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国家行动计划的气候变化 -
• Geography (Plain/ Mountain/ Desert/ Coastal), identify worst affected areas (districts) • Risk mapping with extreme events (heat/ cold/ drought/ flood/ cyclone/other), • Affected Population (Total, density, Vulnerable, Occupation) • Contributing/ exaggerating factors for these Climate sensitive illnesses • Healthcare Infrastructure/ facilities like PHC, CHC, District hospital, Tertiary care hospitals- Government as well作为私人。•确定能力建设的领域 - 人类资源,技术和医疗保健服务交付。5。国家健康适应计划必须在至少有关热有关疾病和空气污染与健康问题的至少章节中制定。国家卫生部门应确定并加强当地组织以支持与气候相关的健康问题7。与卓越中心协调特定主题的健康适应计划。8。气候变化和健康计划
本杰明·斯托勒
human path prediction experiments with realistic perception, contributing a novel error correction module • Leveraged Unity for scene recreation and deep generative modeling for multi-modal, variational predictions TrajAir Aug 2021 – May 2022 • Researched machine learning methods for predicting aircraft trajectories in non-towered airspaces • Utilized clustering and vector field methods to capture movement patterns and infer pilot intent University of密歇根州EFES实验室|密歇根州安阿伯,2019年9月 - 2020年5月•设计和构建了一个系统,可以通过使用符号执行来查找应用程序中的持续记忆错误•在Oracle的NVM直接框架上进行LED调查和实验,发现和报告23个新错误专业经验stack AV |宾夕法尼亚州匹兹堡,2024年3月 - 2024年8月研究软件工程师实习生
parbhani-convention_2024_brochure.pdf
印度农业工程师学会(ISAE)成立于1960年,目的是通过将该国的农业工程师聚集在一个充满活力的平台上,以加强该职业。该协会在农业部门与工业之间建立良好的联系中发挥了至关重要的作用,并促进了其成员在专业活动中的更广泛参与,以促进农业生产和生产后领域。Agricultural Engineers have been immensely contributing in the eld of farm mechanization and automation, irrigation and drainage, soil and water conservation, watershed management, ood and water control systems, command area development, post-harvest engineering and technology, agro-food processing and value addition, managing agricultural structures, environmental control, greenhouse technology, cold storage, renewable energy and in other domains directly associated to agriculture和农民的福利。在农业工程领域中添加了无人机,机器人,人工智能,物联网和区块链等新时代技术,以解决未来农业的问题。,未来的农业是工程农业。
利用人工智能开发癌症综合医疗系统
利用人工智能的综合癌症医疗系统的开发1.研究对象:研究对象为2011年5月13日至2029年12月31日期间在我院接受癌症治疗或手术的患者的生物样本(例如从病变部位采集的基因组信息)。 The research title is: "Development of artificial intelligence to accelerate new drug discovery" (Principal Investigator: Natsume Yayoi, National Institute of Biomedical Innovation), the research title is: "Understanding the pathology of malignant tumors through genomic and epigenomic analysis" (Principal Investigator: Kosaka Shinji, Division of Cellular Informatics, National Cancer Center Research Institute), the research title is: "Research aimed at identifying genetic factors contributing to personalized prevention of cancer in the AYA (Adolescence and Young Adult) generation" (Principal Investigator: Kawano Takashi, Division of Genome Biology, National Cancer Center Research Institute), the research title is: "Research aimed at identifying genetic factors contributing to personalized prevention of lung cancer" (Principal Investigator: Kawano Takashi, Division of Genome Biology, National Cancer Center Research Institute), the research title is: "Research aimed at identifying genetic factors contributing to personalized prevention of breast cancer, ovarian cancer, and uterine cancer" (Principal Investigator: Kawano Takashi, Division of Genome Biology, National Cancer Center Research Institute), the research title is: "Elucidation of immune response network mechanisms in hosts and tumors based on genome analysis" (Principal Investigator: Shiraishi Shinji, Division of Genome Biology, National Cancer Center Research Institute)研究课题:“利用国家大数据和人工智能(AI)构建外科医生最佳配置模拟平台”(首席研究员:冈山大学医学、牙科和药学研究院消化器外科、肿瘤控制科学系、病理控制科学系藤原俊义) 研究课题:“乳腺肿瘤的临床病理特征、诊断以及治疗的有效性和安全性的研究”(首席研究员:国立癌症中心医院乳腺外科的周藤昭彦) 研究课题:“用于药物发现研究的患者标本移植模型的构建研究”(首席研究员:国立癌症中心研究所分子药理学系滨田哲信) 将使用上述研究中获得的样本和随附的医疗信息。 此外,在“基于基因组分析阐明肺癌发生发展的分子机制”的研究项目(首席研究员:国立癌症中心研究所基因组生物学部门河野隆)和“旨在确定青少年和青年一代癌症治疗目标的体细胞基因组分析研究”(首席研究员:国立癌症中心研究所基因组生物学部门河野隆)的研究项目中,也将使用全面同意制度实施前获得的现有患者样本。在这种情况下,该研究将在无需征得同意的情况下,根据涉及人类受试者的医学和科学研究伦理指南,经国家癌症中心研究伦理委员会批准后使用。另一方面,未经同意,基因组和表观基因组信息在任何情况下都不会被注册在数据库中或公开。 本研究项目获得的样本和信息将用于以下项目:“加速新药发现的人工智能开发”(首席研究员:国家生物医学创新研究所夏目弥生)(2019-108)和“图像诊断支持AI的持续开发和性能评估的基础环境构建的多中心合作观察研究”(首席研究员:中央医院放射科渡边雄一)(2023-229)。关于2019-108、2023-229所获取的样本及信息用于未来研究的可能性,若将从研究对象处获取的样本及信息用于在取得研究对象等的同意时未确定的未来研究,则需在获得伦理审查委员会的批准及研究机构负责人的许可后进行。
青年购买,医学博士
ADMINISTRATIVE APPOINTMENTS • Contributing Editor, Journal of the American Academy of Child and Adolescent Psychiatry Editorial Board, (2023-2025) • Early Career Psychiatrist (ECP) Member, California Academy of Child and Adolescent Psychiatry Executive Committee (CALACAP), (2023- present) • National Trainee member, American Academy of Child & Adolescent Psychiatry (AACAP)-Adolescent Psychiatry Committee, (2019-2023) • Child Psychiatry Fellow Representative, University of California Davis Behavioral Health Pharmacist Services Expansion Work Group, (2022-2023) • Fellow-In-Training member of Executive Committee, Central California Regional Organization of Child & Adolescent Psychiatry, (2022-2023) • Early Psychosis Work Group Co-Chair, American Academy of Child & Adolescent Psychiatry (AACAP), (2021- present) • Executive Director, Sojourner Health Clinic (University of Missouri-Kansas City medical student-run free health clinic), (2014-2016) • Clinic Manager, Sojourner Health Clinic (University of Missouri-Kansas City medical student-run free health clinic), (2013-2014) • Clinic Public Relations Officer, Sojourner Health Clinic (University of Missouri-Kansas City medical student-run free health clinic), (2012-2013)
2021年2月的得克萨斯电网停电的时间表和事件
Jay Zarnikau, Research Fellow, Department of Economics COMMITTEE MEMBERS Contributing Authors Ning Lin, Chief Economist, Bureau of Economic Geology Additional Members Erhan Kutanoglu, Associate Professor, Operations Research and Industrial Engineering, Department of Mechanical Engineering Benjamin Leibowicz, Assistant Professor, Operations Research and Industrial Engineering, Department of Mechanical Engineering Dev Niyogi, Professor, Department of Geological科学; LBJ公共事务学院教授,民用,建筑和环境工程系教授;能源研究所Surya Santoso主任,电气和计算机工程系教授David Spence,法学院贝克·鲍斯(Baker Botts)法学主席; Professor, Department of Business, Government, and Society Stathis Tompaidis, Professor, Department of Information, Risk and Operations Management, and by courtesy, Department of Finance Hao Zhu, Assistant Professor, Department of Electrical and Computer Engineering OTHER CONTRIBUTORS Erik Funkhouser, Director for Research Coordination and Partnerships, Energy Institute Brent Austgen, Graduate Research Assistant, Operations Research and Industrial Engineering Program, Department of Mechanical Engineering
2024年12月3日,星期二,国际酒店
10.30-11.00 Roland Ludwig: Enzymes contributing to sustainable food production, University of Natural Resources and Life Sciences, Austria 11.00-11.20 Andreja Leboš Pavunc: Use of by-products in the production of new generation encapsulated probiotics, University of Zagreb Faculty of Food Technology and Biotechnology, Croatia 11.20-11.35 Marko Vinceković:动物亚基的双歧杆菌的封装。乳酸化属于复合生物聚合物微粒,萨格勒布大学农业学院,克罗地亚11.35-11.50NaiaraFernández:微取代的工具,是一种增强禁欲酸作为食物防腐剂的性能的工具弗罗茨瓦夫环境与生命科学大学食品化学与生物催化系的商业重要风味和香料化合物的合成,波兰12.05-12.20菲利帕·伯鲁(Filipa Burul)吸引橄榄冠层挥发性化合物,亚得利亚作物研究所和喀斯特开垦,克罗地亚12.20-12.40AntonelaNinčevićGrassino:超声预处理和真空培训的超声浆后南瓜浆的营养特征
体育锻炼对神经系统的影响 作者:PETRONELA PARASCHIV “Gheorghe Asachi” 雅西理工大学,体育与运动科学系
THE INFLUENCES OF PHYSICAL EXERCISES ON THE NERVOUS SYSTEM BY PETRONELA PARASCHIV “Gheorghe Asachi” Technical University of Iaşi, Department for Teacher Training - Physical Education Sport Department Received: November 19, 2024 Accepted for publication: December 12, 2024 Abstract. Exercise is fundamental to a healthy life, positively influencing not only the body but also the mind. In addition to the obvious benefits for physical health, sporting activities have a significant impact on the brain, contributing to the development and maintenance of neuronal functions. The relationship between physical exercise and the nervous system is bidirectional: on the one hand, movement stimulates neurogenesis and brain plasticity, and on the other hand, neural adaptations optimize physical performance. In an increasingly sedentary world, knowledge of these benefits is becoming essential to prevent both physical and mental health problems. Keywords: engineering, students, neuronal system, health. 1. Introduction Physical exercises are fundamental to a healthy life, positively influencing not only the body but also the mind. Beyond the obvious benefits to Corresponding author; e-mail : petronela.paraschiv@academic.tuiasi.ro © 2024 Petronela Paraschiv This is an open access article licensed under the Creative Commons Attribution-NonCommercial- NoDerivatives 4.0 International License (CC BY-NC-ND 4.0).
科学统一2024
该报告是由世界气象组织(WMO)在联合国秘书长的指导下汇编的,以汇集了主要全球关键合作伙伴组织与气候科学相关的最新更新。与2024年联合国未来的峰会保持一致,该报告提供了气候科学状态以及最新天气,气候,水以及相关的环境和社会科学的最新信息。Contributing partners include: WMO, Met Office UK, the Official Children and Youth Constituency of the United Nations Framework Convention on Climate Change (YOUNGO), WMO Global Atmosphere Watch (GAW), WMO World Weather Research Programme (WWRP), World Climate Research Programme (WCRP), Global Carbon Project (GCP), United Nations Environment Programme (UNEP), European Centre for Medium-Range Weather Forecasts (ECMWF),联合国外在航天事务办公室(UNOOSA),欧洲的气象卫星剥削组织(EUMETSAT),国际电信联盟(ITU),联合国战斗荒漠化公约(UNCCD),国际科学委员会(ISC),联合国国际科学委员会(ISC),灾害风险减少的办公室(UNDRR),国际红十字会和红色十字架和红色CreSencecies corececies of Red Cross and Redcececiessies futruecorce and Ifcers and Redceciessecies ifc。
使用协方差神经网络解释的大脑年龄预测
在计算神经科学中,人们对开发机器学习算法的兴趣越来越高,这些算法利用脑成像数据来为个体提供“脑时代”的估计。重要的是,由于不良健康状况,大脑年龄和年龄年龄之间的不一致可以捕获加速老化,因此可以反映出增加对神经系统疾病或认知障碍的脆弱性。然而,由于大多数现有的脑年龄预测算法缺乏透明度和方法上的理由,因此阻碍了大脑年龄对临床决策支持的广泛采用。在本文中,我们利用协方差神经网络(VNN)提出了使用皮质厚度特征为脑年龄预测的解释驱动和解剖学上的解释框架。Specifically, our brain age prediction framework extends beyond the coarse metric of brain age gap in Alzheimer's disease (AD) and we make two important observations: (i) VNNs can assign anatomical interpretability to elevated brain age gap in AD by identifying contributing brain regions, (ii) the interpretability offered by VNNs is contingent on their ability to exploit specific eigenvectors of the anatomical协方差矩阵。在一起,这些观察结果促进了对脑时代预测任务的可解释和解剖学上的观点。