XiaoMi-AI文件搜索系统
World File Search Systemderive
利用趋同进化获得泛癌症顺铂反应基因表达特征
CisSig 评分 IC50(连续)简单线性回归全部相关系数 0.51 CisSig 评分 IC50(连续)简单线性回归五分位数相关系数 0.74 所有基因表达 IC50(连续)弹性网线性回归全部相关系数 0.63 所有基因表达 IC50(连续)弹性网线性回归五分位数相关系数 0.79 所有基因表达 IC50(连续)L1 线性回归全部相关系数 0.63 所有基因表达 IC50(连续)L1 线性回归五分位数相关系数 0.79 所有基因表达 IC50(连续)L2 线性回归全部相关系数 0.63 所有基因表达 IC50(连续)L2 线性回归五分位数相关系数0.81 所有基因表达 IC50(二元)简单逻辑回归所有 AUC 0.79 所有基因表达 IC50(二元)简单逻辑回归五分位数 AUC 0.90 所有基因表达 IC50(二元)弹性网络逻辑回归所有 AUC 0.82 所有基因表达 IC50(二元)弹性网络逻辑回归五分位数 AUC 0.94 所有基因表达 IC50(二元)L1 逻辑回归所有 AUC 0.82 所有基因表达 IC50(二元)L1 逻辑回归五分位数 AUC 0.94 所有基因表达 IC50(二元)L2 逻辑回归所有 AUC 0.81 所有基因表达 IC50(二元)L2 逻辑回归五分位数 AUC 0.95 所有基因表达 IC50(二元)SVM(线性核)所有 AUC 0.82 所有基因表达 IC50(二元) SVM(线性核)五分位数 AUC 0.93 所有基因表达 IC50(二元)SVM(多项式核)所有 AUC 0.78 所有基因表达 IC50(二元)SVM(多项式核)五分位数 AUC 0.94 所有基因表达 IC50(二元)随机森林所有 AUC 0.81 所有基因表达 IC50(二元)随机森林五分位数 AUC 0.91
利用水能Nexus通过供水和废水领域的需求侧管理来获得电网的利益
主要是供应方发电资源,以响应负载波动,可变能量生成和网格不可稳定性(Alizadeh,Parsa Moghaddam,Amjady,Siano,Siano和Sheikh-el- Eslami,2016年; Jordehi,2019; Jordehi,2019; Kondziella&Bruckella&Bruckella&Bruckella&Bruckella&Bruckella&Bruckella&Bruckella&Bruckella&Bruckella&Bruckella&Bruckselnernerne。需求方的能源管理策略,使载荷的灵活性成为一种重要的干预措施,以应对维持网格可靠性的一些新出现的挑战,而没有具有成本效益的大型大型电池(Brouwer,van den Brok,Zappa,Zappa,Turkenburg,Turkenburg和Faaij,&Faaij,&Faaij,&Faaij,2016; Denholm&Mai&Mai&Mai&Mai,2019)。随着风能和太阳能等可变能源的产生,也需要更灵活的资源,包括需求侧资源来备份间歇性发电机,并帮助管理中午的过度发生问题,这可能是由于在网格的燃料混合物中,可变能量的高渗透率引起的(Denholm&Handholm&Handholm&Mai,2011; Denholm&Mai&Mai&Mai&Mai&Mai,2011年)。较大的水部门负载柔韧性潜力得到了较大的水存储能力(可以用作潜在的能量存储),高电能需求,可观的现场能源生产以及控制系统和数字化的进步。水系统需要能量才能为最终用途的行业提供饮用水供应(Carlson&Walburger,2007; Epri,2013; Molinos-Senante&Sala-Garrido,2017; Plappally&Lienhard V,2012; Sanders&Webber&Webber&Weakel&Weakel&Wakeel,2012; wakeel,chen,hayat,als&ahmad,&ahmad&ahmad&ahmade。大量能量也用于将废水处理为可接受的标准,以释放回环境或重用(图1)。高能源成本是水公用事业在日常运营中包括能源管理策略的主要动机。通常,能源成本是水部门的第二高运营成本,仅次于人工成本(Copeland&Carter,2017年)。总共,美国消耗的年度电力中超过3%发生在水部门(Sanders&Webber,2012年);然而,由于人口增长,替代供水源的利用率增加(通常是能量密集型)以及更严格的水质调查(Cutter,Cutter,Haley,Williams,&Woo,2014; Epri,2013; Porte等,Porte等,2020)。此外,由于水的消耗行为,供水系统中的高峰用电能通常与许多电网(通常在早晨和晚上)的高峰用电量使用,夏季的峰值较高(Adamowski,2008; Deoreo et al。,2011; House,2006; House et al。 Adamowski,2015年)。本文审查了水部门的需求侧管理机会,特别是当它们与需求响应有关(即,在高批发市场价格高批发市场价格或网络可靠性问题损害网格问题时,暂时修改电力消耗的模式和幅度以减少电力使用的活动[FERC,2018])。首先,介绍了不同的DR类型和程序的概述,以及对其他补充需求端管理机会的简要说明。最后,几个障碍接下来,对水和废水领域的最新研究工作以及DR应用进行了审查,然后讨论了需求侧的管理资源,包括能源效率,能源生产和储存机会,这些资源是补充DR的。
postgresql / postgis到ROS2桥的空间数据< / div>
• Architecture allow easy extension to additional (non-standard) messages • Publish messages that contain all rows at once: • Derive from StampedTopicParser • E.g., PointCloud2 • Publish message row-by-row: • Derive from SingleElementParser • E.g., PointStamped , Pose
引用本文:Naz I、Merarchi M、Ramchandani S、Khan MR、Malik MN、Sarwar S 等。丹参酮抗癌作用概述,衍生
丹参酮是一种中药草药化合物,从丹参根中提取。该化合物家族,包括丹参酮 IIA 和丹参酮 I,已显示出作为抗癌分子的显著潜力,尤其是针对乳腺癌、宫颈癌、结直肠癌、胃癌、肺癌和前列腺癌细胞系,以及白血病、黑色素瘤和肝细胞癌等。最近的数据表明,丹参酮可以调节多种分子通路,如 PI3K/Akt、MAPK 和 JAK/STAT3,并发挥其对不同恶性肿瘤的药理作用。此外,临床前和临床数据,以及丹参酮的安全性,鼓励进一步将这些化合物应用于癌症治疗。在这篇评论文章中,记录了丹参酮对不同癌症的影响、其药理学开发中的挑战以及利用其临床潜力的机会。
有关Tiktok的信息操纵及其与...
1 “Operations in the information environment” is the term currently used by the U.S. government (Congressional Research Service, 2024) to refer to “the aggregate of social, cultural, linguistic, psychological, technical, and physical factors that affect how humans and automated systems derive meaning from, act upon, and are impacted by information, including the individuals, organizations, and systems that collect, process, disseminate, or use information.”
Aotearoa新西兰Aotearoa的蓝色经济原则
By committing to and implementing the blue economy principles: • decision makers will help to leave marine environments in a better condition than they found them and support all New Zealanders to enjoy and derive diverse values from marine environments today and in the future • businesses will develop sustainable strategies for medium and long-term success • people's relationships and connections to the moana will be informed by Te Ao Māori and Te Tiriti o Waitangi opportunities.
可持续食品包装
图1:包装材料要求。.............................................................................. 9 Figure 2: PHAs Structure (Gomes Gradíssimo et al., 2020) .................................................... 12 Figure 3: PHBV structure (Boufarguine et al., 2013) .............................................................. 14 Figure 4:PLA structure (Boufarguine et al., 2013) .................................................................. 15 Figure 5:PBAT structure (Nobrega et al., 2012) ...................................................................... 19 Figure 6:Physical modification through blending will be used in our current project............. 23 Figure 7:Polymer blending ....................................................................................................... 24 Figure 8:Thermo Fisher Process 11 Extruder........................................................................... 25 Figure 9:Injection moulding ..................................................................................................... 25 Figure 10:conveyor belt section.41 Figure 24:TGA weight results 50%:50% blends ...................................................................... 41 Figure 25:TGA Derive weight, neat materials......................................................................... 42 Figure 26:TGA Derive weight 75%:25% blends..................................................................... 42............................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................... ..................................................................................................................................................................................................................................................................................................................................................................................................................................... 75%的结晶度:25%混合物................................................................................................................................. ............................................................................... 34 Figure 17: Enthalpy cure for 75%:25% blends .................................................................................................................................................. 34 Figure 18: Enthalpy curve for 50%:50% blends ...................................................................... 34 Figure 19:FTIR neat materials ................................................................................................. 37 Figure 20:FTIR results, PHBV & PLA blends ........................................................................ 37 Figure 21:FTIR results, PHBV & PBAT blends ...................................................................... 38 Figure 22:TGA weight results, neat materials ......................................................................... 41 Figure 23: TGA weight results 75%:25% blends .
得出一个出发点,用于评估具有体外方法的可穿戴设备成分的皮肤敏化风险
可穿戴设备长时间与皮肤接触。因此,应评估设备成分的皮肤敏化潜力,并应得出一个出发点(POD)以进行适当的风险评估。没有历史的体内数据,必须使用新的方法方法(NAM)得出POD。To accomplish this, regression models trained on LLNA data that use data inputs from OECD-validated in vitro tests were used to derive a predicted EC3 value, the LLNA value used to classify skin sensitization potency, for three adhesive monomers (Isobornyl acrylate (IBOA), N, N- Dimethylacrylamide (NNDMA), and Acryl oylmorpholine (ACMO)和一个染料(溶剂橙60(SO60))这些化学物质可以用作可穿戴设备的成分,并且与引起过敏性接触性皮炎(ACD)有关。使用动力学DPRA和角质素™数据,使用回归模型获得的POD为180、215、1535和8325μg/cm 2
Recaap ISC年度报告2024
Recaap ISC仍致力于满足运输社区不断发展的需求。To ensure that the shipping industry keeps abreast of the latest piracy and ARAS situation in Asia and to encourage the timely reporting of incidents to the nearest Coastal State, the Centre has implemented several initiatives including an enhanced Mobile Application (“ReCAAP”) to facilitate the ease of incident reporting and information sharing, an Interactive Dashboard - ReCAAP Data Visualisation Map and Panel (Re-VAMP) for the industry to derive insights regarding the亚洲关注领域的Aras情况。此外,Recaap ISC还在船长和机组人员的指南和联系方式上制作了海报,以允许直接报告并确保正确的事件报告渠道。还有有关采取预防措施的区域指南2,以及有关亚洲水域渔船识别的最新指南,以促进船员确定出现在规范上的船只,以提高警惕并帮助执行机构进行调查。
认知科学
Cognitive science is the study of the human mind and brain, focusing on how the mind represents and manipulates knowledge and how mental representations and processes are realized in the brain. Conceiving of the mind as an abstract computing device instantiated in the brain, cognitive scientists endeavor to understand the mental computations underlying cognitive functioning and how these computations are implemented by neural tissue. Cognitive science has emerged at the interface of several disciplines. Central among these are cognitive psychology, linguistics, and portions of computer science and artificial intelligence; other important components derive from work in the neurosciences, philosophy, and anthropology. This diverse ancestry has brought into cognitive science several different perspectives and methodologies. Cognitive scientists endeavor to unite such varieties of perspectives around the central goal of characterizing the structure of human intellectual functioning. It is this common object of inquiry that integrates traditionally separate disciplines into the unified field of cognitive science.