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相关概念视频

Design Example: Analyzing Capacity Contours for Flood Risk Assessment01:17

Design Example: Analyzing Capacity Contours for Flood Risk Assessment

347
Flood risk assessment involves careful planning and analysis to ensure the safety of communities near water retention structures. Capacity contours are a vital tool in this process, as they illustrate the potential spread of water at specific levels in a given area. In the context of building a bund across a small valley, these contours play a critical role in evaluating the safety of nearby residential areas.In this example, the bund is intended to store stormwater in the valley. The engineers...
347
Hazard Rate01:11

Hazard Rate

467
The hazard rate, also known as the hazard function or failure rate, is a statistical measure used to describe the instantaneous rate at which an event occurs, given that the event has not yet happened. From a probabilistic perspective, it represents the likelihood that a subject will experience the event in a very small time interval, conditional on surviving up to the beginning of that interval. In terms of frequency, the hazard rate can be viewed as the ratio of the number of events to the...
467
Applications of GIS: Disaster Management and Emergency Response01:29

Applications of GIS: Disaster Management and Emergency Response

608
Geographic Information System (GIS) technology is essential for risk identification, action prioritization, and resource optimization in critical situations like flooding and earthquakes. By integrating spatial and demographic data, GIS provides a comprehensive framework for emergency response.GIS integrates data layers, like rainfall intensity, topography, elevation profiles, and river levels, to model high-risk flood zones. These layers assess areas susceptible to flooding based on their...
608
Strategies for Assessing and Addressing Confounding01:25

Strategies for Assessing and Addressing Confounding

505
Confounding is a critical issue in epidemiological studies, often leading to misleading conclusions about associations between exposures and outcomes. It occurs when the relationship between the exposure and the outcome is mixed with the effects of other factors that influence the outcome. Given that, addressing confounding is of high importance for drawing accurate inferences in research.
Confounding can be addressed at both the design phase of a study and through analytical methods after data...
505
Hazard Ratio01:12

Hazard Ratio

673
The hazard ratio (HR) is a widely used measure in clinical trials to compare the risk of events, such as death or disease recurrence, between two groups over time. It reflects the ratio of hazard rates—the instantaneous risk of the event occurring—between a treatment group and a control group. This measure provides valuable insights into the relative effectiveness of a treatment by assessing how the risk of an event differs between the two groups.
For example, in a clinical trial...
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Types of Biopharmaceutical Studies: Controlled and Non-Controlled Approaches01:23

Types of Biopharmaceutical Studies: Controlled and Non-Controlled Approaches

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Biopharmaceutical studies constitute a vital field aiming to enhance drug delivery methods and refine therapeutic approaches, drawing upon diverse interdisciplinary knowledge. In research methodologies, the choice between controlled and non-controlled studies significantly influences the study's reliability and accuracy.
Non-controlled studies, commonly employed for initial exploration, lack a control group, rendering them susceptible to biases and external influences. In contrast,...
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相关实验视频

Updated: Mar 10, 2026

Watershed Planning within a Quantitative Scenario Analysis Framework
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系统性多重危险和多重风险评估的运行:来自MYRIAD-EU框架的经验教训.

Stefan Hochrainer-Stigler1, Robert Šakić Trogrlić1, Karina Reiter1

  • 1Advancing Systems Analysis Programme, International Institute for Applied System Analysis, 2361 Laxenburg, Austria.

iScience
|March 9, 2026
PubMed
概括
此摘要是机器生成的。

一个新的框架通过系统地解决多种危险和风险,有助于减少灾害风险. 虽然对管理复杂性和利益相关者对话有价值,但数据和工具方面的挑战需要进一步关注,以便广泛采用.

关键词:
地球科学 地球科学环境问题 环境问题环境科学环境科学

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相关实验视频

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科学领域:

  • 减少灾害风险 减少灾害风险
  • 气候适应 气候适应
  • 系统风险研究 系统风险研究

背景情况:

  • 多重危险和多重风险评估对于减少灾害风险和适应气候变化至关重要.
  • 现有的系统性多重危险和多重风险评估的实际框架有限.
  • 欧盟的MYRIAD-EU项目旨在弥补这一差距.

研究的目的:

  • 对MYRIAD-EU概念框架的实施进行批判性反思.
  • 评估框架在实际应用中的优点和局限性.
  • 为了提炼教训,以改善未来的灾害风险管理.

主要方法:

  • 在五个欧洲试点地区进行实施分析.
  • 利用了项目交付成果,调查和重点小组.
  • 评估了框架的开发和实际应用.

主要成果:

  • 该框架有效地结构复杂性,促进利益相关者对话,并区分直接/间接风险.
  • 确定的挑战包括数据可用性,能力建设,工具集成和沟通.
  • 该框架提供了系统风险评估的路线图.

结论:

  • 欧盟MYRIAD框架为系统性多重危险和多重风险评估提供了一种有价值的方法.
  • 建议侧重于提高可用性,制度化和长期吸收.
  • 应对已确定的挑战是减少灾害风险和适应气候变化的更广泛实施的关键.