点与闭合曲线所围区域关系的客观判定方法

在气象、地理等学科中利用计算机解决与图形有关的问题时 ,经常会遇到要在一个给定区域内进行某种特定处理 ,而在此区域外不进行该种处理的情况。在这种情况下首先需要确定哪些点位于区域内 ,哪些点位于区域外。对于人脑而言 ,这是很容易解决的问题。然而 ,这种解决方法是建立在人脑的感知意识和逻辑分析、判断能力基础之上的 ,是一种主观判别方法 ,很难在计算机上直接实现。要在计算机上通过“数”的变化来解决这类问题 ,如果给定区域的边界能用一种比较简单、确定、规则的数学模型来描述 ,相对较为容易 ;但倘若无法用这种数学模型来描述这…     

能量垂直廓线图在强对流性天气预报中的应用

应用能量天气学原理，对单站总能量垂直廓线图进行分析，结合安康多年预报经验所得4项指标，制作安康区域内未来24h强对流天气预报，通过2002年主汛期应用检验，效果较好。     

巴州农区气候变化及其对农业生产的影响

分析了1960—2001年巴州农区年、季平均温度、降水的变化，结果表明：各地气候变化并不一致，大部分地区有温度升高、降水偏多的趋势。冬季的升温幅度明显大于其它季节，年平均温度的上升主要由冬季升温所致。     

一种在异构系统中实现负载平衡的方法

提出了在异构系统实现负载平衡的区域分解算法和实现负载平衡的计算方法，利用它的负反馈性质解决了异构系统处理机计算速度测量误差造成的负载测量不准问题，并对处理机速度变化，速度测量误差、处理机数量、网格点计算量的分布等因素的影响进行了计算，结果表明本方法具有很强的平衡负载能力和较强的适应性；根据计算结果提出了解决模式网格点计算量不易测量问题的解决方案，并用扩散方程和模拟物理过程进行试验，试验表明这种方法是可行的，平衡负载的效果十分显著。     

The Northward Shift of Climatic Belts in China During the Last 50 Years and the Corresponding Seasonal Responses

Along the meridian of 105°E, the Chinese region are divided into two parts, east and west. The results show that in the east part of China the temperate extratropical belt, the warm extratropical belt,and the northern subtropical belt shift northward significantly, whereas the middle subtropical belt and the southern subtropical belt have less or no change. As for the northern subtropical belt, the maximal northward shift can reach 3.7 degrees of latitude. As for the warm extratropical belt, along the meridian of 120°-125°E, the maximal northward shift can reach 3-4 degrees. In the west part of China, each climatic belt changes little. Only in the Xinjiang area are the significant northward shifts. Correspondingly, it is found that in the last 50 years the traditional seasons have changed. For Beijing, Hailar, and Lanzhou, in general, summer becomes longer and winter shorter over the last 50 years. Summer begins early and ends late with respect to early 1950s. Contrary to the summer, winter begins la     

The Influence of Vegetation Cover on Summer Precipitation in China： a Statistical Analysis of NDVI and Climate Data

This study provides new evidence for the feedback effects of vegetation cover on summer precipitation in different regions of China by calculating immediate (same season), and one-and two-season lagged correlations between the normalized difference vegetation index (NDVI) and summer precipitation. The results show that the correlation coefficients between NDVI in spring and the previous winter and precipitation in summer are positive in most regions of China, and they show significant difference between regions. The stronger one-and two-season lagged correlations occur in the eastern arid/semi-arid region, Central China,and Southwest China out of the eight climatic regions of China, and this implies that vegetation cover change has more sensitive feedback effects on summer precipitation in the three regions. The three regions are defined as sensitive regions. Spatial analyses of correlations between spring NDVI averaged over each sensitive region and summer precipitation of 160 stations suggest that the vegetation cover strongly affects summer precipitation not only over the sensitive region itself but also over other regions, especially the downstream region.