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71.
72.
Fuzzy comprehensive evaluation model for water resources carrying capacity in Tarim River Basin, Xinjiang, China 总被引:12,自引:0,他引:12
This paper explores the method of comprehensive evaluation of water resources carrying capacity and sets up an evaluation model applying the fuzzy comprehensive evaluation method. Based on the data of nature, society, economics and water resources of the Tarim River Basin in 2002, we evaluated the water resources carrying capacity of the basin by means of the model. The results show that the comprehensive grades are 0.438 and 0.454 for Aksu and Kashi prefectures respectively, where the current water resources exploitation and utilization has reached a relative high degree and there is only a very limited water carrying capacity, 0.620 for Kizilsu Kirgiz Autonomous Prefecture, where water resources carrying capacity is much higher, and in between for Hotan Prefecture and Bayingolin Mongolian Autonomous Prefecture. As a whole, the comprehensive grade of the Tarim River Basin is 0.508 and the current water resources exploitation and utilization has reached a relative high degree. Thus, we suggest that the integrated management of the water resources in the basin should be strengthened in order to utilize water resources scientifically and sustainably. 相似文献
73.
RS和GIS支持下的生态风险评估——以塔里木河下游为例 总被引:1,自引:0,他引:1
目前为止,生态风险评估还没有一套完整的方法体系。本文以我国最大的内陆河-塔里木河下游区段为研究区域,将遥感、地理信息系统等先进技术手段与模糊数学方法相结合,根据ERA框架和层次分析思想建立塔河下游植被的生态风险评估指标,运用模糊综合评判的方法进行塔河下游植被生态风险的遥感定量评估;在评估结果的基础上进行可视化分析。结果表明:在流域生态风险评估缺乏有效的定量评估方法的情况下,Fuzzy集合论与AH P方法结合的模糊综合评判方法是可行的,具有较高的科学性;运用遥感、地理信息系统等先进的技术手段,实现了评估结果的定性、定量和可视化。 相似文献
74.
条带开采地表沉陷预计参数的确定 总被引:1,自引:0,他引:1
概率积分法是条带开采地表移动和变形预计常用的方法,而概率积分法预计的精度取决于其预计参数的确定。以国内大量的条带开采实测资料为基础,应用相似理论对条带开采地表沉陷的相似现象进行了模糊聚类分析,计算出了条带开采地表沉陷预计参数。根据所得条带开采地表沉陷相似现象的分类及其地表沉陷预计参数,应用模式识别对待求条带开采地表沉陷预计参数进行了求取。工程实例表明,用模糊优化确定的预计参数进行条带开采地表移动和变形预计,其预计结果更加可靠、准确。 相似文献
75.
基于云理论、粗集和模糊神经网络的区域橡胶种植适宜度评估模型 总被引:1,自引:0,他引:1
针对橡胶种植适宜性评估,基于云理论、粗集理论和模糊神经网络理论,提出了一种适宜度评估模型。该模型将转化的样本数据进行粗集简约,通过模糊神经网络得出评价因子的隶属函数,计算评价等级。研究结果表明,此模型能够科学、快速、准确地分析出橡胶种植最适宜区、适宜区、次适宜区和不适宜区。 相似文献
76.
77.
山西省大同市农业生态气候适宜度评价 总被引:18,自引:0,他引:18
文章选择黄土高原边缘,颇具生态地理意义的山西省大同市及所辖7个县区为研究对象,依据该区域1971~2000年的长期实测气象资料,在借鉴前人建立的农业生态气候适宜度动态模型的基础上,经过多次作物实验,尝试性拟合出符合区域特点的典型气候要素适宜度隶属函数;分区计算了农业生态资源指数 、效能指数及利用系数,总结出区域气温及降水量适宜度曲线大致呈 "∩"型分布规律,峰值出现在每年的6~8月之间;日照百分率适宜度曲线呈 "∪"型分布规律,谷值出现在每年的7月。在SPSS统计软件环境中,以各区域累年逐月平均效能指数为分类实体,进行模糊动态聚类,提出研究区农业生态气候适宜度的三种等级模式。 相似文献
78.
霍锦 《沙漠与绿洲气象(新疆气象)》2021,15(2):119-124
根据巩乃斯、和静站2009—2018年6—8月的逐日平均气温、最高气温、相对湿度、风速等气象观测资料,采用对比分析、通径分析及模糊综合评价等方法对巩乃斯地区夏季避暑旅游气象资源优势进行分析和评价.结果表明:巩乃斯夏季气候凉爽、湿度适宜、风速不大,人体感觉凉爽、舒适,适合避暑旅行.人体舒适度与空气温度呈显著正相关,与相对... 相似文献
79.
《水文科学杂志》2013,58(2)
Abstract In ice forecasting, a key problem is the forecast of freeze-up and break-up dates. Ice-water mechanics and the principle of heat-exchange were mainly adopted in previous research. However, the mathematical models in these studies are complex and many parameters are required in relation to upstream and/or downstream gauging stations. Moreover, too many assumptions or simplifications for these parameters and constraints directly lead to low accuracy of the models and limitations as to their practical applications. This paper develops a fuzzy optimization neural network approach for the forecast of freeze-up date and break-up date. The Inner Mongolia reach lies in the top north of the Yellow River, China. Almost every year ice floods occur because of its special geographical location, hydrometeorological conditions and river course characteristics. Therefore, it is of particular importance for ice flood prevention to forecast freeze-up date and break-up date accurately. A case study in this region shows that the proposed methodology may allow obtaining useful results. 相似文献
80.
The growing concern for health‐related problems deriving from pollutants leaching is driving national and international administrations to support the development of tools for evaluating the effects of alternate management scenarios and identifying vulnerable areas. Cropping systems models are powerful tools for evaluating leachates under different environmental, social, and management conditions. As percolating water is the transport vehicle for pollutants transport in soil, a reliable evaluation of water balance models is a fundamental prerequisite for investigating pesticides and nitrate fate. As specific approaches for the evaluation of multi‐layer evolution of state variables are missing, we propose a fuzzy‐based, integrated indicator (ISWC: 0, best; 1, worst) for a comprehensive evaluation of soil water content (SWC) simulations. We aggregated error metrics with others quantifying the homogeneity of errors across different soil layers, the capability of models to reproduce complex dynamics function of both time and soil depth, and model complexity. We tested ISWC on a sample dataset where the models CropSyst and CERES‐Wheat were used to simulate SWC for winter wheat systems. ISWC revealed that, in the explored conditions, the global assessment of the two models' performances allowed identification of CropSyst as the best (average ISWC = 0·441, with a value of 0·537 obtained by CERES‐Wheat), although each model prevailed for some of the metrics. CropSyst presented the highest accuracy (average agreement module = 0·400), whereas CERES‐Wheat's accuracy was slightly worse, although achieved with a simplified modelling approach (average Akaike Information Criterion = − 230·44), thereby favouring large‐area applicability. The non‐univocal scores achieved by the models for the different metrics support the use of multi‐metric evaluation approaches for quantifying the different aspects of water balance model performances. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献