The pattern and methods for urban hazard mitigation in scientific way are discussed in particular.
重点论述了城市科学减灾的研究模式及方法。
We can use the mapping function of GIS in flood hazard mitigation system to display flood information visually.
在水利防汛减灾决策支持系统中,可以利用GIS的地图功能,实现防汛信息的可视化。
Now we turn to the question of how we account for local hazard mitigation policy adoption at the different level.
现在我们转到的问题是如果我们占当地风险缓解政策选择在不同的等级。
This may results the risk of hazard assessment and the low reliability for planning and design of hazard mitigation.
参数的不确定性导致灾害的评估结果潜藏风险,也造成防灾工程规划设计之可靠性不足;
Clearly, to ignore these sources of variance is to miss out on important aspects of support for the local hazard mitigation policy.
显然,忽略这些来源的方差是错过重要方面支持当地的风险缓解政策。
As frontier of hazard mitigation, it has been applied to health monitoring and vibration control of some important structures with bright prospect.
它是减灾防灾的前沿问题,已在一些重要工程的结构健康监测与控制方面展现出良好的应用前景。
Thus, we find that the variance component at the local level accounts for a major portion (76%) variance in local hazard mitigation policy adoption.
因此,我们发现方差成分在局部层面占大部分地方不同的(76%)相对减低灾害伤亡的政策选择。
The result of the ANOVA model indicates very clearly that there is significant variation in local hazard mitigation policy adoption at both two levels of analysis.
方差分析模型的结果表明得很清楚,有明显的变化,在当地的风险缓解政策选择在两个两个层次的分析。
Urban hazard control and mitigation is one of key aspects for disaster reduction at home and abroad today.
加强防御、控制城市灾害,增强城市综合减灾抗灾能力是当今国内外减灾工作的重点中的重点。
Therefore, it is imminent to construct China tsunami disaster mitigation system. And researches of tsunami numerical simulation, warning system, hazard analysis must be implemented urgently.
因此构建我国海啸防灾减灾体系迫在眉睫,海啸的数值模拟研究、预警系统建立、沿海地区危险性分析工作必须尽快开展。
The confirmation of two-stage eruptions is helpful to learn the history and process of Laoheishan Volcano eruption and the assessment and mitigation of volcanic hazard in the future.
两次喷发活动的确认为研究老黑山火山喷发历史、喷发过程、喷发危险性评价和灾害预测等提供了新依据。
For landslide hazard prevent and mitigation, both of them are the major non-engineering measure, and can also help decision-making of optimization the engineering measure.
这些是滑坡治理过程中重要的非工程措施,也为滑坡治理的工程措施的优化提供决策依据。
For landslide hazard prevent and mitigation, both of them are the major non-engineering measure, and can also help decision-making of optimization the engineering measure.
这些是滑坡治理过程中重要的非工程措施,也为滑坡治理的工程措施的优化提供决策依据。
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