顾及有效区域的Voronoi图的正射影像拼接

无人机影像的重叠度通常较大(60%~80%),对纠正后的正射影像进行拼接处理时,往往会产生很大的数据冗余。同时,影像越靠近边缘处变形越大,影响拼接精度。提出了一种顾及有效区域的Voronoi图的拼接线自动选取方法,基于整体构建拼接线网络,并根据影像有效区域优化拼接线,保证拼接的精度和效率。实验表明,该方法切实可行。     

西北干旱区夏半年深厚的混合层与干旱气候形成

为了更好地理解西北干旱区大气混合层(ML)厚度的变化特征及其对当地干旱气候形成的影响,我们利用张掖和民勤站夏季及相关月的实测探空资料及T-log P图解法,首先计算了该两地逐日ML厚度,然后分析并讨论了它的时空间变化特征、与干湿天气气候的关系,以及夏半年的深厚ML,对加剧当地干旱气候的影响.结果表明:(1)河西中东部ML厚度的年变化及地区差异明显.冬季最浅薄,夏半年深厚(特别是5、6月),4月及10月分别是ML急剧增厚及变薄的过渡期;同时,更靠近西北干旱区中心的河西西部及北部的ML更深厚.(2)夏季干(湿)天气通过加强(减弱)地气间的感热交换和干对流,而明显影响当地的ML厚度.平均而言,以高温日最深厚,千日次之,小雨日再次之,而中强雨日最浅薄.千年夏季的ML厚度平均比湿年的对应值增厚300 m左右.夏季典型千日的ML厚度比雨日厚3000 m,典型干日的ML厚度昼宿变化不大.(3)反过来夏半年深厚的ML也通过增加雨滴蒸发损耗,减少了干旱区的降水,加剧了当地干旱的程度,因此夏半年深厚的ML也是形成干旱气候背景的成因之一.     

考虑荷载工况组合的盾构衬砌横向受力分析

在盾构隧道衬砌受力分析中需要按最不利的荷载组合方式进行验算,这无疑加大了工程设计人员的工作量。正是基于这种状况,提出了考虑荷载工况组合的衬砌受力分析。首先建立了盾构隧道衬砌的结构分析模型,根据施工过程对荷载进行分类,依据规范对不同的工况进行荷载组合,得到衬砌内力包络图。并编制相应的计算程序进行了验证,对一典型盾构隧道截面进行了实例分析。     

利用不纯净十水芒硝与纯净氯化钾制取硫酸钾的研究

本文通过相图分析，对利用不纯净十水芒硝与纯净氯化钾通过二步转化制取硫酸钾进行了物料配比计算．给出了最佳物料配比及十水芒硝中氯离子的最大含量，对实际生产有指导意义。     

Si^4＋及过渡金属离子在蓝宝石呈色中的作用——数学分析法在离子致色研究中的应用

理想晶体（包括蓝宝石）的颜色与占据其晶格的微量过渡金属元素的种类及含量有直接的关系。玄武岩产状的蓝宝石中含有多种微量元素，这些元素是蓝宝石致色的直接因素。本文通过研究发现，每种微量元素均对可见光的特定波段产生不同程度的吸收，其中，Fe^3 ,Si^4 是使蓝宝石呈现蓝色的主要离子，Cr^3 离子可使蓝宝石呈橙和绿色，Mn^4 离子可使蓝宝石呈黄色，Co^2 离子也可使蓝宝石呈蓝色。本文还做出了蓝宝石中每种微量元素对可见光的特征吸收图即波长－吸收系数图，与分子轨道理论值吻合，把蓝宝石中各离子对可见光的吸收位置和相对吸收强度统一起来。     

鄂尔多斯盆地西缘羊虎沟组物源区分析

鄂尔多斯盆地西缘羊虎沟组物源特征对天然气勘探尤为重要。通过砂岩的碎屑组分、岩屑组分、重矿物组合以及石英阴极发光等研究,认为研究区羊虎沟组受到北部、西南部、南部物源控制,各个方位物源在研究区中部吴忠—马家滩地区汇合。通过砂岩轻、重矿物组合和碎屑组分的Dickinson三角图解,以及泥岩的稀土元素特征等分析,认为研究区羊虎沟组源岩以大陆上地壳岩石为主。研究区北部砂岩物源区为再旋回造山带物源区,泥岩球粒陨石标准化稀土元素配分模式与阿拉善古陆浅变质岩相似,具有亲缘性;西南部及南部砂岩物源区为稳定陆块区和再旋回造山带物源区,泥岩球粒陨石标准化稀土元素配分模式与祁连—北秦岭造山带中浅变质岩相似。综上所述,研究区北部母岩主要为阿拉善古陆的浅变质岩夹少许火山岩,西南部及南部母岩主要为祁连—北秦岭造山带的中浅变质岩,其次为碳酸盐岩和火山岩。     

Pyrite–anhydrite–magnetite–pyroxene-type deposits and coexisting hydrothermal fluids in Mesozoic volcanic basins, Yangtze River Valley, China

Anhydrite–pyrite–magnetite–pyroxene–type deposits occur in the Mesozoic volcanic areas of the Middle–Lower Yangtze Valley in China. These deposits are hosted in alkaline basaltic rocks, and are generally accompanied by melanocratic and leucocratic alteration zones, both of which are characterized by a distinct vertical zonation pattern. Investigation of these zones indicates that the chemical compositions of solid solutions and polymorphs of various minerals vary spatially in the alteration profile, upwards from the lowest level, and outwards from the center.Here we report a case study on the Luohe deposit. In the melanocratic-alteration zone, the composition of magnetite (including trace elements Ti, V, Mg, Mn), pyroxene (Mg, Fe²⁺, Fe³⁺, Al₂O₃), plagioclase (An_xAb_{1 − x}), pyrite (Co, Ni) and apatite (F, CeO₂ + Y₂O₃ + La₂O₃) changes with depth. The isotherms of hydrothermal fluids determined from fluid inclusion data, including homogenization temperature and salinity, also vary with depth.Activity diagrams were constructed from mineral and isotherm analysis to estimate the chemical constraints on the alteration-mineral assemblages and the coexisting hydrothermal solutions for the Na₂O–K₂O–CaO–MgO–FeO–Fe₂O₃–A1₂O₃–SiO₂–H₂SO₄–H₂S–HCI–H₂O system at 350 to 600 °C and 500 bars (50 MPa), assuming that the major alteration mineral assemblages along the profile reflect the nature of the coexisting hydrothermal solutions. The activity diagrams adopted the major minerals as buffers to fix the activities of the aqueous species in the system, simulating the physicochemical conditions of the magnetite–anhydrite–pyroxene equilibrium and of solid solutions of diopside–hedenbergite, grossular–andradite and anorthite–albite found in the profile.This study provides an approach to modeling the chemical constraints of coexisting fluids in ore-alteration zones based on field observations.     

Tessellations in GIS: Part II–making changes

Abstract

We attempt to describe the role of tessellated models of space within the discipline of Geographic Information Systems (GIS) – a speciality coming largely out of Geography and Land Surveying, where there was a strong need to represent information about the land’s surface within a computer system rather than on the original paper maps. We look at some of the basic operations in GIS, including dynamic and kinetic applications. We examine issues of topology and data structures, and produced a tessellation model that may be widely applied both to traditional “object” and “field” data types. The Part I of this study examined object and field spatial models, the Voronoi extension of objects, and the graphs that express the resulting adjacencies. The required data structures were also briefly described, along with 2D and 3D structures and hierarchical indexing. The importance of graph duality was emphasized. Here, this second paper builds on the structures described in the first, and examines how these may be modified: change may often be associated with either viewpoint or time. Incremental algorithms permit additional point insertion, and applications involving the addition of skeleton points, for map scanning, contour enrichment or watershed delineation and simulation. Dynamic algorithms permit skeleton smoothing, and higher order Voronoi diagram applications, including Sibson interpolation. Kinetic algorithms allow collision detection applications, free-Lagrange flow modeling, and pen movement simulation for map drawing. If desired these methods may be extended to 3D. Based on this framework, it can be argued that tessellation models are fundamental to our understanding and processing of geographical space, and provide a coherent framework for understanding the “space” in which we exist.     

内蒙古浩尧尔忽洞高钾钙碱性花岗岩岩石成因及构造意义

浩尧尔忽洞金矿为低品位超大型中低温热液型金矿,矿区内华力西期花岗岩发育。SiO2含量为71．5％～73．07％,Na2O／K2O值为0．59～0．67,平均值为0．64,属于高钾钙碱性系列。哈克图解上各元素含量随SiO2变化成线性规律明显,具I型花岗岩特征。Mg^#为39～49,其平均值为43,与下地壳麻粒岩的平均值（45．36）相近。∑REE值变化范围为72．64×10^-6～132．6×10^-6总体上稀土含量较低。（La／Yb）Ⅳ值为12．99～34．13,显示轻重稀土有较大的分馏。在稀土元素蛛网图上表现为右倾。Ba／Th值为133．93～178．93,认为板片俯冲流体影响较小。OEu含量为0．52～0．96,平均值为0．75,具有中等到低的Eu亏损。根据其地球化学特征,认为该岩体为后碰撞期形成的高钾钙碱性I型花岗岩。     

碎屑金红石:沉积物源的一种指针

近年来,碎屑金红石的研究已成为沉积物源区分析的一个新前沿。金红石的地球化学组成,尤其是Cr,Nb,Zr等微量元素的含量,对其母岩的形成条件和所经历的地质过程都具有重要的指示意义,同时,碎屑金红石在沉积、成岩过程中表现出极高的稳定性,因而是物源分析的理想指针矿物。首先介绍金红石的矿物学和地球化学基本性质,分析不同来源的金红石典型特征,重点阐述碎屑金红石在物源分析中运用的5个方面:①金红石重矿物比值;②金红石矿物化学成分Cr-Nb判别图解;③金红石Zr含量温度计;④金红石的U-Pb和(U-Th)/He定年;⑤金红石Lu-Hf同位素。综合上述5个方面的物源分析研究,可以获取金红石的母岩类型、形成温度及后期所经历的热演化史等信息。碎屑金红石的物源研究处于起步和探索阶段,仍存在一些亟需解决的问题。