“三旧”改造地块改造效益评价体系研究

研究目的:"三旧"改造项目改造后效益评价是对改造后的项目进行有效性、合理性、节地率等方面的定量化评价。研究方法:通过评价指标及权重录入、评价模型建立、评价结果展示输出,建立评价数学模型。研究结果:建立"三旧"改造项目改造效益评价体系研究,对部分已完成改造项目进行效益评价。研究结论:构建了"三旧"改造效益评价指标体系和评价方法,分析"三旧"改造效益,对改造后的项目进行有效性、合理性、节地率等方面的定量化评价,给政府部门决策提供有效的参考信息。     

基于银行网点布局的河南省金融网络格局及结构特征

以河南省126个县域(市区)为研究单元,运用2014年银行业的12 369个网点数据,借鉴连锁型网络模型,运用复杂网络分析工具和空间分析软件对河南省金融网络进行综合测度与结构分析。研究发现:1从金融连接度看,郑州是河南省的金融核心,洛阳是次金融核心;2金融核心具有较高的金融联系度和较强的对外金融联系,同时银行网点在空间上的布局并不完全遵循传统地理空间的行政等级制度;3在实体基础设施网络和银行网点虚拟网络共同作用下,河南省金融网络表现出了等级化和网络化的双重特征;4金融网络中,郑州—洛阳的金融连接度最高,金融连接度存在着一定程度的极化现象,并在空间上呈现出"一体两翼"的格局,且豫北的金融聚集现象较豫南明显;5河南省金融网络拓扑结构图具有较大的集聚系数和较小的平均最短路径,同时度分布在对数坐标中呈现幂律分布,说明整个网络同时具有复杂网络中的小世界网络和无标度网络结构特征。     

中国气温变化对全球变暖停滞的响应

1998-2012年出现的全球变暖停滞（global warming hiatus）现象,近年来受到各界的广泛关注。基于中国622个气象站的气温数据,研究了全国及三大自然区气温变化对全球变暖停滞的响应。结果表明：① 1998-2012年间,中国气温变化率为-0.221 ℃/10 a,较1960-1998年增温率下降0.427 ℃/10 a,存在同全球变暖停滞类似的增温减缓现象,且减缓程度更明显,其中冬季对中国增温减缓的贡献最大,贡献率为74.13%,夏季最小;② 中国气温变化对全球变暖停滞的响应存在显著的区域差异,从不同自然区看,1998-2012年东部季风区和西北干旱区降温显著,其中东部季风区为中国最强降温区,为全国增温减缓贡献了53.79%,并且具有显著的季节依赖性,减缓期冬季气温下降了0.896 ℃/10 a,而夏季上升了0.134 ℃/10 a。青藏高寒区1998-2012年增温率达0.204 ℃/10 a,对全球变暖停滞的响应并不显著;③ 中国增温减缓可能受太平洋年代际振荡（PDO）负相位、太阳黑子数与太阳总辐照减小等因素的影响;④ 1998-2012年中国虽出现增温减缓现象,但2012年之后气温快速升高,且从周期变化看,未来几年可能持续升温。     

常德多普勒天气雷达强雹暴三体散射统计分析

对常德及周边地区10次强雹暴过程中18个风暴单体产生的404次三体散射样本进行统计分析,并对影响三体散射观测的原因进行了详细分析。结果表明:(1)反射率因子强度是能否产生三体散射的关键因素,产生三体散射特征的最小反射率因子强度为58dBz,在此临界值之上,反射率因子强度越强,越易产生三体散射;(2)风暴核回波强度的垂直分布是三体散射出现频数在高度4km左右、仰角1.5°、距离90km左右达到峰值的主要影响因素;(3)三体散射随方位分布在180°～360°出现频数最多,风暴单体移动下风方有径向长度较长的回波区时,导致三体散射特征被覆盖,是影响三体散射观测的根本原因,风暴单体相对雷达位置和移动方向通常决定径向外侧是否有影响三体散射观测的回波;(4)三体散射回波强度与风暴径向外侧弱回波相当或强时,三体散射特征能被识别。     

基于三维激光扫描数据的建筑物三维建模

给出基于三维激光扫描测量仪所获得的点云数据来实现建筑物三维建模的方法。文中介绍了三维激光扫描测量仪的系统组成与工作原理,给出对点云数据处理的过程和方法,阐述建筑物三维建模的方法,并用实例介绍整体方法的实现过程和效果。     

The Kuroshio East of Taiwan and in the East China Sea and the currents East of Ryukyu Islands during early summer of 1996

Using hydrographic data and moored current meter records and the ADCP observed current data during May–June 1996, a modified inverse method is applied to calculate the Kuroshio east of Taiwan and in the East China Sea and the currents east of Ryukyu Islands. There are three branches of the Kuroshio east of Taiwan. The Kuroshio in the East China Sea comes from the main (first) and second branches of the Kuroshio east of Taiwan. The easternmost (third) branch of the Kuroshio flows northeastward to the region east of Ryukyu Islands. The net northward volume transports of the Kuroshio through Section K₂ southeast of Taiwan and Section PN in the East China Sea are 44.4×10⁶ and 27.2×10⁶ m³s⁻¹, respectively. The western boundary current east of Ryukyu Islands comes from the easternmost branch of the Kuroshio east of Taiwan and an anticyclonic recirculating gyre more east, making volume transports of 10 to 15×10⁶ m³s⁻¹. At about 21°N, 127°E southeast of Taiwan, there is a cold eddy which causes branching of the Kuroshio there.     

全三维连片处理技术的应用研究

论述了全三维连片处理的基本方法,介绍了处理过程中相对相关技术的运用和研究     

Dynamic Analysis of Deformational Structures of the Xianniishan Fault Zone in the Three Gorges of the Yangtze River

Field investigation and laboratory work reveal that inhomogeneity of the deformation of the Xiannushan fault is mainly characterized by lateral zonation, longitudinal segmentation and downward stratification. Based on these results, a 3-D deformational structure model of the fault was established and its geometrical and kinematic characteristics in two main deformational stages i.e. the main Yanshanian and Himalayan were discussed. The directions of principal and the differential stresses in these two stages were determined by using conjugate joints, striations of fault planes and microstructures of the fault zone. The direction of σI is N-S in direction with differential stresses of 150-250 MPa in the Yanshanian, and N70E with a differential stress ranging from 80-120 MPa in the Himalayan.     

Dynamic Analysis of Deformational Structures of the Xiannüshan Fault Zone in the Three Gorges of the Yangtze River

Field investigation and laboratory work reveal that inhomogeneity of the deformation of the Xiannüshan fault is mainly characterized by lateral zonation, longitudinal segmentation and downward stratification. Based on these results, a 3-D deformational structure model of the fault was established and its geometrical and kinematic characteristics in two main deformational stages i.e. the main Yanshanian and Himalayan were discussed. The directions of principal and the differential stresses in these two stages were determined by using conjugate joints, striations of fault planes and microstructures of the fault zone. The direction of (1 is N-S in direction with differential stresses of 150(250 MPa in the Yanshanian, and N70E with a differential stress ranging from 80-120 MPa in the Himalayan.     

高分辨率三极断面测深技术在采石场勘查中的应用

介绍了高分辨三极断面测深技术在采石场勘查中的应用,钻探验证结果表明,该方法能够准确圈定采石场灰岩岩溶等地质异常体,可为开采石料提供必要的地质资料。