机器学习与大陆板内玄武岩构造环境判别
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CABANIS B,THIEBLEMONT D. Discrimination of Continental Tholeiites and Backarc Basin Basalts Using a ThTbTa Diagram [J].Chemical Geology, 1988,70(1/2):5.
Cortes C, Vapnik V.Support-vector networks [J]. Machine Learning, 1995,20(3):273-297.
Hinton G E, Osindero S.A Fast Learning Algorithm for Deep Belief Nets[J]. Neural Computation, 2006,18(7):1527-1554.
Komac M. IGCP 624﹣OneGeology[J]. Project Report, 2015(3):5.
Li C, Arndt N T, Tang Q, etc. Trace element indiscrimination diagrams[J]. Lithos, 2015(23):76-83.
Loubet M, Sassi R, Donato G D. Mantle heterogeneities: a combined isotope and trace element approach and evidence for recycled continental crust materials in some OIB sources [J]. Earth & Planetary Science Letters, 1988, 89(3-4):299﹣315.
PEARCE J A, CANN J R.Tectonic Setting of Basic Volcanic Rocks Determined Using Trace Element Analyses[J]. Earth and Planetary
Science Letters, 1973,19(2):290-300.
Pearce J A. An expert system for the tectonic characterization of ancient volcanic rocks[J]. Journal of Volcanology & Geothermal Research,
,32(1-3):51-65.
Pearce J A. Trace element characteristics of lavas from destructive plate boundaries[J]. Andesites, 1982(8):528-548.
Rumelhart D E, Hinton G E, Williams R J. Learning internal representations by error propagation[J]. MIT Press, 1986(4):318-362.
Sarbas B, Nohl U. The GEOROC database as part of a growing
geoinformatics network[J]. Geoinformatics Poster Session, 2008(6):3.
Sch·lkopf B, Platt J, Hofmann T. Efficient Learning of Sparse
Representations with an Energy-Based Model[J]. Advances in Neural Information Processing Systems, 2006(5):1137-1144.
Sch·lkopf B, Platt J, Hofmann T. Greedy Layer-Wise Training
of Deep Networks[J]. Advances in Neural Information Processing Systems,2007(19):153-160.
Vose R S, Arndt D, Banzon V F. NOAA's Merged Land–Ocean
Surface Temperature Analysis[J]. Bulletin of the American Meteorological
Society, 2012,93(11):1677-1685.
Wood D A, Joron J L, Treuil M. A re-appraisal of the use of
trace elements to classify and discriminate between magma series erupted in different tectonic settings [J]. Earth & Planetary Science Letters,1979,45(2):326﹣336.
WOOD D A, JORON J L, TREUIL M. A Reappraisal of the Use
of Trace Elements to Classify and Discriminate Between Magma Series
Erupted in Different Tectonic Setting [J]. Earth and Planetary Science
Letters, 1979,45(2):326-336.
李曙光.蛇绿岩生成构造环境的 Ba-Th-Nb-La 判别图[J].岩石学报,1993(2):146﹣157.
刘树春.基于支持向量机和深度学习的分类算法研究[D].上海:华东师范大学,2015.
孙书勤,张成江,黄润秋.板块汇聚边缘玄武岩大地构造环境的Th、Nb、Zr 判别[J].地球科学进展,2006,21(6):593﹣598.
唐发明,王仲东,陈绵云.支持向量机多类分类算法研究[J].控制与决策,2005,20(7):746﹣749.
汪云亮,张成江.玄武岩类形成的大地构造环境的 Th/Hf—Ta/Hf 图解判别[J].岩石学报,2001,17(3):413﹣421.
王金荣,潘振杰,张旗,等.大陆板内玄武岩数据挖掘:成分多样性及在判别图中的表现[J].岩石学报,2016,32(7):1919﹣1933.
吴泰然.玄武岩的构造环境判别[J].岩石学报,1991(3):83﹣89.
夏林圻,夏祖春,徐学义,等.利用地球化学方法判别大陆玄武岩和岛弧玄武岩[J].岩石矿物学杂志,2007,26(1):77﹣89.
肖龙,徐义刚,梅厚钧,等.云南宾川地区峨眉山玄武岩地球化学特征:岩石类型及随时间演化规律[J].地质科学,2003,38(4):478﹣494.
徐夕生,谢昕.中国东南部晚中生代-新生代玄武岩与壳幔作用[J].高校地质学报,2005,11(3):318﹣334.
杨祝良.Pearce 型构造岩浆地球化学判别图评述——以玄武岩为例[J].资源调查与环境,1992(3):80﹣86.
余凯,贾磊,陈雨强,等.深度学习的昨天、今天和明天[J].计算机研究与发展,2013,50(9):1799﹣1804.
张伯友,张海祥,赵振华,等.两广交界处岑溪二叠纪岛弧型玄武岩及其古特提斯性质的讨论[J]南京大学学报自然科学,2003,39(1):46-54.
张旗.如何正确使用玄武岩判别图[J].岩石学报,1990,6(2):87-94.
赵振华.关于岩石微量元素构造环境判别图解使用的有关问题[J].大地构造与成矿学,2007,31(1):92﹣103.
朱律运.利用 LA-ICP-MP 快速准确分析火山岩全岩常、微量元素的方法研究[D].武汉:中国地质大学,2011.
DOI: http://dx.doi.org/10.26549/gcjsygl.v1i2.556
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