非地震地球物理软件发展现状与趋势
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摘要
分析了加拿大、澳大利亚、美国、英国等石油公司和矿业公司及国内各科研院所、高等院校和地勘单位研发的非地震勘探领域的地球物理软件的功能及特色,就航遥中心研发的AirProbe等软件与Oasis montaj软件进行了对比,在此基础上提出了非地震地球物理软件将朝着一体化、平台化、并行化、可视化、国际化方向发展。
This paper reviewed the key features of non-seismic exploration domain software developed by oil companies and mining companies in such foreign countries as Canada,Australia,the United States and Britain as well as by research institutes,colleges and universities and geological exploration units in China.On the basis of a comparative analysis of the Geosoft's Oasis montaj and AGRS's software like AirProbe,the authors hold that the development direction of non-seismic geophysical software is integration,platformization,parallelization,visualization and internationalization.
This paper reviewed the key features of non-seismic exploration domain software developed by oil companies and mining companies in such foreign countries as Canada,Australia,the United States and Britain as well as by research institutes,colleges and universities and geological exploration units in China.On the basis of a comparative analysis of the Geosoft's Oasis montaj and AGRS's software like AirProbe,the authors hold that the development direction of non-seismic geophysical software is integration,platformization,parallelization,visualization and internationalization.
引文
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[38]黄易,师学明,范建柯,等.并行计算技术及其在勘探地球物理学中的现状与展望[J].地球物理学进展,2010,25(2):642-649.
[39]王宏琳.地球物理软件体系结构研究[J].石油地球物理勘探,2008,43(5):606-611.
[40]文百红,杨辉,张研.中国石油非地震勘探技术应用现状及发展趋势[J].石油勘探与开发,2005,32(2):68-71.
[2]Smith R S,Thurston J B,Dai Tingfan,et al.The Improved SourceParameter Imaging Method[J].Geophysical Prospecting,1998,46:141-151.
[3]Oasis montaj[EB/OL].[2011-01-05].http://www.geosoft.com/pinfo/oasismontaj/index.asp.
[4]Fugro-LCT Software?[EB/OL].[2011-01-05].http://www.fugro-gravmag.com/service/software.php.2000.
[5]Wellmann J F,Horowitz F G,Schill E.Towards incorporating un-certainty of structural data in 3D geological inversion[J].Tectono-physics,2010,450(1-4):141-151.
[6]Guillena A,Calcagnoa Ph,Courriouxa G,et al.Geological model-ling from field data and geological knowledge PartⅡ:Modellingvalidation using gravity and magnetic data inversion[J].Physics ofthe Earth and Planetary Interiors,2008,171(1-4):158-169.
[7]Schreiber D,Lardeaux J M,Martelet G,et al.3-D modelling of al-pinemohos in southwestern Alps[J].Geophysical Journal Interna-tional,2010,180(3):961-975.
[8]Marteleta G,Calcagnoa P,Gumiauxb C,et al.Integrated3D geo-physical and geological modelling of the Hercynian Suture Zone inthe Champtoceaux area(south Brittany,France)[J].Tectono-physics,2003,382(1-2):117-128.
[9]INTREPID software[EB/OL].[2011-01-05].http://www.intrepid-geophysics.com/ig/index.php?lang=EN&menu=prod-ucts-intrepidsoftware.
[10]ARKFIELDTM Software[EB/OL].[2011-01-05].http://www.arkex.com/software_and_technology_arkfield_software.
[11]Encom Model Vision[EB/OL].[2011-01-05].http://www.encom.com.au/template2.asp?pageid=17.
[12]GM-SYS3D Modelling[EB/OL].[2011-01-05].http://www.geosoft.com/pinfo/oasismontaj/extensions/gmsys-3d.asp.
[13]Magpick software[EB/OL].[2011-01-05].http://www.geomatrix.co.uk/magpick-software.php.
[14]QCTool[EB/OL].[2011-01-05].http://www.qc-tool.com/en/features.php.
[15]EMIGMA product overview[EB/OL].[2011-01-05].http://www.petroseikon.com/emigma/.
[16]Praga3 Gamma Ray Spec-trometry Data Processing[EB/OL].[2011-01-05].http://www.picoenvirotec.com/environment/index.php?option=com_content&task=view&id=59&Itemid=111.
[17]熊盛青.“十五”以来我国航空物探进展与展望[J].物探与化探,2007,31(6):479-484.
[18]薛典军,余钦范,梁秀娟.磁日变可视化编辑软件的开发[J].物探与化探,2002,26(2):148-151.
[19]刘浩军,薛典军,郭志宏,等.航空物探软件系统研制[J].物探与化探,2003,27(2):146-149.
[20]刘浩军.航空物探平剖图自动绘制的可视化处理[J].物探与化探,2004,28(2):147-149.
[21]郭良辉,孟小红,郭志宏,等.地球物理不规则分布数据的空间网格化法[J].物探与化探,2005,29(5):438-442.
[22]郭志宏,管志宁,熊盛青.长方体ΔT场及其梯度场无解析奇点理论表达式[J].地球物理学报,2004,47(6):1131-1138.
[23]中国地质调查局发展研究中心.重磁电数据处理软件RGIS使用手册[R].北京,2009.
[24]连剑波,张明华,董红,等.Web服务在重磁数据处理中的应用[J].桂林工学院学报,2005,25(1):72-75.
[25]连剑波,张明华,夏斌.Oracle Spatial在构建多源地学空间数据库中的应用[J].桂林工学院学报,2006,26(2):209-213.
[26]李万忠,彭仲秋,黄显义,等.跨平台地学软件开发及其应用[J].物探与化探,2008,32(5):509-513.
[27]吴文鹂,管志宁,高艳芳,等.重磁异常数据三维人机联作模拟[J].物探化探计算技术,2005,27(3):227-232.
[28]吴文鹂,高艳芳,顾文观.起伏地形重磁三维快速正演计算[J].物探化探计算技术,2009,31(3):179-182.
[29]眭素文,于长春,姚长利.起伏地形剖面重磁异常半智能处理解释软件及应用[J].物探与化探,2004,28(1):65-68.
[30]黄旭钊,范正国,梁月明,等.以先验地质资料为基础的放射性参数统计方法[J].物探与化探,2004,28(5):439-442.
[31]黄旭钊,郭志宏,徐昆.交互式航磁异常切线法系统研制[J].物探与化探,2007,31(6):572-576.
[32]刘艳,李桐林,黄旭钊,等.航磁异常轴向特征提取算法研究及其应用[J].地球物理学进展,2002,17(1):141-144.
[33]于长春,郭志宏,眭素文.航空物探领域的GIS开发与应用[J].物探化探计算技术,2003,25(1):39-44.
[34]物探方法技术及电法数据处理软件应用培训班教材[R].北京:中国地质调查局,2010.
[35]顾观文,梁萌,吴文鹂,等.CSAMT一维自动迭代和人机联作方式交替反演进行拟二维反演解释[J].物探化探计算技术,2009,31(3):193-196.
[36]顾观文,吴文鹂,高艳芳,等.电阻率/激电测深二维人机交互正演模拟[J].物探化探计算技术,2007,29:89-93.
[37]赵改善.地球物理软件技术发展趋势与战略研究[J].勘探地球物理进展,2010,33(2):77-86.
[38]黄易,师学明,范建柯,等.并行计算技术及其在勘探地球物理学中的现状与展望[J].地球物理学进展,2010,25(2):642-649.
[39]王宏琳.地球物理软件体系结构研究[J].石油地球物理勘探,2008,43(5):606-611.
[40]文百红,杨辉,张研.中国石油非地震勘探技术应用现状及发展趋势[J].石油勘探与开发,2005,32(2):68-71.
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