• 中国出版政府奖提名奖

    中国百强科技报刊

    湖北出版政府奖

    中国高校百佳科技期刊

    中国最美期刊

    留言板

    尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

    姓名
    邮箱
    手机号码
    标题
    留言内容
    验证码

    中国学者在数学地质学科发展中的成就与贡献

    赵鹏大 夏庆霖

    赵鹏大, 夏庆霖, 2009. 中国学者在数学地质学科发展中的成就与贡献. 地球科学, 34(2): 225-231.
    引用本文: 赵鹏大, 夏庆霖, 2009. 中国学者在数学地质学科发展中的成就与贡献. 地球科学, 34(2): 225-231.
    ZHAO Peng-da, XIA Qing-lin, 2009. Chinese Scholars'Achievements and Contributions to the Development of Mathematical Geosciences. Earth Science, 34(2): 225-231.
    Citation: ZHAO Peng-da, XIA Qing-lin, 2009. Chinese Scholars'Achievements and Contributions to the Development of Mathematical Geosciences. Earth Science, 34(2): 225-231.

    中国学者在数学地质学科发展中的成就与贡献

    基金项目: 

    国土资源部重大项目“全国矿产资源潜力评价” 12120107338

    详细信息
      作者简介:

      赵鹏大(1931-), 男, 教授, 中国科学院院士, 从事数学地质和矿产勘查研究. E-mail: pdzhao@cugb.edu.cn

    • 中图分类号: P628

    Chinese Scholars'Achievements and Contributions to the Development of Mathematical Geosciences

    • 摘要:

      在过去的四十年里, 中国学者在矿产资源定量预测与评价、非线性地质学等领域取得了大量研究成果, 如提出和发展了地质异常定量预测理论、“三联式”数字找矿理论、综合信息成矿预测方法、混沌边缘成矿理论、多重分形矿产预测理论与非线性信息提取和综合技术(如C-A模型和S-A模型、模糊证据权模型)等, 并在矿产勘查、环境和地质灾害预报中得到广泛应用.中国学者对数学地质学科的发展做出了重要贡献, 并在国际数学地球科学协会、重要学术期刊和学术会议上担任重要职务.中国数学地质学科已经形成了一些具有较大学术影响的优势领域和特色方向, 并成为当今国际数学地质研究中心之一.

       

    • Agterberg, F. P., 2003. Past and future of mathematical geology. Journal of China University of Geosciences, 14 (3): 191-198.
      Bonham-Carter, G., Cheng, Q. M., 2008. Progress in geomathematics. Springer, Berlin.
      Chen, Y., 1989. Applicationin geosciences of fractal and chaos. Academic Magazine Press, Beijing (in Chinese).
      Cheng, Q. M., 1994. Multifractal modeling and spatial analysis with GIS: Gold mineral potential esti mation in the Mitchell-Sulphurets area, northwestern British Columbia (Dissertation). Univ. Ottawa, Canada.
      Cheng, Q. M., 2005. A new model for incorporating spatial association and singularity in interpolation of exploratory data. In: Leuangthong, O., Deutsch, C. V., eds., Geostatistics banff 2004. Quantitative geology and geostatistics (14). Springer, 1017-1025.
      Cheng, Q. M., 2007. Mapping singularities with streamsediment geochemical data for prediction of undiscovered mineral deposits in Gejiu, Yunnan Province, China. Ore Geol. Reviews, 32 (1-2): 314-324. doi: 10.1016/j.oregeorev.2006.10.002
      Cheng, Q. M., Agterberg, F. P., Ballantyne, S. B., 1994. The separation of geochemical anomalies from background by fractal methods. Journal of Geochemical Exploration, 51 (2): 109-130. doi: 10.1016/0375-6742(94)90013-2
      Cook, N. J., 2008. Publishingin ore geology: Reflections on 5 years of Ore Geology Reviews as an IAGOD journal. Ore Geology Reviews, 34 (3): 217-221. doi: 10.1016/j.oregeorev.2008.04.002
      Deng, J. L., 1985. The grey system. National Defence Industry Press, Beijing (in Chinese).
      Dong, W. Q., Zhou, G. Y., Xia, L. X., 1979. Quantification theory and application. Jilin People's Press, Changchun (in Chinese).
      Hou, J. R., Yin, Z. N., Li, W. M., et al., 1998. The practical geostatistics. Geological Publishing House, Beijing (in Chinese).
      Institute of Geology, Chinese Academy of Sciences, 1978. Introduction to mathematical geology. Geological Publishing House, Beijing (in Chinese).
      Li, C. J., Ma, S. H., Zhu, X. S., et al., 1999. Fractal, chaos and ANNin mineral exploration. Geological Publishing House, Beijing (in Chinese with English abstract).
      Li, Y. W., Zhao, J. M., Li, C. Y., 2007. Undiscovered mineral resources assessment based on GMS, DSS and GIS. Seismic Publishing House, Beijing (in Chinese).
      Liu, C. Z., Sun, H. W., 1981. The basic methods and application of mathematical geology. Geological Publishing House, Beijing (in Chinese).
      Lovejoy, S., Schertzer, D., 2007. Scaling and multifractal fields in the solid earth and topography. Nonlinear Processes Geophysics, 14: 465-502. doi: 10.5194/npg-14-465-2007
      Merriam, D. F., 1981. Roots of quantitative geology. In: Merriam, D. F., ed., Down-to-earth statistics, solutions looking for geological problems. Syracuse University Geology Contribution, 8: 1-15.
      Qin, C. X., Zhai, Y. S., 1992. Some self-si milarities in economic geology and their significance. Mineral Deposits, 11 (3): 259-266 (in Chinese with English abstract).
      Shen, B. M., 1993. Fractal structure factor andits application in geology. Acta Petrologica Sinica, 9 (3): 268-276 (in Chinese with English abstract).
      Wang, S. C., 2002. The theory and method of comprehensive information for mineral resources assessment. Science Press, Beijing (in Chinese).
      Wang, Z. H., 1976. Introduction to probability theory and its application. Science Press, Beijing (in Chinese).
      Xie, H. P., 1996. Fractal in rock mechanics. Science Press, Beijing (in Chinese).
      Ye, T. C., Zhu, Y. S., Xia, Q. L., et al., 2004. The method and technology for solid mineral resources prediction and assessment. Land Press, Beijing (in Chinese).
      Yu, C. W., 1987. Ore-forming processes and dissipative structures. Acta Geologica Sinica, 61 (4): 336-349 (in Chinese with English abstract).
      Yu, C. W., 2003. The complexity of geosystems. Geological Publishing House, Beijing (in Chinese).
      Yu, C. W., 2006. Fractal growth of mineral deposits at the edge of chaos. Anhui Education Press, Hefei (in Chinese).
      Zhang, Y. T., Du, J. S., 1998. The methods of probability statistics in artificial intelligence. Science Press, Beijing (in Chinese).
      Zhao, P. D., 1982. On the mathematical characteristics of geological bodies. Earth Science—Journal of Wuhan College of Geology, 7 (1): 145-155 (in Chinese with English abstract).
      Zhao, P. D., Cheng, Q. M., Xia, Q. L., 2008. Quantitative predictionfor deep mineral exploration. Journal of China University of Geosciences, 19 (4): 309-318. doi: 10.1016/S1002-0705(08)60063-1
      Zhao, P. D., Chi, S. D., 1991. A preli minary view on geological anomaly. Earth Science—Journal of China University of Geosciences, 16 (3): 241-248 (in Chinese with English abstract).
      Zhao, P. D., Hu, W. L., Li, Z. J., 1983. The statistical prediction of mineral deposits. Geological Publishing House, Beijing (in Chinese).
      Zhao, Z. Y., Xu, Y. M., 1996. Introduction to fuzzy theory and neural networks and their application. Tsinghua University Press, Beijing (in Chinese).
      Zhu, Y. S., 1984. Introduction to mineral resource evaluation methods. Geological Publishing House, Beijing (in Chnese).
      陈颙, 1989. 分形与混沌在地球科学中的应用. 北京: 学术期刊出版社.
      邓聚龙, 1985. 灰色系统. 北京: 国防工业出版社.
      董文泉, 周光亚, 夏立显, 1979. 数量化理论及其应用. 长春: 吉林人民出版社.
      侯景儒, 尹镇南, 李维明, 等, 1998. 实用地质统计学. 北京: 地质出版社.
      李长江, 麻土华, 朱兴盛, 等, 1999. 矿产勘查中的分形、混沌与ANN. 北京: 地质出版社.
      李裕伟, 赵精满, 李晨阳, 2007. 基于GMS、DSS和GIS的潜在矿产资源评价方法. 北京: 地震出版社.
      刘承祚, 孙惠文, 1981. 数学地质基本方法及应用. 北京: 地质出版社.
      秦长兴, 翟裕生, 1992. 矿床学中若干自相似现象及其意义. 矿床地质, 11 (3): 259-266. https://www.cnki.com.cn/Article/CJFDTOTAL-KCDZ199203008.htm
      沈步明, 1993. 分形结构因子及其在地质学上的应用. 岩石学报, 9 (3): 268-276. https://www.cnki.com.cn/Article/CJFDTOTAL-YSXB199303004.htm
      王世称, 2002. 综合信息矿产预测理论与方法. 北京: 科学出版社.
      王梓坤, 1976. 概率论基础及应用. 北京: 科学出版社.
      谢和平, 1996. 分形——岩石力学导论. 北京: 科学出版社.
      叶天竺, 朱裕生, 夏庆霖, 等, 2004. 固体矿产预测评价方法技术. 北京: 大地出版社.
      於崇文, 1987. 成矿作用与耗散结构. 地质学报, 61 (4): 336-349. https://www.cnki.com.cn/Article/CJFDTOTAL-DZXE198704004.htm
      於崇文, 2003. 地质系统的复杂性. 北京: 地质出版社.
      於崇文, 2006. 矿床在混沌边缘分形生长. 合肥: 安徽教育出版社.
      张尧庭, 杜劲松, 1998. 人工智能中的概率统计方法. 北京: 科学出版社.
      赵鹏大, 1982. 试论地质体的数学特征. 地球科学——武汉地质学院学报, 7 (1): 145-155. https://www.cnki.com.cn/Article/CJFDTOTAL-DQKX198201014.htm
      赵鹏大, 池顺都, 1991. 初论地质异常. 地球科学——中国地质大学学报, 16 (3): 241-248. https://www.cnki.com.cn/Article/CJFDTOTAL-DQKX199103000.htm
      赵鹏大, 胡旺亮, 李紫金, 1983. 矿床统计预测. 北京: 地质出版社.
      赵振宇, 徐用懋, 1996. 模糊理论和神经网络的基础与应用. 北京: 清华大学出版社.
      中国科学院地质研究所, 1978. 数学地质引论. 北京: 地质出版社.
      朱裕生, 1984. 矿产资源评价方法导论. 北京: 地质出版社.
    • 加载中
    计量
    • 文章访问数:  3857
    • HTML全文浏览量:  544
    • PDF下载量:  154
    • 被引次数: 0
    出版历程
    • 收稿日期:  2009-02-15
    • 刊出日期:  2009-03-25

    目录

      /

      返回文章
      返回