摘要
随着近代科学技术的发展,数学、物理学、化学、天文学、生物学的原理和方法已逐渐应用到地质学领域中来,许多新的分支科学也在逐渐形成。数学地质是地质学与数学相结合所产生的一门新的边缘学科。
正如马克思指出“科学仅当它成功地应用数学时,才算达到真正完善的地步”。数学理论和方法在地质中的应用,长期以来就是地质工作者所追求的目标。电子计算机的出现,为地质与数学的结合创造了有利的条件,这样才能使地质学进一步发展到从定性描述向定量的描述以及解释发展,才能建立地质的各种数学模型。
地学信息作为信息的一个大类,具有多样性、复杂性、不连续性、不确定性,并且人们能提供的很多信息是经验性的、半定量的、不系统的。各种信息分别反映的仅是事物的一个侧面,而多个信息的科学综合,以及从多个信息中根据科学依据提取规律,则可以大体反映事物的整体。
多元地学信息分析作为数学地质中一个重要组成部分,在综合信息成矿预测中得到了广泛的应用,主要应用于理论开发和地学找矿实践中。利用多元地学信息分析,研究多个信息彼此间的空间耦合度,并采用特征分析法,建立成矿预测量化模型,在地质统计单元基础上进行综合找矿定位预测已成为当前地学领域发展的一个新趋势。所以多元地学信息分析已成为解决地学从定性、半定量向定量转化的主要内容之一。
21世纪是计算机信息的时代,传统的地质学与信息领域的相结合是必然的趋势。在计算机的帮助下,地质学将焕发出新的时代风采。在信息集成体系的支持下使用多元地学信息分析,将会能够取得较为理想的效果。因此编制一个成熟的、在Windows环境下正常运行的多元地学信息系统软件成为了当前必须完成的任务。
多元地学信息系统这个软件正是应用多元数学作为分析数据的基本工具,并以电子计算机的高速和精确作为计算的辅助手段,对采集到
的大量矿区地学数据进行快速和准确的分析与计算,从而定量分析数据,并能得出地质现象的合理解释,对地质现象从定性分析跨越到定量分析,对靶区预测、成矿规律可以提供一定的帮助,在某种程度上可以成为一个预测系统或决策系统,成为信息技术在地学领域中的又一大扩展。
With the development of modern technology, theories and methods of Mathematics, Physics, Chemistry, Astrology and Biology have been applied into Geology, a large amount of branches have been formed. Digital Geology is a new bi-disciplinary combined with mathematics and Geology.
As pointed by Marks "Only when Mathematics could be applied in science successfully, science can be perfect". It is Geologists' aim for a long time to apply Mathematics theory and method in Geology. The emergence of computer provides a chance to combine Geology and Mathematics together. By using computer, Geology can be developed form qualitative description to quantitative description and interpretation, and establish various digital models.
As a branch of information technology, geological information has properties of diversity, complicacy, uncontinuity and uncertainty, most of that information is empirical, half quantitative and fragment, only reflect one aspect of a substance. On the other hand, integration of several information branches, extraction of information from a large number of information can reflect the whole situation of one substance.
As an important part of Digital Geology, poly-geological information analysis has been applied widely in the field of predicting ore forming. By using poly-geological information analysis, research space crossing of several kinds of information, adopt character analysis method to form modal of predicting ore. prodicting location of ore based on unit of geology statistics which has become a trend in the current development of Geology. Therefore, poly-geological analysis has become one important part of the transition from qualitative, half quantity to quantity in Geology.
21~(st) century is a time for computer information. It is an inevitable
trend to combine geology and the field of information. With the help of computer, Geology will have a new development. Use poly-geological information analysis under the support of information system will bring a satisfied result. Thus, develop a mature poly-geological information system which can be run successfully under Windows operating has become a task.
Software poly-geological information analysis use Poly-mathematics as a basic tool, use fast and accurate computation of computer as assistant, this system computes and analyzes geological data extracted from ore region quickly and accurately, analyzes data quantitatively, and interprets geological phenomenon reasonably, analyzes geological phenomenon from qualitative analysis to quantitative analysis, provides a help for predicting good region and forming ore. Not only a predict system or strategic system at some extent, it is also a progress for the application of information technology in the field of Geology.
引文
[1] 萨师喧,王珊.数据库系统概论(第三版).北京:高等教育出版社,2002
[2] 刘炳文.全国计算机等级考试二级教程—VISUAL BASI语言程序设计(修订版).北京:高等教育出版社 2002
[3] 谭浩强,薛淑斌,袁玫.VISUAL BASIC程序设计2004.北京:清华大学出版社 2004
[6] Bob Reselman, Richard Peasley, Wayne Prachniah. VISUAL BASIC 6使用指南,田金兰等译,北京:电子工业出版社,1999
[7] 李鸿吉,VISUAL BASIC 6.0编程方法详解,北京:科学出版社,2001
[8] 李鸿吉,张菊明 电子计算机制图方法及其应用 北京:地质出版社,1981
[9] 韩於羹,应用数理统计,北京:北京航空航天大学出版社,2002
[10] 上海师范大学数学系概率统计教研组,回归分析及其试验设计,上海:上海教育出版社,1978
[11] 赵旭东,石油数学地质概论.北京:石油工业出版社,1992
[12] 赵选民,徐伟,师义民等.数理统计(第二版)北京:科学出版社,2002
[13] 中国科学院计算中心概率统计组 概率统计计算.北京:科学出版社,1979
[14] 郭文魁.金属矿床地质的发展[J].矿床地质,1991,10(1):1~9
[15] 陈毓川,裴荣富,宋天锐.中国矿床成矿系列初论[M].北京:地质出版社,1998
[16] 周复恭,倪加勋,朱汉江等,应用数理统计学 北京:中国人民大学出版社,1995
[17] 中国科学院数学研究所数理统计组,回归分析方法,北京:科学出版社,1974
[18] 翟裕生,姚书振,崔彬等,成矿系列研究[M].武汉:中国地质大学出版社,1996
[19] 中国科学院数学研究所编,数学地质引论,北京:地质出版社,1977
[20] Japues L A, Wyborn L A I, Gallagbe R. The role of geographic information system, empirical modeling and expert systems in metallogenic research [A]. 12th Australian Geological Convention, Geological Society of Australia Abstract (No.37) [s.l.]: Perth, 1994, 196~197
[21] 中国科学院数学研究所编,多元分析资料汇编,1974-1976
[22] 徐阵邦,娄元仁,数学地质基础 北京:北京大学出版社,1994
[23] 李公时,谢国柱 数学地质教程 长沙:中南工业大学出版社,1989
[24] 王世称,陈永良,夏立显.综合信息矿产预测理论与方法[M].第一版.北京:科学出版社,2000.3
[25] 赵鹏大,池顺都,李志德等.矿产勘查理论与方法[M].第一版.北京:中国地质大学出版社,2001.7
[26] 赵鹏大,定量地学方法及应用 北京:高等教育出版社 2004
[27] 余建英,何旭宏 数据统计分析与SPSS应用 北京:人民邮电出版社,2003
[28] 方开泰,潘恩沛 聚类分析 北京:地质出版社 1982
[29] Richard BM, Joseph MB, Rlchard SL, Roger WB. Characteristic Analysis-1981: Final program and a possible discobery. Math. Geol, 1983, 15(1):59~83
[30] 卢文岱 SPSS FOR WINDOWS统计分析 北京:电子工业出版社 2005
[31] 王世称、陈永清.成矿系列预测的基本原则及特点[J].地质找矿论丛,1994,9(4):79~85
[32] 薛顺荣,胡光道,丁俊.成矿预测研究现状及发展趋势[J].云南地质,2001,20(4):411~416
[33] C. M. Knox-Robinson, L. A. I. Wybom. Towards a holistic exploration strategy:Using geographic information systems as a tool to enhance exploration[J]. Australian journal of earth sciences, 1997, 44:453~463
[34] 秦德先,高建国等,矿床数学经济模型 昆明:云南科技出版社2001
[35] 赵鹏大,胡亮旺,李紫金 矿床统计预测 北京:地质出版社 1983
[36] Woodall R. Empiricism and concept in successful mineral exploration[J]. Australian Journal of Earth Sciences, 1994, 41(1):1~10
[37] 肖克炎.应用综合信息法研究成矿规律及成矿预测的新进展[J].地球科学进展,1994,9(2):18~23
[38] 张炳熹.50年来中国地质科学技术进步与展望[M].第一版.北京:地质出版社,2000.11
[39] C. P. Watson, A. N. Rencz and G. F. Bonham-Carte. Geographic information system are being applied to mineral resource assessment in Northem New Brunswiek[J], GEOS, 1989, 18(1)
[40] Lyle A. Burgess. Recent applications and research into minenal prospective mapping using GIS[J]. Proceeding of third national forum on GIS in the geosciences, AGSO, 1997, 121~129
[57] Houlding S M. 3D Geoscience Modeling Computer Technique for Geological Characterization[J]. Berlin: Springer-verlag, 1994
[41] Donald A.Singer.资源定量评价发展方向展望[J].地球科学—中国地质大学学报,2001,26(2):152~156
[42] 陈石羡.地理信息系统在金属矿产预测中的应用[J].地质找矿论丛,1998,13(1):74~83
[43] 刘治国,池顺都,周顺平.成矿预测中应用GIS的主要步骤[J].地质找矿论丛,2002,17(2):140~144
[44] 高建国个旧矿区龙树脚矿段综合信息成矿预测与资源合理开发利用 昆明:地质出版社
[45] Wu Liao fang, Cai Zhong hang, et al. Integration and Sharing of Geo-Spatial Data Based on Data Engine Geo-Spatial Information Secience[quarterly], 2003
[46] Joon Aeo. Spatial and Temporal Functional Requirements for an Extended Parcel-based Land Information System. ASCE Journal of Surveying Engineering, 2004
[47] Bonham-carter, G. G, Geographic Information Systems and the Analysis of Mineral Exploration Datasets, Silver Anniversary Meeting of Assotiation For Mathematical Geology, 1993
[48] 高建国,念红良,个旧南部地区锡区铜多金属成矿作用 昆明理工大学学报,2004
[49] 罗积玉,刑英,苏显康等 微机用多元统计分析软件 成都:四川科学技术出版社,1986
[50] 潘恩沛等,多元统计分析程序集,北京:原子能出版社,1984
[51] Mathematical Tools For Applied Multivariate Analysis Paul E. Green, j. Douglas Carroll, 1976
[52] 杨纪柯 数理统计方法在医学科学中的应用,上海:上海科学技术出版社
[53] 王学仁 地质数据的多变量统计分析,北京:科学出版社,1982