基于岩土参数随机场的地理信息系统(GIS)的研制与开发
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摘要
本文以地理信息系统(GIS)理论和随机场理论为指导,进行了基于随机场的地理信息系统的结构与功能设计。研究内容分以下两个方面:
首先以某场地的岩土工程勘察信息为研究对象,通过计算其数字特征与检验其平稳性和各态历经性,证明了岩土参数具有平稳性随机场的特性。故可将士体看作齐次平稳随机场。在对其土性相关距离研究的基础上,分别就岩土参数的预测进行了较深入的探讨。
其次通过对GIS的目标、任务、用户需求和数据的分析,进行数据库的设计,经数据分类、编码等数据预处理,建立了一个包含文本、图形、表格等数据类型的数据库。运用GIS系统的空间分析和辅助决策功能,建立专业模块,在实现对原有地质资料信息管理的同时,可以利用这些信息资源对拟建区域的岩土参数进行预测。
最后以保定市岩土工程勘察地理信息系统为例,实现了对随机场与地理信息系统相结合的研制与开发。
According to the geographic information system(GIS) and the the random field, this paper studied designing the structure and function on the geography information system based on the random field of soil parameter. The study divides below two aspect:
First, that the soil parameter has the characteristic of stationary random fields is proved according to calculating its digital feature and testing whether this random fields is a stationary process and whether it is ergodic based on the geographical information of one area in Baoding. So the soil parameter is able to be looked as the stationary random field. The prediction of the soil parameter is discussed in-depth on the basis of studying the correlation distance.
Second, the concept and logic of the database was designed by analyzing the object and mission of the GIS, the user's demand and the source of data. After classifying the data and coding, a database including such data types as text, figures and tables was built. The professional module is established by the function of dimensional analysis and assistant decision-making of GIS, so while the useful geological information is managed, soil parameter of the unbuilt areas is predicted using these geological information.
Last, given the Reconnaissance-GIS of Baoding for example, the development of the random and the GIS are combined is realized.
首先以某场地的岩土工程勘察信息为研究对象,通过计算其数字特征与检验其平稳性和各态历经性,证明了岩土参数具有平稳性随机场的特性。故可将士体看作齐次平稳随机场。在对其土性相关距离研究的基础上,分别就岩土参数的预测进行了较深入的探讨。
其次通过对GIS的目标、任务、用户需求和数据的分析,进行数据库的设计,经数据分类、编码等数据预处理,建立了一个包含文本、图形、表格等数据类型的数据库。运用GIS系统的空间分析和辅助决策功能,建立专业模块,在实现对原有地质资料信息管理的同时,可以利用这些信息资源对拟建区域的岩土参数进行预测。
最后以保定市岩土工程勘察地理信息系统为例,实现了对随机场与地理信息系统相结合的研制与开发。
According to the geographic information system(GIS) and the the random field, this paper studied designing the structure and function on the geography information system based on the random field of soil parameter. The study divides below two aspect:
First, that the soil parameter has the characteristic of stationary random fields is proved according to calculating its digital feature and testing whether this random fields is a stationary process and whether it is ergodic based on the geographical information of one area in Baoding. So the soil parameter is able to be looked as the stationary random field. The prediction of the soil parameter is discussed in-depth on the basis of studying the correlation distance.
Second, the concept and logic of the database was designed by analyzing the object and mission of the GIS, the user's demand and the source of data. After classifying the data and coding, a database including such data types as text, figures and tables was built. The professional module is established by the function of dimensional analysis and assistant decision-making of GIS, so while the useful geological information is managed, soil parameter of the unbuilt areas is predicted using these geological information.
Last, given the Reconnaissance-GIS of Baoding for example, the development of the random and the GIS are combined is realized.
引文
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[2] 陈俊,宫鹏.实用地理信息系统——成功地理信息系统的建设与管理.北京:科学出版社,2001
[3] 魏思兵.地理信息系统的技术与发展.现代计算机,1997,55(2):8-10
[4] 陈石羡.地理信息系统在金属矿产预测中的应用.地质找矿论丛,1998,30(1):74-83
[5] 肖克炎.应用GIS技术研制矿产资源评价系统.地球科学——中国地质大学学报,1999,24(5):525-528
[6] 唐宾.GIS支持下的金属矿产成矿预测简介.广西地质,2000,13(1):69-71
[7] 李忠武,张红军.GIS在地质学中的应用研究现状综述.青海地质科技情报,1998,(1):1-2
[8] 黄家柱,赵锐,戴锦芳.遥感与GIS在长江三角洲地区资源与环境动态监测中的应用.长江流域资源与环境,2000,9(1):34-39
[9] 沈芳,黄润秋,苗放.地理信息系统与地质环境评价.地质灾害与环境保护,2000,11(1):6-10
[10] 何延波,杨琨,遥感和地理信息系统在水文模型中的应用.地质地球化学,1999,27(2):99-103
[11] 吕涛.GIS在市场营销辅助决策中的应用研究.地质技术经济管理,1999,21(4):53-57
[12] 宋小冬,叶嘉安.地理信息系统及其在城市规划与管理中的应用.北京:科学出版社,2000
[13] Graeme, F. B. Pergamin. Geographic information systems for geoscientists:modelling with GIS. Computer Methods in the Geosciences, 1994, (13). 1-398
[14] Laxton, J. L. Becken, K. The design and implementation of a spatial database for the productin of geological maps. Computers &Geosciences, 1996,22 (7): 723-733
[15] Schetselar, E. M. Computerized Field-data capture and GIS analysis for generation of cross section in 3D perspective views. Computers &Geosciences, 1995,21 (5): 687-701
[16] 马建文,阎积惠.地理信息系统及资源信息综合.北京:地质出版社,1994
[17] 李青元.基于三维GIS的数字化地质报告,煤田地质研究文集.北京:煤炭工业出版社.1996
[18] 王学军,贾冰嫒.地理信息系统.北京:中国环境科学出版社,1993
[19] 邬伦,任付虎等.地理信息系统教程.北京:北京大学出版社,1994
[20] 窦建伟,邵龙义等.应用地理信息系统处理地质信息的讨论.岩相古地理,1997,17(5):57—64
[21] 高大钊.土力学可靠性原理.北京:建筑工业出版社,1989
[22] 1947
[23] Freudenthal, A.M., "Safety and Probability of Structural Failure", Proc., ASCE, V. 80, No. 408, 563, 1954; V. 81, No. 664, 765, 1955
[24] Cornell, C.A., "A Normative Second-Moment Reliability Theory for Structural Design", Solid Mechanics Division, Univ. of Waterloo, Waterloo, Outario, Canada, 1969
[25] Ang, A.H-S., W.T, "Probability Concepts in Engineering Planning and Design" ,Tohn Wiley & Sons, Inc, New York, V. 1,1975; V. 2, 1984
[26] 建筑结构安全性研究组.“建筑结构安全性理论的发展与应用”.《建筑结构学报》,1980,1:23—28
[27] 中国建筑科学研究院建筑结构研究所规范研究室.“以概率论为基础的极限状态设计方法—我国《建筑结构设计统一标准》(初稿中若干概念问题)”.《建筑结构学报》,1981,4:34—40
[28] Casagrande, A. "Role of The Calculated Risk in Earthwork and Foundtation Engineering(The Terzaghi Lecture)", ASCE, Vol. 91, SM4, 1956
[29] Wu, T.H.&Kraft, L.M., "The Probability of Foundation Safety", ASCE, V. 93, SM5, 1967
[30] Wu, T.H., Kraft, L.M., "Safety Analysis of Slope", ASCE, V. 96, SM2, 1970
[31] Wu, T.H., "Uncertainty, Safety and Decision in Soil Engineering", ASCE, V. 100, GT3, 1974
[32] Wu, T.H., Thayer, W.B., Lin, S.S., "Stability of Embankment on Clay", ASCE, V. 101, GT9, 1975
[33] Lumb, P., "Application of Statistics in Soil Mechanics", Soil Mechanics:New Horizons. I.K. Lee ed, Newnes-Butterworth, 1974
[34] Lumb, P., "Variability of Natural Soil", Canadian Geotechnical Joural, V. 3, No. 2, 1966
[35] Lumb, P., "Safety Factors and The Probability Distribution of Siol Strength", Ganadian Geotechnical Journal, V. 7, No. 3, 1970
[36] Vanmarcke, E.E., "Probabilistic Mideling of Soil Profiles", ASCE, V. 103, GT11, 1977
[37] Vanmarcke, E.E., "Reliability of Earth Slopes", ASCE, V. 103, GT11, 1977
[38] Vanmarcke, E.E., "Probabilistic Stability Analysis of Earth Slopes" Engineering Geology, V. 16, 1980
[39] Ingles, O.G., "Statistics, Probability and Trends", Myers Medal Lecture in Design and Construction of Flexible Parements, Unisearch, 2, AI-30, 1978
[40] Ingles, O.G. , "Human Factors and Error in Civil Engineering", Pro. 3 r d Int, Conf. Application of Stats. and Prob. in Soil and Struct. Engg. V. 3
[41] Harr, M.E., "Mechanics of Particulate Media: A Probabilistic Approach", Mc Graw Hill New York, 1977
[42] 刘宏梅.“关于可靠性方法的现状及其可行性”.《概率论与统计学在岩土工程中的应用》专题学术座谈会专辑,1983:56—67
[43] 高大钊,魏道垛.“试论概率方法在岩土工程中的应用与地位”.《概率论与统计学在岩土工程中的应用》专题学术座谈会专辑,1983:78—83
[44] 高大钊.“岩土工程的可靠性分析”.《岩土工程学报》,1983,3:5—9
[45] 包承纲.“土工中的可靠性设计问题”.《人民长江》,1984,1:16—22
[46] 盛崇文.“用概率方法预报砂性土地基的沉降”.《岩土工程学报》,1982,1:21—25
[47] 包承纲.“多层地基沉降的概率分析”.《第四届土力学及基础工程学术会议论文选集》,1986
[48] 熊兴邦,高大钊.“关于低塑性土地基承载力表的修订”.建筑科学研究报告,1985,No2-1
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