabling extremely expensive and complex structures to more easily protect the public and comply with evolving regulations. Provision of shields. The purpose of this article is to examine the fluctuations in innovative endeavours within the field of fire identification, such as advancements in sensor architectures, fire data management, and screen technology that incorporate fire recognition frameworks. Our article examines the recent developments in fire identification technology, including emerging sensor, sign, and observation technologies, also unified fire recognition frameworks. A number of the issues that exist in the contemporary fire detection systems are examined, along with the prospective avenues for this research.
采用 CMOS 技术实现的主动可调 THz 超材料阵列
Active Tunable THz Metamaterial Array Implemented in CMOS Technology Yongshan Liu 1,2,3 † , Tong Sun 1,2 † , Xiaojun Wu 4 *, Zhongyang Bai 4 , Yun Sun 1,3 , Helin Li 1,2 , Haoyi Zhang 1 , Kanglong Chen 4 , Cunjun Ruan 4 , Yuzu Sun 1,2 , Yuanqi Hu 1,2,3 , Tianxiao Nie 1,2,3 *, Lianggong Wen 1,2,3 * 1 School of Microelectronics, Beihang University, Beijing, 100191, China. 2 Beihang-Goertek Joint Microelectronics Institute, Qingdao Research Institute, Beihang University, Qingdao, 266000, China. 3 Hefei Innovation Research Institute, Beihang University, Hefei 230013, China. 4 School of Electronics and Information Engineering, Beihang University, Beijing 100191, China. † These authors contributed equally to this paper. *Correspondence: Lianggong Wen Email: wenlg@buaa.edu.cn Tianxiao Nie Email: nietianxiao@buaa.edu.cn Xiaojun Wu Email: xiaojunwu@buaa.edu.cn Abstract
脑电图特征可预测重度抑郁症的抗抑郁反应
δ 通讯地址:Amit Etkin,amitetkin@stanford.edu。贡献:WW 参与了数据的分析和解释以及手稿的起草和修改。YZ 和 JJ 参与了数据的分析和手稿的起草。MVL 和 GAF 参与了手稿的起草和修改。CER、CC、CCF、NK、CAC、RW、RT、HMT、KM、TLC、KS、MKJ 和 JMT 参与了研究的实施、数据的分析和解释以及手稿的修改。TD、PA、PJM、MMW 和 MF 参与了研究的设计和实施。DAP、MA 和 MHT 参与了研究的设计和实施以及手稿的起草和修改。AE 参与了研究的设计和实施、数据的分析和解释以及手稿的起草和修改。*博士Etkin 和 Trivedi 作为资深作者做出了同等贡献
《欧盟关键原材料法》
尽管该问题最近在国际金融机构(IFIS)的议程上占据了更为重要的地位,但重要的是要认识到,几十年前开始,人们就兴趣解决与经济中性别不平等相关的主题的兴趣。,世界银行至少从1970年代开始就开始关注发展政策对妇女的具体影响,在该机构的“使命危机”和恢复贫困的目标之后,1995年后成为一个更明显的问题(Bedford 2009)。Although the Bank considers that it has made "serious efforts and substantial progress" since the implementation of its first Gender Strategy in 2001 (World Bank 2015: 29), members of academia and civil society organizations have qualified these assessments, concluding that its approach has been partial —as it has not contributed to revising the orientation of the agency and the type of policies it promotes (Berik 2017)— and instrumental —since the value of gender平等取决于其所谓的为经济增长做出贡献的能力(Chant 2012)。
集中太阳能
该报告的早期草案是由太阳能技术顾问(STA)的Jorge Servert,JoséManuelNieto和DiegoLópez编写的。由Erik Fernstrom(世界银行)主持的专家小组对此报告进行了彻底审查,其中包括Pierre Audinet(世界银行),Luis Crespo(欧洲太阳能热电协会),CédricPhilibert(然后是国际能源机构)和Dana Younger(然后在IFC)。响应该小组的反馈,与Pablo Ralon(Irena)和Michael Taylor(Irena)合作制作了新草案。World Bank Group staff and consultants contributed in numerous ways, and included: Zuzana Dobrotková, Gabriela Elizondo Azuela, Therese Fernlund, Chris Edward Jackson, Vanessa Janik, Elisabeth Maier, Angeline Mani, Manuel Millan Sanchez, Deger Saygin, Yanqin Song, Nadia Taobane, Efstratios Tavoulareas, Dana Younger, Alexis Gazzo,Christoph Kost,Silvia Pariente-David,Jonathan Walters和Frank Wouters。
低强度脉冲超声引起的血液的影响 -
1巴黎脑研究所,ICM,Inserm U1127,CNRS UMR 7225,索邦大学,法国75013,巴黎,巴黎; maximilien.riche@aphp.fr(M.R.); lestrathais@gmail.com(T.L.); Alexandre.trotier@icm-institte.org(A.T。); leo.dupuis@cea.fr(l.d.); bertrand.mathon@aphp.fr(B.M.); benoit.delatour@icm-institte.org(b.d。)2索邦大学神经外科系,拉皮蒂–Salpê分类医院,法国75013; alexandre.carpentier@aphp.fr 3 Faculty of Medicine, Sorbonne University, RC 23, Brain Machine Interface, Aphp, La Piti ê -sorting Hospital, 75013 Paris, France 4 Advanced Surgical Research Technology Lab, Sorbonne University, 75013 Paris, France 5 Laboratory of Diseases Neurodée Paris-Saclay, CEA, CNRS, 18 route du Panorama, 92265 Fontenay-aux-Roses, France 6 Commissariat for Atomic Energy and Alternatives (CEA), Directorate of Fundamental Research (DRF), François Jacob Institute, Mircen, 18 route du Panorama, 92265 Fontenay-aux-Roses, France * Amandine.geraudie@icm-institte.org † These Authors contributed equally to this work.
构建低成本访问的无单元表达系统
为低成本访问Fernando Guzman-Chavez 1构建无细胞表达系统; Anibal Arce 2; Abhinav Adhikari 3‡; Sandra Vadhin 3‡; Jose Antonio Pedroza-Garcia 4; Chiaragandini 5; Jim W,Ajioka 6;珍妮·莫洛伊(Jenny Molloy)5; Sobeida Sanchez-Nieto 4; Jeffrey D. Varner 3; Fernan Federici 2和Jim Haseloff 1*。‡ These authors contributed equally 1 Department of Plant Sciences, University of Cambridge, CB2 3EA, Cambridge, U.K. 2 ANID – Millennium Institute for Integrative Biology (iBio), FONDAP Center for Genome Regulation, Institute for Biological and Medical Engineering, Schools of Engineering, Medicine and Biological Sciences, Pontificia Universidad Católica de Chile, Santiago 8330005,智利。3罗伯特·弗雷德里克·史密斯(Robert Frederick Smith)化学与生物分子工程学院,康奈尔大学,14853年,美国纽约州伊萨卡。4墨西哥墨西哥国家自治大学化学学院生物化学系,墨西哥市04510。
进化的 AAV 变体可实现小鼠 T 细胞的有效基因工程
通信地址:justin.eyquem@ucsf.edu 和 aravind.asokan@duke.edu。 *这些作者的贡献相同 作者贡献 JA、AA、WAN 和 JE 概念化了研究并规划和设计了实验。WAN 和 JA 执行实验、指导研究助理并领导所有实验的后勤和技术方面。JA 领导定向进化和后续数据分析。WAN 领导敲除筛选和敲入策略的设计。An.T. 和 SC 负责实验设计、体外测定数据收集和病毒生产。GR 负责实验设计和体内测定数据收集,An.TAR、JJM 和 JY.C. 负责体外测定数据收集和病毒生产。Al.T、CC 和 VA 负责体外测定数据收集。WHX 负责体外测定数据收集和数据分析。ZS 负责敲除筛选的 NGS 文库设计和测序。LPH 负责实验设计。 HP 与 SK 一起分析了全基因组筛选生成的数据,最后,WAN、JA、AA 和 JE 在 JJM 和合著者的帮助下撰写了手稿。
lgr5+肠干细胞是类带...
Affiliations: 1 Department of Medicine, Division of Digestive Diseases, Emory University 2 Graduate Program in Biochemistry, Cell and Developmental Biology, Emory University 3 Institute of Molecular and Cell Biology, Agency for Science, Technology and Research (A*STAR), Singapore 4 Department of Physiology, Yong Loo Lin School of Medicine, National University of Singapore 5 Lead contact: agracz@emory.edu * these authors contributed equally对于手稿,作者没有宣布利益冲突作者贡献:JL,AG和ADG对实验进行了想法和设计。JL,AG,FT,SW,TH和ADG进行了实验。nb设计和生成的LGR5-2A-DTR等位基因。JL,AG和ADG编写并编辑了手稿。致谢作者感谢Gracz Lab的成员对手稿的有益对话和批判性审查。这项工作由NIH R35GM142503(GRACZ)和R35GM142503-01S1(GRACZ)资助。这项工作得到了埃默里小鼠转基因和基因靶向核心(TMF)的部分支持,该核心由国家推进NIH的转化科学中心提供了额外的支持(UL1TR000454)。
WTK-LED:风工具包长期合奏数据集
如果没有DOE Wind Energy Technologies Office的支持,将不可能创建风力整合国家数据集(WIND)工具包长期集合数据集(WTK-LED)。多年来,团队特别感谢帕特里克·吉尔曼(Patrick Gilman)和布雷特·巴克(Bret Barker)的支持。Various teams and researchers across the National Renewable Energy Laboratory (NREL) contributed to the WTK-LED by either giving input in the design stage or using the data and thereby shaping the final version of the WTK-LED: Eric Lantz, Greg Brinkman, Trieu Mai, Cong Feng, Ryan King, Brandon Benton, Dmitry Duplyakin, and Zagi Zisman.,我们还感谢太平洋西北国家实验室的电网团队审查了网格整合研究的数据。我们感谢Wind Resource数据库的开发团队提供一个简单的数据查看和下载平台:Rachel Barton,Paul Edwards,Jason Ferrier,Nick Gilroy,Nick Gilroy,Amber Mohammad,Reid Olson和Paul Susmarski。