关于处处没有导数的连续函数求分数阶导数的例子

范德瓦尔登给出了一个著名的处处没有导数的连续函数的例子,本文求出了这个函数的分数阶导数。     

地形图智能综合系统的设计

本文论述了在地图数据库的基础上如何进行地形图智能综合系统的设计。地形图的自动综合是一个困难的大课题,本文只是就全要素的大比例尺地形图作了较详细的研究,同时提出了有关其它方面的策略。     

地形图综合对数字化的需求

地形图综合必须以数字景观模型为基础,因此,数字化时必须保证目标的景观特征的完整性。本文在分析地形图自动综合的规律基础上讨论了在数字化地形图时应遵循的原则。     

Devonian to Triassic Successions of the Changning-Menglian Belt, Western Yunnan, China

Phanerozoic strata are distributed in several north-south trending zones in the central part of the Changning-Menglian Belt. Four types of Devonian to Triassic stratigraphic successions can be identified: (1) elastics with limestone lenses in the mid-section, changing up-section into alternations of fine elastics and cherts; (2) elastics with chert intercalations and limestone lenses, and topped by Permian basic volcanics; (3) elastics-basic volcanics-carbonates-clastics; and (4) limestones, dolomitic limestones-dark gray thin-bedded limestones, argillaceous limestones, mudstones and siliceous mudstones. Devonian to Triassic cherts occur in different horizons and different zones from east to west. These cherts are usually transitional to their neighboring elastics. There is no continuous Devonian to Middle Triassic chert sequence in the central zone of the Changning-Menglian Belt as Liu et al. (1991,1993) reported. Volcanics and the overlying carbonates described by some workers as "seamount" sequences     

Minerogenic Theory of the Superlarge Lop Nur Potash Deposit, Xinjiang, China

Located in the eastern part of the Tarim basin, Xinjiang, the Lop Nur was an ultimate water catchment area of the Tarim basin during the Quaternary. Through nearly ten years of investigation and research, the authors have found a superlarge brine potash deposit in the Luobei subbasitv—a secondary basin of the Lop Nur depression. The deposit has been mined now. On that basis, the authors propose new theories on the genesis of the potash rock deposit. In the tectonic and geomorphologic contexts, the Tarim basin lies in a “high mountain-deep basin” environment. At the beginning of the Quaternary, influenced by the neotectonic movement, the Lop Nur evolved into a “deep basin” in the Tarim basin. At the end of the middle Pleistocene, neotectonic migration began to take place in the interior of the Lop Nur and a new secondary deep basin—the Luobei subbasin—formed gradually. Despite its small area, it is actually the deepest subbasin in the Lop Nur depression, where brines of the Lop Nur Salt Lake gather and evaporate, thus providing materials for the formation of a superlarge brine potash rock deposit. With respect to the phenomenon of brine concentration and change with deepening of the lake, the authors propose a model of “high mountain-deep basin” tectonic migration for potash concentration. In the sedimentological context, the honeycomb-shaped voids developed in glauberite rock in the subbasin are good space for potash-rich brine accumulation. Study indicates that the deposition of glauberite requires recharge of calcium-rich water.In the Tarim area the calcium-rich water might come from deep formation water or oilfield water, and the river water recharging the Lop Nur Salt Lake was rich in sulfate radicals and other components; in addition, the climate in the area was very dry and the brine evaporated steadily, thus resulting in deposition of substantial amount of glauberite, potash accumulation in intercrystal brine and final formation of the potash deposit. Generally, potash formation in a salt lake undergoes a three-stage process of “carbonates→sulfates (gypsum and glauberite)→chlorides (halite etc.)”, but in the study area there only occurred a two-stage process of “carbonates→sulfates (gypsum and glauberite)”. The authors call this new geological phenomenon the “two-stage potash formation” model. In conclusion, the superlarge Lop Nur potash deposit is the result of combined “high mountain-deep basin” tectonism and “two-stage potash formation”.     

The Crustal Structure and Assembly of Terranes in the Qaidam-Qilian-Beishan Area, Western China

Through a study of the geotransect from Golmud to Ejin Qi published recently, the tectonics of the crust beneath the area from the northern Qinghai-Tibet plateau (Qaidam and the Qilian Mountains) to the border between China and Mongolia and its structure, composition and tectonic evolution have been revealed, and abundant information about the deep structures has been provided. Based on the research into the geotransect, it is suggested that the crust in this area was formed by the assembly of the terranes in different geological stages. Following the formation of the Palaeo-Asian continent, the north part of the corridor of the transect became a part of the huge unifying continent by the end of the Early Permian. In the Mesozoic and Cenozoic, as a result of the compression mainly by the push of the Qinghai-Tibet plateau on the south, the unique crustal structure and geomorphologic features on the northern Qinghai-Tibet plateau were formed. This geotransect together with the Yadong-Golmud geotransect co     

陆—陆点碰撞与超高压变质作用

迄今为止，非撞击型超高压变质作用均发生在陆陆碰－撞造山带，这在东半球许多地点已被证实，超高压变质岩石以含柯石英和金刚石包体的榴辉岩和榴辉岩相变质岩石为代表，形成的温压环境为650－800℃，2.6-3.5GPa，研究证明大多数超高压岩石原是陆壳火山－沉积岩系，因此推断大陆深俯冲作用曾经发生，而超高压岩石现今又出露地表或浅表，意味着它们又从深部折返至地表，陆壳岩石深储冲和折返机制已成为大陆动力学研究的热点，但认识莫衷一是，争论的焦点是陆壳俯冲的深度到底多大可以形成超高压岩石？是什么机制使其发生深俯冲而又折返到浅表？本文通过世界上出露规模最大的超高压变质带－大别山碰撞过程的动力学分析，探讨非规则边界的碰撞引起的构造附加压力对超高压石形成的影响作用。模拟计算表明，大陆板块的早期碰撞，会引起碰撞附近的局部应力集中现象（平均压力较周围增大了5－9倍），构造压力在超高压中所占的比例约为20％－35％，由此推测，大别山高压－超高压岩石形成深度可能为65－80km。为此本文提出超高压岩石新成因模式－大陆点碰撞模式。这种模式符合力学基本原理，也符合地质记录和地质过程，可以解释为什么超高压岩石并非沿碰撞造山带全线存在，而是出现某些特定部位。本文提出喜马拉雅山撞带的东西犄角是典型的点碰撞区域，陆壳岩石的超高压变质作用均发生在这两个特定的部位。     

中国大陆现今垂直形变特征的初步探讨

利用GPS观测资料进行大范围的垂直形变特征研究是本文研究的重点。通过网络工程基准站和基本站的GPS观测资料，绘制了中国大陆的垂直速率等值线图像，并对中国大陆垂直运动特征进行了定性的分析，结果表明：中国大陆垂直运动在70％以上的区域表现为沉降运动，在青藏高原和除北京外的整个华北块体及燕山块体的垂直运动表现为隆升的趋势。中国大陆西北和东南、西南和东北的整体垂直运动呈一种斜对称状态。对基于GPS观测所得的等值线图与基于水观测所得的等值线图进行了比较，比较结果显示，除了华南块体外，二者在整体趋势上比较一致。     

General Entropy Model of Line Segments Uncertainty in GIS

Spatial data uncertainty can directly affect the quality of digital products and GIS-based decision making. On the basis of the characteristics of randomicity of positional data and fuzziness of attribute data, taking entropy as a measure, the stochastic entropy model of positional data uncertainty and fuzzy entropy model of attribute data uncertainty are proposed. As both randomic-ity and fuzziness usually simultaneously exist in linear segments, their omnibus effects are also investigated and quantified. A novel uncertainty measure, general entropy, is presented. The general entropy can be used as a uniform measure to quantify the total un-certainty caused by stochastic uncertainty and fuzzy uncertainty in GIS.     

Trachytic Rock and Associated Fenitization in the Bayan Obo Ore Deposit, Inner Mongolia, China: Evidence for Magmatic-Hydrothermal Mineralization Related to a Carbonatitic Complex

Trachytic rock and its altered rock-fenite-in the Bayan Obo ore district, Inner Mongolia, China, were referred to as slate or feldspar rock before, and identified by the authors for the first time (in 1992). In the paper the mineral assemblages, structures and textures and petrochemical compositions of the rocks, as well as the electron microprobe analysis of feldspars in the rocks are described. The Sm-Nd isochron age of the trachytic rock is 1096±56 Ma, with INd=0.51100+4 (2σ) and εNd(t)= -4.4±0.7. Alterations of the trachytic rock, including microclinization, riebeckitization, aegirinization and biotitization, and accompanied rare element and REE mineralizations are discussed. Based on the occurrence of the trachytic rock and associated fenitization it is deduced that the Bayan Obo Fe-Nb-REE ore deposit is genetically related to magmatic-hydrothermal activity of an alkali carbonatite complex.