XiaoMi-AI文件搜索系统
World File Search SystemAchievable
四倍体马铃薯中可以实现主要编辑,但需要改进
Anzalone AV、Randolph PB、Davis JR、Sousa AA、Koblan LW、Levy JM、Chen PJ、Wilson C、Newby GA、Raguram A 等人 (2019) 无需双链断裂或供体 DNA 的搜索和替换基因组编辑。Nature 576:149–157 Bastet A、Zafirov D、Giovinazzo N、Guyon-Debast A、Nogué F、Robaglia C、Gallois JL (2019) 通过 CRISPR-Cas9 碱基编辑模拟 eIF4E 中的天然多态性与对马铃薯病毒的抗性有关。Plant Biotechnol J 17:1736–1750 Butt H、Rao GS、Sedeek K、Aman R、Kamel R、Mahfouz M 通过水稻中的 prime 编辑实现除草剂抗性工程化。Plant Biotechnology Journal。 doi: 10.1111/pbi.13399 Fauser F, Schiml S, Puchta H (2014) 基于 CRISPR/Cas 的核酸酶和切口酶均可有效用于拟南芥的基因组工程。Plant J 79 : 348–359 Henikoff S, Comai L (2003) 植物功能基因组学的单核苷酸突变。Annual Review of Plant Biology 54 : 375–401 Hua K, Jiang Y, Tao X, Zhu JK 利用 prime editing 系统对水稻进行精准基因组工程。Plant Biotechnology Journal。doi: 10.1111/pbi.13395 Huang TK, Puchta H (2019) CRISPR/Cas 介导的植物基因打靶:同源重组终于迎来转机。 Plant Cell Rep 38 : 443–453 Li H, Li J, Chen J, Yan L, Xia L (2020) 通过 Prime Editing 对水稻外源和内源基因的精确修改。Molecular Plant 13 : 671–674 Lin Q, Zong Y, Xue C, Wang S, Jin S, Zhu Z, Wang Y, Anzalone AV, Raguram A, Doman JL 等人 (2020) 水稻和小麦的 Prime 基因组编辑。Nat Biotechnol 38 : 582–585 Mishra R, Joshi RK, Zhao K (2020) 作物中的碱基编辑:当前进展、局限性和未来影响。 Plant Biotechnol J 18 : 20–31 Sevestre F, Facon M, Wattebled F, Szydlowski N (2020) 促进马铃薯基因编辑:Solanum tuberosum L. cv. Desiree 基因组的单核苷酸多态性 (SNP) 图谱。Sci Rep 10 : 2045
人工意识可以实现吗?人类大脑的经验教训
我们在此从进化的角度分析开发人工意识的问题,以人类大脑的进化及其与意识的关系作为参考模型或基准。这种分析揭示了人类大脑的几个结构和功能特征,这些特征似乎是实现类似人类的复杂意识体验的关键,当前的人工智能 (AI) 研究在尝试开发能够进行类似人类意识处理的系统时应该考虑到这些特征。我们认为,即使人工智能由于内在(即结构和架构)和外在(即与当前科学和技术知识阶段有关)原因而无法模拟人类意识,从大脑的那些使类似人类的意识处理成为可能和/或对其进行调节的特征中汲取灵感,也是开发有意识的人工智能的一种有前途的策略。
25 IAM 7:辐射安全计划
A.As Low As Reasonably Achievable (ALARA) is the means to make every reasonable effort to maintain exposures to ionizing radiation (IR) as far below the dose limits as practical, consistent with the purpose for which the licensed activity is undertaken, taking into account the state of technology, the economics of improvements in relation to state of technology, the economics of improvements in relation to benefits to the public health and safety, and other societal and socioeconomic考虑因素,以及核能的利用和
建议的许可证可以安装EES可乐电池的条件...
COMMON ACRONYMS AQD Air Quality Division BACT Best Available Control Technology CAA Clean Air Act CAM Compliance Assurance Monitoring CEMS Continuous Emission Monitoring System CFR Code of Federal Regulations COMS Continuous Opacity Monitoring System Department/department/EGLE Michigan Department of Environment, Great Lakes, and Energy EU Emission Unit FG Flexible Group GACS Gallons of Applied Coating Solids GC General Condition GHGs Greenhouse Gases HVLP High Volume Low Pressure* ID Identification IRSL Initial Risk Screening Level ITSL Initial Threshold Screening Level LAER Lowest Achievable Emission Rate MACT Maximum Achievable Control Technology MAERS Michigan Air Emissions Reporting System MAP Malfunction Abatement Plan MSDS Material Safety Data Sheet NA Not Applicable NAAQS National Ambient Air Quality Standards NESHAP National Emission Standard for Hazardous Air Pollutants NSPS New Source Performance Standards NSR New Source Review PS Performance Specification PSD预防明显的恶化PTE永久总外壳PTI许可证可以安装RACT合理可用的可用控制技术ROP ROP可再生操作许可证SC特殊条件SCR选择性催化减少SNCR选择性非催化减少SRN状态注册号TBD,以确定TEQ毒性毒性等于
参议院的战略计划,2021-2026
ACCRONYMS AND ABBREVIATIONS ACP : African, Caribbean and Pacific Group of States AU : African Union COVID : Coronavirus Disease CPA : Commonwealth Parliamentarian Assembly EAC : East African Community EALA : East African Legislative Assembly EU : European Union FP : Forum of Parliaments H.E : His Excellency ICGLR : International Conference on the Great Lakes Region ICT : Information, Communication and Technology IPU : I nter-Parliamentary Union M&E : Monitoring and Evaluation MINECOFIN : Ministry of Economic Planning and Finance MININFRA : Ministry of Infrastructure NST : National Strategy for Transformation OL : Organic Law PAP : Pan-African Parliament RDB : Rwanda Development Board RMI : Rwanda Management Institute SDGs : Sustainable Development Goals SMART : Specific, Measurable, Achievable, Realistic and及时
设置启动:可持续蓝色经济的目标设置
ASC Aquaculture Stewardship Council ESG Environmental, Social and Governance ESRM Environmental and Social Risk Management FfB Finance for Biodiversity KPI Key Performance Indicator KYC Know Your Customer LEAP Locate, Evaluate, Assess, Prepare MSC Marine Stewardship Council NBSAP National Biodiversity Strategies and Action Plans NDC Nationally Determined Contribution NGO Non-Governmental Organisation PRB Principles for Responsible Banking PRI Principles for Responsible Investment PSI Principles for Sustainable Insurance SBE Sustainable Blue Economy SBEFI Sustainable Blue Economy Finance Initiative SBTI Science-based Targets Initiative SBTN Science-based Targets Network SDG Sustainable Development Goal SMART Specific, Measurable, Achievable, Relevant, Time-bound TNFD Taskforce on Nature-related Financial Disclosures UNEP FI United Nations Environment Programme Finance Initiative
电池业务案例
• Summary of key findings • Scope of this study – Analysis of battery economics for different customer types, locations, rooftop solar capacities, and battery sizes – Overview of the methodology for evaluating the investment case • The mechanisms by which batteries create value – Savings on electricity bills: Energy, Demand, and Capacity charges • Modelling optimal battery operation – Simulating achievable reductions in grid-purchased power • Quantifying the value that batteries can create – Charge reduction analysis for example customer profiles – Effects of Eskom tariff restructuring on potential savings • Comparing battery costs to the value created – Current battery costs – Financial modelling: quantifying the investment case through combined cost and savings analysis – Results: Evaluating battery investments by size, customer type, supply tariff, and rooftop solar size – Tariff restructuring implications on investment feasibility • Other considerations – Timing of investment: falling battery costs vs rising电价 - 融资和资助食欲的作用 - 电池寿命与保修期 - 幕后电池在支持市政电网基础设施中的作用•结论•技术附录•brejectledgments
个人发展计划(IDP)
技术和战术基础得到改善。输入的每个目标都应通过具体、可衡量、可实现、现实和时间特定 (SMART) 标准,使用 90 天来制定每个标准。每个目标都代表领导者希望在短期内改变其行为和行动。这些可能与实现上述领导者的短期或长期目标之一有关。领导者应考虑在 IDP 的这一部分确定一个现实且可实现的目标数量,方法是考虑他们的课程工作量 (PME) 或分配的职责 (作战部队) 和其他
恢复健康计划指导文件
如何使用 RRWP 指导文件 RRWP 是指一套书面的目标、策略和行动,用于指导会员和医疗团队推动会员在社区中实现最大程度的独立和自主。个性化的目标和策略应侧重于会员确定的自我倡导和康复需求。利用 SMART 目标(具体、可衡量、可实现、相关、有时限)可简化此过程并确保目标可实现。 *在与新会员创建 RRWP 之前,必须通过将生活经验与康复过程中的韧性结合起来建立关系。结合动机访谈技巧,可在同伴支持服务合适时指导会员完成文档以制定 RRWP。
医疗补助管理式医疗政策文件北卡罗来纳州针对医疗补助管理式医疗标准计划和提供者的基于价值的支付策略
• 制定雄心勃勃但可实现的 VBP 目标 – 该部门旨在通过医疗补助管理式医疗快速加速 VBP 的使用。这一战略反映了对 VBP 采用方面可衡量的重大进展的坚定承诺。预计几乎所有 PHP 和提供商合同都将在合同第 5 年结束时包含 VBP 组件,尽管这些 VBP 组件的性质可能因 PHP 和提供商的需求而异。同时,该部门认识到 PHP 和提供商需要时间来协商和实施基于价值的安排,并考虑了北卡罗来纳州的提供商格局以及与该部门签订的合同中与 VBP 相关的 PHP 承诺,以确保在规定的时间范围内实现 VBP 采用的期望。