数量化理论 meaning in Chinese
quantification theory
theory of quantification
Examples
- Based on the fuzzy quantitative theory , a practical method in the high - teat quantitative and combined with the quantitative and qualitative variable system has been proposed in this paper
摘要在研究模糊数量化理论的基础上,力图找到一种数量化程度较高,并且能反映含有定性与定量变量系统的实用方法。 - The thoughts , principles and approaches of sustainable utilization of the wetland landscape culture were formulated and were suggested , ( 4 ) eco - digitalization modeling of the wetland landscape resources . it also raised scientifically the eco - digitalization assessment standard system of wetl
在86个湿地景观样本景观因子和生态旅游价值数字化基础上,根据数量化理论,建立了可靠、简洁和实用的南洞庭湖景观生态数字化wsetvaahpq -模型。 - ( 3 ) eco - tourism value of wetland landscape resources . for a rational development and protection of the wetland , we studied its landscape resources and its value to created an assessment system of the ecological landscapes , and to evaluated qualitatively and quantitatively the value of wetland to the eco - tourism . we also analyzed the structure , classification and order of the wetland landscapes
同时,根据ahp 、多元分析及数量化理论,科学地提出了南洞庭湖景观生态数字化评价模式,筛选了湿地景观九个因子,制定了景观因子等级标准体系,建立了湿地景观项目( 9 ) -类目( 34 )系统,完成了86个景观样本景观因子的数字化。 - By surveying the sample plot , the relations between the stabil ity of the mountai n slope of soil preparation for planting by using explosion and other factors s uch as precipitation , terrain , were studied . by using the method of quantitative t heory i , the interrelation between the damaged degrees of soil preparation progra ms by using explosion in low mountain area with abundant precipitation and terrain factors was systematically analysed , and the mathematical models relate d were developed . the results show that the precipitation in early days and the m aximum precipitation per day are the primary factors causing the soil prepara tion program damaged . the main terrain factors of the mountain slope that affect the program stability are according to their importance , slope , position and dir ection . the suitable mountain slope for soil preparation by using explosion is th e slope of less than 25
通过典型标准样地调查资料,探讨了造林爆破整地工程的坡地稳定性与降水、地形等因子的相互关系,应用数量化理论,对在有充分降水条件下的低山丘陵区的爆破整地工程损失程度与地形因子之间的关系进行了系统分析,并建立了相应的数学模型,研究指出,充分的前期降水和日最大降雨量是引起爆破整地工程损失的激发因素;影响爆破整地工程稳定性的主要地形因子是地面坡度,其次为坡位、坡向,实施爆破整地工程的地面坡度以不超过25为宜。 - Whereafter , based on the analysis on the flood influence for traffic lines , the research is centered on the following parts : firstly , the destroying modes , reasons and mechanism of flooded lines are discussed , and the frameworks and countermeasures of preventing and controlling hazards system are put forward ; secondly , the ways of region forecasting for the landslide are analyzed and the automation of landslide forecast for certain site through visual programming is realized . furthermore , the function of dynamic segmentation in arc view is made use of to realize the forecast result ' s visualization ; thirdly , the reasons and patterns of roadbed subsidence are discussed and the methods of forecasting subsidence based on the gm ( 1 , 1 ) model are put forward . then the applications of the arcview software and its extended module on the study of roadbed subsidence are debates upon ; fourthly , an analysis on the sources of flood for traffic lines , which situate in the reservoir coverage area , is given
接着,论文探讨了山区交通线路灾害的特点、分类、时间和空间分布规律以及灾害的防治原则和对策等;然后,以洪水灾害对交通线路的毁坏为主线,重点研究和分析了以下几个问题:第一,探讨了洪水对交通线路的破坏方式,水毁原因以及水毁机理,并提出了交通线路水毁防御系统框架和对策;第二,分析了雨季边坡塌方灾害的区段预测方法;通过可视化编程,编制了雨季边坡塌方灾害的工点预报程序,并结合arcview实现了预测结果的可视化;第三,对路基沉陷原因和模式进行了分析,并提出利用gm ( 1 , 1 )模型对路基沉陷区进行分析和预测,最后论述了arcview软件及其扩展模块在沉陷区研究分析中的应用;第四,对汛期库区线路灾害的原因进行了分析,并探讨了利用数量化理论对路基防护工程抗洪能力进行预测的意义;第五,提出从风险的角度对交通线路的防灾减灾进行管理,对风险估计的相关问题进行了论述,并探讨了交通线路水害危险区段的划分问题。