露天煤矿采场三维模型构建与应用研究
|
摘要
露天矿的开采过程是按照一定的剥采程序进行的,矿山工程的时空发展过程实质上是露天采场三维地理空间信息按照时间维度的动态变更过程。不论是开采设计、生产计划编制、工程测量验收,还是生产管理等技术工作,都是对描述剥、采、排矿山工程时空位置的露天采场三维地理空间信息数据的加工处理和控制的过程,因此建立露天采场精确的三维模型具有重要的理论和实际意义,该模型将是数字露天开采中的重要的基础地理空间数据,为露天矿的生产提供重要的基础地理空间信息和决策支持。归纳起来,本文主要完成了以下几项工作:
(1)利用先进的GPS-RTK技术,进行露天矿采场和排土场的三维数据采集,并进行合理的数据编码,提高内业数据处理的自动化水平,通过数据逻辑检验与校正,交互式编辑后形成采场的现状平面图。
(2)由于露天矿采场复杂特殊的地形特征,在建模过程中应充分考虑相应的约束条件,本文提出一次性约束三角网生成算法,经过空间数据提取、拓扑关系建立以及空间索引建立,最终建立起边界约束线以内的约束不规则三角网,大大提高了建模精度和分类算量精度,具有现实的理论意义和应用价值。
(3)露天采矿过程引起采场地理空间数据的连续变化,采场三维模型的更新技术和方法是技术关键。本文提出扩展边界概念,利用扩展边界及上述三角网生成算法,可实现局部模型建立以及局部模型与整体模型间的无缝拼接,最终完成整体DEM模型的更新。
(4)根据每月测量验收后获得的采场、排土场高精度的三维模型,本文采用基态修正模型来建立露天矿采场时空数据库,实现了露天矿采剥量的精确计算;结合虚拟现实技术实现开采过程的回放和生产计划的超前演示;实现了基于采场三维精细模型的采、排长(短)期生产计划编制,为数字露天矿建设提供了基础的地理空间信息框架与平台。
The open-pit mining process is carried out in accordance with the stripping process, thespatial and temporal development process of the mining engineering essentially is the timedimension of dynamic change process of the open stope3D geographic-spatial information.Technical work no matter mining design, production planning, check-and-acceptancemeasurement, or production management, are processing and control process of open-pit3Dgeographic-spatial information data that descripes stripping, mining, exclusive miningengineering spatio-temporal location, the open-pit3D model construction has importanttheoretical and practical significance, the model will be important basic geographic-spatial dataof the open-pit mining and provides important basic geographic-spatial information and decisionsupport for open-pit production. In general, the following tasks have been completed:
(1) The3D data acquisition of the open-pit stope and dump by advanced GPS-RTKtechnology, and reasonable data coding, improves the level of automation of the indoor dataprocessing, forms present situation stope plan through logical Inspection and correction andinteractive editing of data.
(2) Due to the complicated terrain features of open pit stope,the model construction shouldfully consider the corresponding constraint condition, the paper proposes an algorithm forconstrained Delaunay triangulation establishment within one step.In this algorithm,constrainedDelaunay triangulation was finally generated within boundary,through spatial dataextraction,topological relations generation and spatial indexing generation, greatly improvemodeling accuracy and the classification volume accuracy, possesses actual theoreticalsignificance and application value.
(3) Because of continuous change of the stope geographic-spatial data caused by open-pitmining process, the stope3D model update techniques and methods becomes the keytechnology.The paper proposes the concept of extended boundary,Using the extended boundaryand the construction algorithm of TIN,part model generation and seamless splicing between partmodel and whole model could be achieved for the whole model update of DEM at last.
(4) According to the high-precision3D model of the open-pit stope and dump acquired bythe monthly check-and-acceptance measurement,the paper establishes the stope spatio-temporaldatabase with essential status revision model, achieves precise calculation of the stope exploitation volume;Combination of Virtual Reality technology, actualizes theexploitation-process playback and production-plan ahead demonstration, establishes theframework and platform of basic geographic-spatial information for the digital open-pitconstruction.
(1)利用先进的GPS-RTK技术,进行露天矿采场和排土场的三维数据采集,并进行合理的数据编码,提高内业数据处理的自动化水平,通过数据逻辑检验与校正,交互式编辑后形成采场的现状平面图。
(2)由于露天矿采场复杂特殊的地形特征,在建模过程中应充分考虑相应的约束条件,本文提出一次性约束三角网生成算法,经过空间数据提取、拓扑关系建立以及空间索引建立,最终建立起边界约束线以内的约束不规则三角网,大大提高了建模精度和分类算量精度,具有现实的理论意义和应用价值。
(3)露天采矿过程引起采场地理空间数据的连续变化,采场三维模型的更新技术和方法是技术关键。本文提出扩展边界概念,利用扩展边界及上述三角网生成算法,可实现局部模型建立以及局部模型与整体模型间的无缝拼接,最终完成整体DEM模型的更新。
(4)根据每月测量验收后获得的采场、排土场高精度的三维模型,本文采用基态修正模型来建立露天矿采场时空数据库,实现了露天矿采剥量的精确计算;结合虚拟现实技术实现开采过程的回放和生产计划的超前演示;实现了基于采场三维精细模型的采、排长(短)期生产计划编制,为数字露天矿建设提供了基础的地理空间信息框架与平台。
The open-pit mining process is carried out in accordance with the stripping process, thespatial and temporal development process of the mining engineering essentially is the timedimension of dynamic change process of the open stope3D geographic-spatial information.Technical work no matter mining design, production planning, check-and-acceptancemeasurement, or production management, are processing and control process of open-pit3Dgeographic-spatial information data that descripes stripping, mining, exclusive miningengineering spatio-temporal location, the open-pit3D model construction has importanttheoretical and practical significance, the model will be important basic geographic-spatial dataof the open-pit mining and provides important basic geographic-spatial information and decisionsupport for open-pit production. In general, the following tasks have been completed:
(1) The3D data acquisition of the open-pit stope and dump by advanced GPS-RTKtechnology, and reasonable data coding, improves the level of automation of the indoor dataprocessing, forms present situation stope plan through logical Inspection and correction andinteractive editing of data.
(2) Due to the complicated terrain features of open pit stope,the model construction shouldfully consider the corresponding constraint condition, the paper proposes an algorithm forconstrained Delaunay triangulation establishment within one step.In this algorithm,constrainedDelaunay triangulation was finally generated within boundary,through spatial dataextraction,topological relations generation and spatial indexing generation, greatly improvemodeling accuracy and the classification volume accuracy, possesses actual theoreticalsignificance and application value.
(3) Because of continuous change of the stope geographic-spatial data caused by open-pitmining process, the stope3D model update techniques and methods becomes the keytechnology.The paper proposes the concept of extended boundary,Using the extended boundaryand the construction algorithm of TIN,part model generation and seamless splicing between partmodel and whole model could be achieved for the whole model update of DEM at last.
(4) According to the high-precision3D model of the open-pit stope and dump acquired bythe monthly check-and-acceptance measurement,the paper establishes the stope spatio-temporaldatabase with essential status revision model, achieves precise calculation of the stope exploitation volume;Combination of Virtual Reality technology, actualizes theexploitation-process playback and production-plan ahead demonstration, establishes theframework and platform of basic geographic-spatial information for the digital open-pitconstruction.
引文
[1]冯夏庭,刁心宏,王永嘉.21世纪的采矿-智能采矿[J].现代矿业,2010:77-79.
[2]卢新明,尹红.数字矿山的定义、内涵与进展[J].2010,38(1):48-52.
[3]吕鹏飞,郭军.我国煤矿数字化矿山发展现状及关键技术探讨[J].工矿自动化,2009(9):16-20.
[4]游安弼,李兵磊.数字矿山建模技术及其展望[J].采矿技术,2006,6(2):59-61.
[5]王大江,张英,李永明.构建数字矿山存在的问题与对策[J].中国矿业,2004,6(10):70-72.
[6]僧德文,李仲学,张顺堂,等.数字矿山系统框架与关键技术研究[J].金属矿山,2005(12):47-50.
[7]张申,丁恩杰,赵小虎,等.数字矿山系统框架与关键技术研究[J].煤炭学报,2007,32(9):997-1001.
[8]朱超,吴仲雄,张诗启.数字矿山的研究现状和发展趋势[J].中国矿业,1999(专):77-79.
[9]吴立新,殷作如,钟亚平.再论数字矿山:特征、框架与关键技术[J].煤炭学报,2003,28(2):1-7.
[10]杨志勇.露天矿数字矿山建设思路探讨[J].露天采矿技术,2012,1:59-62.
[11]骆力.数字矿山特征及建设探析[J].金属矿山,2009,44(5):36-39,59.
[12]吴立新.数字地球、数字中国与数字矿区[J].矿山测量,2000,(1):6-9.
[13]王青,吴惠城,牛京考.数字矿山的功能内涵及系统构成[J].中国矿业,2004,13(1):7-10.
[14]刁鑫鹏,贾朋风.“数字矿山”基本框架及其构建技术的研究[J].企业导报,2009(4):115-117.
[15]杨靖英,宋会传,赵春峰,等.基于网格化信息的数字矿山建设[J].矿业工程,2009,7(5):60-62.
[16]李肖锋,邓华梅,袁海平.数字化矿山三维空间模型的建立与研究[J].矿业快报,2008,(12):31-32.
[17]耿春雨.露天矿虚拟采场模型的构建与应用[D].辽宁:辽宁工程技术大学,2009.
[18] Hu J.X.,Wu L.X.,Ying Z R.,et al.Study on Digital Mine and Related KeyTechnologies[M].Towadrs Digital Earth:Science Perss,1999.
[19] Shuey S A. Mining technology for the21st century: Inco digs deep in Sudbury[J].Eng&Mining J_China,1999(2):7-11.
[20]蒋京名,王李管.DIMINE矿业软件推动我国数字化矿山发展[J].中国矿业,2009,18(10):90-92.
[21]孙璐,戴晓江.建立矿山三维模型中3Dmine矿业软件的应用[J].中国非金属矿工业导刊,2010,1:60-62.
[22]李德,曾庆田,汪德文,等.三维可视化矿业软件综合应用技术研究[J].采矿技术,2009,9(1):19-23.
[23]曹志勇,郝海森.全站仪在坐标测量和放样中的应用[J].河北工程技术高等专科学校学报.2005,9(3):29-31.
[24]朱惠明,张方宇.RTK技术在土地复垦项目竣工验收测量中的应用[J].城市勘测,2007(3):25-27.
[25]刘军等.GPS-RTK在工程放样中的应用[J].江苏省测绘学会2003学术年会专辑2003:45-46.
[26]张小勤,张发.使用GPS系统进行我矿验收测量的探讨[J].北京测绘,2004(4):48-50.
[27]罗旭,韩明新.GPS在露天矿的应用研究与探讨[J].露天采矿技术,2003(2):31-33.
[28] Bajaj C.L.,Bernardini F.,and Xu G..Automatic reconstruction of surfaces andscalar fields from3D scans[J]. Proceedings of the22nd annual conference onComputer graphics and interactive techniques,1995:109-118.
[29] Bolle R.M.and Vemuri B.C..On three-dimensional surface reconstructionmethods[J].IEEE Transactions on Pattern Analysis and Machine Intelligence,1991,13(1):1-13.
[30] Früh C.and Zakhor A..3D model generation for cities using aerial photographs andground level laser scans[J].Proceedings of the2001IEEE Computer SocietyConference on,2001,2.
[31]郑德华,雷伟刚.地面三维激光影像扫描测量技术[J].铁路航测,2003(3):26-28.
[32]张远智,胡广洋,刘玉彤,等.基于工程应用的3维激光扫描系统[J].测绘通报,2002(1):34-36.
[33]陈静,李清泉,李必军.激光扫描测量系统的应用研究[J].测绘工程,2001,10(1):49-52.
[34]樊强,陈大为,习俊通.高精度激光点扫描三维测量系统及应用[J].上海交通大学学报,2006,2.
[35]郑俊锋,于水敬,张志友,等.三维激光扫描系统在测绘技术中的应用前景[J].科技信息,2007(30):10,36.
[36]张祖勋,张剑清,张力.数字摄影测量发展的机遇与挑战[J].武汉测绘科技大学学报,2000,2:7-11.
[37]马立广.地面三维激光扫描测量技术研究[D].湖北:武汉大学,2005.
[38]李德仁主编.摄影测量与遥感概论[M].北京:测绘出版社,2001.
[39]裴亮,林卉,李伟东.摄影测量学基础[M].北京:教育科学出版社,2003.
[40]任占营,李克民.露天矿采场验收数据采集编码技术与应用[J].露天采矿技术,2005(6):24-26,29.
[41]王来生,鞠时光,郭铁雄,等.大比例尺地形图机助绘图算法及程序[M].北京:测绘出版社,2000.
[42]张彦彦,周卫,郝思宝.基于AutoCAD二次开发的矢量地形数据检查[J].现代测绘,2006,29(6):16-19.
[43]江帆.DEM表面建模与精度评估方法研究[D].河南:中国人民解放军信息工程大学,2006.
[44]李志林,朱庆.数字高程模型[M].湖北:武汉大学出版社,2001.
[45] Dong Shan,Song Weidong,Li Lanyong.Logical inspection and correction ofcheck-acceptance survey plan in open-cast mine[J].International Society for MineSurveying XIV International Congress,2010.9:431-435.
[46]肖汉金.露天矿GPS验收测量与采场三维建模方法研究[D].辽宁:辽宁工程技术大学,2007.
[47] Fei Xiao,Feng Ling,Yun Du,et al.Digital Terrain Analysis Based on DEM[J].Journalof Mountain Science,2010,7(2):133-145.
[48] Ai-gong Xu.GPS based checking survey and precise DEM development in Openmine[J].Journal of Coal Science and Engineering (China),2008,14(2):291-293.
[49] James J.Little,Ping Shi.Ordering Points for Incremental TIN Construction fromDEMs[J].GeoInformatica,2003,7(1):33-53.
[50]程绍恭.基于VBA的AUTOCAD二次开发在露天模拟开采中的应用研究[D].辽宁:辽宁工程技术大学,2007.
[51]徐青,常歌,杨力.基于自适应分块TIN三角网构建算法[J].中国图形图像学报,2000,5(6):461-465.
[52] Tsai V J D.Delaunay Triangulations in TIN Creation: Overview and a Linear-timeAlgorithm[J].International Journal of GIS,1993,7(6):501-524.
[53] Petrie G,Kennie T J M.Terrain Modeling in Surveying and Civil Engineering[J].Computer Aided Design,1987,9(4):171-187.
[54] Yanbing Wang,Lixin Wu,Wenzhong Shi.Constrained edge dynamic deleting in CD-TINbased on influence domain retriangulation of virtual point[J].Geo-SpatialInformation Science,2007,10(3):208-212.
[55] Renchun Tan,Lan Yao.Optimized triangulation algorithm in terrain modeling[J].Geo-Spatial Information Science,2007,10(1):71-74.
[56] TSAI V J D.Delaunay Triangulations in TIN Creation: Overview and a Linear-timeAlgorithm[J].International Journal of GIS,1993,7(6):501-524.
[57]吴立新,史文中.地理信息系统原理与算法[M].北京:科学出版社,2003.
[58]汤国安,刘学军,闾国年.数字高程模型及地学分析的原理与方法[M].北京:科学出版社,2006.
[59]肖汉金,徐爱功,宋伟东.约束条件下露天矿精细DEM的建模方法研究[J].测绘科学,2008,33(6):41-43.
[60]朱庆,陈楚江.不规则三角网的快速建立及其动态更新[J].武汉测绘科技大学学报,1998,23(3):204-207.
[61]刘学军,龚健雅.约束数据域的Delaunay三角剖分与修改算法[J].测绘学报,2001,30(1):82-88.
[62] Lee D T,Schachter B J.Two Algorithms for Constructing a DelaunayTriangulation[J].Int.J.of Computer and Information sciences,1980,9(3):219-242.
[63] Christos Levcopoulos,Drago Krznaric.The greedy triangulation can be computedfrom the Delaunay triangulation in linear time[J].Computational Geometry,1999,14(4):197-220.
[64] Borut Zalik.An efficient sweep-line Delaunay triangulation algorithm[J].Compuer-Aided Design,2005(37):1027-1038.
[65] Sloan S W.A Fast Algorithm for Constructing Delaunay Triangulation in thePlane[J].Advanced Engineering Software,1987,9(1):34-55.
[66]刘永和,王燕平,齐永安.一种简单快速的Delaunay三角形逐块生成算法[J].测绘科学,2008,33(6):133-135.
[67]颜林,朱永杰.改进的构建约束Delaunay三角网的算法[J].北京石油化工学院学报,2010,18(2):41-44.
[68]刘学军,符锌砂,赵建三.三角网数字地面模型快速构建算法研究[J].中国公路学报,2000,13(2):31-36.
[69]宋晓眉,张晓东,李建林.一种高准确度的约束Delaunay三角网生成算法研究[J].地理与地理信息科学,2009,25(1):99-102.
[70]宋伟东,陈虎维,李兰勇.露天矿采场时空数据模型的构建与应用[J].测绘工程,2009,18(3):1-5.
[71]宋子岭,王东,刘毅勇.元宝山露天矿地质模型及采矿计划编制系统[J].辽宁工程技术大学学报:自然科学版,2003,22(8):12-14.
[72]赵景昌.露天矿短期采剥计划CAD及其优化研究[D].辽宁:辽宁工程技术大学,2003.
[73]胡涛.平庄西露天矿开采模型的建立及应用研究[D].辽宁:辽宁工程技术大学,2008.
[74]胡涛,白润才,曹博.AUTOCAD二次开发辅助制定露天矿短期生产计划[J].露天采矿技术,2008(3):31-32.
[75]宋子岭.VULCAN软件系统及其在元宝山露天矿的应用[J].露天采煤技术,2002(1):11-14.
[76]尹长林,喻定权.一种基于拓扑搜索的三角网求交算法[J].计算机工程与应用,2006,(36):209-211.
[77]龚健雅.GIS中面向对象时空数据模型[J].测绘学报,1997,26(1):1-6.
[78]舒红,陈军,史文中.时空数据模型研究综述.计算机科学,1998,25(6):70-74.
[79] CHEN Hu-wei,LI Lan-yong,ZHAO Guang-dong,et al.Research of establishment andapplication for spatio-temporal data models of an open pit stope [A].InternationalSociety for Mine Surveying XIII International Congress Budapest[C].Hungary:International Society for Mine Surveying,2007:106-110.
[80]王盛校.时空数据库模型研究与实现[D].北京:中国测绘科学研究院,2006.
[81]方辉.一种基态修正模型的改进模型[J].测绘与空间地理信息,2007,30(3):97-103.
[82]王贺封.时空数据模型及TGIS研究[J].测绘与空间地理信息,2006,29(4):11-13.
[83]陈新保,Songnian Li,朱建军,等.时空数据模型综述[J].地理科学进展,2009,28(1):9-16.
[84]吴清海.露天煤矿采剥量计算方法[J].煤炭工程,2008(11):21-22.
[85]张立亭,罗亦泳,杨伟,等.露天矿采剥工程量计算方法精度分析[J].煤炭工程,2008(6):34-36.
[86]罗亦泳,张立亭,杨伟,等.露天矿采剥工程量计算与可视化新方法研究[J].采矿工程,2008,29(5):30-33.
[87]杨天军,才庆祥.虚拟现实与露天煤矿规划研究[J].矿业快报,2001(2):7-9.
[88]胡福祥,蔡鸿起.虚拟现实技术在露天矿山设计中应用的展望[J].2004(2):50-51.
[89]魏锋.虚拟现实技术及其在煤矿中的应用[J].山西科技,2006(4):106-107.
[90]鹿浩,罗周全,杨彪,等.虚拟现实技术及其在矿业中的应用[J].中国钨业,2007,22(4):22-25.
[91]张威巍,刘芳,胡香.虚拟环境中三维CAD模型数据优化及重组[J].地矿测量,2008,24(3):1-3.
[92] Dillon,Ursula.The application of a geographic information system to open pit mineplanning and design[J].Queens University at Kingston (Canada),2002.
[93]吴会江,李建祥.露天矿生产计划的现状、问题与对策[J].金属矿山,2005(4):4-6.
[94] Zhu Q.,Li D.R.,Zhang Y.T.,et al.CyberCity GIS (CCGIS):Intergra-tion of DEMs,Images and3D Models[J].Photogrammetric Engineering&Remote Sensing,2002,68(4):361-367.
[95]蒋京名.DIMINE三维可视化软件在大红山铜矿生产计划编制中的应用研究[D].湖南:中南大学,2010.
[96]曾庆田,李德,汪德文,等.三维可视化地下矿采掘进度计划编制及动态管理技术[J].江西有色金属,2010,24(3-4):88-91.
[97]陈旭,徐瑞洁.西黑山露天矿数字矿山信息系统[J].科技向导,2011(24):258-259.
[98]郭军.基于3DGIS技术的数字矿山基础信息平台及其应用[J].工矿自动化,2010,1:1-5.
[99] SimonW Houlding.3D geoscience modeling-computer techniques for geologicalcharacterization[M].Springer-Verlag,1994.
[100] HOU Enke,Wu Lixin.Several Aspect Research Situation and Developing Trend of3DGeosciences Modeling[J].CoalGeology&Exploration,2000,28(6):5-7.
[101]李一帆,李枫,王慧萍.三维可视化技术在矿山工程中的应用[J].中国钨业,2009,24(1):24-28.
[102]沙明光,易志强,秦雷.三维可视化建模技术在矿山工程中的应用[J].湖南有色金属,2010,26(1):10-14.
[103] U Dillon,G Black.The use of a geographic information system for open pit minedevelopment[J].CIM Bulletin,2003,(3):119-121.
[104]何鑫.地质体三维模型构建及相关算法研究[D].湖南:中南大学,2010.
[105]王志宏,陈应显.露天矿三维可视化矿床地质模型的建立[J].辽宁工程技术大学学报:自然科学版,2004,23(2):145-147.
[106]刘云,盖俊鹏,刘颖.利用3DMine软件建立矿山地质三维模型[J].矿业工程,2009,7(5):58-59.
[107] Arnaud de la Losa,Bernard Cervelle.3D Topological Modeling and Visualizationfor3D GIS[J].Computers&Graphics,1999,23:469-478.
[108] Batty M.and Smith A..Virtuality and cities: Definitions, geographies, designs,virtual Reality in Geography[M].London:Taylor&Francis,2002.
[109] HaklayM.E.Virtual reality and GIS:Applications,trends and directions[M].London:PeterFisher and DavidUnwin (Eds.),2002.
[2]卢新明,尹红.数字矿山的定义、内涵与进展[J].2010,38(1):48-52.
[3]吕鹏飞,郭军.我国煤矿数字化矿山发展现状及关键技术探讨[J].工矿自动化,2009(9):16-20.
[4]游安弼,李兵磊.数字矿山建模技术及其展望[J].采矿技术,2006,6(2):59-61.
[5]王大江,张英,李永明.构建数字矿山存在的问题与对策[J].中国矿业,2004,6(10):70-72.
[6]僧德文,李仲学,张顺堂,等.数字矿山系统框架与关键技术研究[J].金属矿山,2005(12):47-50.
[7]张申,丁恩杰,赵小虎,等.数字矿山系统框架与关键技术研究[J].煤炭学报,2007,32(9):997-1001.
[8]朱超,吴仲雄,张诗启.数字矿山的研究现状和发展趋势[J].中国矿业,1999(专):77-79.
[9]吴立新,殷作如,钟亚平.再论数字矿山:特征、框架与关键技术[J].煤炭学报,2003,28(2):1-7.
[10]杨志勇.露天矿数字矿山建设思路探讨[J].露天采矿技术,2012,1:59-62.
[11]骆力.数字矿山特征及建设探析[J].金属矿山,2009,44(5):36-39,59.
[12]吴立新.数字地球、数字中国与数字矿区[J].矿山测量,2000,(1):6-9.
[13]王青,吴惠城,牛京考.数字矿山的功能内涵及系统构成[J].中国矿业,2004,13(1):7-10.
[14]刁鑫鹏,贾朋风.“数字矿山”基本框架及其构建技术的研究[J].企业导报,2009(4):115-117.
[15]杨靖英,宋会传,赵春峰,等.基于网格化信息的数字矿山建设[J].矿业工程,2009,7(5):60-62.
[16]李肖锋,邓华梅,袁海平.数字化矿山三维空间模型的建立与研究[J].矿业快报,2008,(12):31-32.
[17]耿春雨.露天矿虚拟采场模型的构建与应用[D].辽宁:辽宁工程技术大学,2009.
[18] Hu J.X.,Wu L.X.,Ying Z R.,et al.Study on Digital Mine and Related KeyTechnologies[M].Towadrs Digital Earth:Science Perss,1999.
[19] Shuey S A. Mining technology for the21st century: Inco digs deep in Sudbury[J].Eng&Mining J_China,1999(2):7-11.
[20]蒋京名,王李管.DIMINE矿业软件推动我国数字化矿山发展[J].中国矿业,2009,18(10):90-92.
[21]孙璐,戴晓江.建立矿山三维模型中3Dmine矿业软件的应用[J].中国非金属矿工业导刊,2010,1:60-62.
[22]李德,曾庆田,汪德文,等.三维可视化矿业软件综合应用技术研究[J].采矿技术,2009,9(1):19-23.
[23]曹志勇,郝海森.全站仪在坐标测量和放样中的应用[J].河北工程技术高等专科学校学报.2005,9(3):29-31.
[24]朱惠明,张方宇.RTK技术在土地复垦项目竣工验收测量中的应用[J].城市勘测,2007(3):25-27.
[25]刘军等.GPS-RTK在工程放样中的应用[J].江苏省测绘学会2003学术年会专辑2003:45-46.
[26]张小勤,张发.使用GPS系统进行我矿验收测量的探讨[J].北京测绘,2004(4):48-50.
[27]罗旭,韩明新.GPS在露天矿的应用研究与探讨[J].露天采矿技术,2003(2):31-33.
[28] Bajaj C.L.,Bernardini F.,and Xu G..Automatic reconstruction of surfaces andscalar fields from3D scans[J]. Proceedings of the22nd annual conference onComputer graphics and interactive techniques,1995:109-118.
[29] Bolle R.M.and Vemuri B.C..On three-dimensional surface reconstructionmethods[J].IEEE Transactions on Pattern Analysis and Machine Intelligence,1991,13(1):1-13.
[30] Früh C.and Zakhor A..3D model generation for cities using aerial photographs andground level laser scans[J].Proceedings of the2001IEEE Computer SocietyConference on,2001,2.
[31]郑德华,雷伟刚.地面三维激光影像扫描测量技术[J].铁路航测,2003(3):26-28.
[32]张远智,胡广洋,刘玉彤,等.基于工程应用的3维激光扫描系统[J].测绘通报,2002(1):34-36.
[33]陈静,李清泉,李必军.激光扫描测量系统的应用研究[J].测绘工程,2001,10(1):49-52.
[34]樊强,陈大为,习俊通.高精度激光点扫描三维测量系统及应用[J].上海交通大学学报,2006,2.
[35]郑俊锋,于水敬,张志友,等.三维激光扫描系统在测绘技术中的应用前景[J].科技信息,2007(30):10,36.
[36]张祖勋,张剑清,张力.数字摄影测量发展的机遇与挑战[J].武汉测绘科技大学学报,2000,2:7-11.
[37]马立广.地面三维激光扫描测量技术研究[D].湖北:武汉大学,2005.
[38]李德仁主编.摄影测量与遥感概论[M].北京:测绘出版社,2001.
[39]裴亮,林卉,李伟东.摄影测量学基础[M].北京:教育科学出版社,2003.
[40]任占营,李克民.露天矿采场验收数据采集编码技术与应用[J].露天采矿技术,2005(6):24-26,29.
[41]王来生,鞠时光,郭铁雄,等.大比例尺地形图机助绘图算法及程序[M].北京:测绘出版社,2000.
[42]张彦彦,周卫,郝思宝.基于AutoCAD二次开发的矢量地形数据检查[J].现代测绘,2006,29(6):16-19.
[43]江帆.DEM表面建模与精度评估方法研究[D].河南:中国人民解放军信息工程大学,2006.
[44]李志林,朱庆.数字高程模型[M].湖北:武汉大学出版社,2001.
[45] Dong Shan,Song Weidong,Li Lanyong.Logical inspection and correction ofcheck-acceptance survey plan in open-cast mine[J].International Society for MineSurveying XIV International Congress,2010.9:431-435.
[46]肖汉金.露天矿GPS验收测量与采场三维建模方法研究[D].辽宁:辽宁工程技术大学,2007.
[47] Fei Xiao,Feng Ling,Yun Du,et al.Digital Terrain Analysis Based on DEM[J].Journalof Mountain Science,2010,7(2):133-145.
[48] Ai-gong Xu.GPS based checking survey and precise DEM development in Openmine[J].Journal of Coal Science and Engineering (China),2008,14(2):291-293.
[49] James J.Little,Ping Shi.Ordering Points for Incremental TIN Construction fromDEMs[J].GeoInformatica,2003,7(1):33-53.
[50]程绍恭.基于VBA的AUTOCAD二次开发在露天模拟开采中的应用研究[D].辽宁:辽宁工程技术大学,2007.
[51]徐青,常歌,杨力.基于自适应分块TIN三角网构建算法[J].中国图形图像学报,2000,5(6):461-465.
[52] Tsai V J D.Delaunay Triangulations in TIN Creation: Overview and a Linear-timeAlgorithm[J].International Journal of GIS,1993,7(6):501-524.
[53] Petrie G,Kennie T J M.Terrain Modeling in Surveying and Civil Engineering[J].Computer Aided Design,1987,9(4):171-187.
[54] Yanbing Wang,Lixin Wu,Wenzhong Shi.Constrained edge dynamic deleting in CD-TINbased on influence domain retriangulation of virtual point[J].Geo-SpatialInformation Science,2007,10(3):208-212.
[55] Renchun Tan,Lan Yao.Optimized triangulation algorithm in terrain modeling[J].Geo-Spatial Information Science,2007,10(1):71-74.
[56] TSAI V J D.Delaunay Triangulations in TIN Creation: Overview and a Linear-timeAlgorithm[J].International Journal of GIS,1993,7(6):501-524.
[57]吴立新,史文中.地理信息系统原理与算法[M].北京:科学出版社,2003.
[58]汤国安,刘学军,闾国年.数字高程模型及地学分析的原理与方法[M].北京:科学出版社,2006.
[59]肖汉金,徐爱功,宋伟东.约束条件下露天矿精细DEM的建模方法研究[J].测绘科学,2008,33(6):41-43.
[60]朱庆,陈楚江.不规则三角网的快速建立及其动态更新[J].武汉测绘科技大学学报,1998,23(3):204-207.
[61]刘学军,龚健雅.约束数据域的Delaunay三角剖分与修改算法[J].测绘学报,2001,30(1):82-88.
[62] Lee D T,Schachter B J.Two Algorithms for Constructing a DelaunayTriangulation[J].Int.J.of Computer and Information sciences,1980,9(3):219-242.
[63] Christos Levcopoulos,Drago Krznaric.The greedy triangulation can be computedfrom the Delaunay triangulation in linear time[J].Computational Geometry,1999,14(4):197-220.
[64] Borut Zalik.An efficient sweep-line Delaunay triangulation algorithm[J].Compuer-Aided Design,2005(37):1027-1038.
[65] Sloan S W.A Fast Algorithm for Constructing Delaunay Triangulation in thePlane[J].Advanced Engineering Software,1987,9(1):34-55.
[66]刘永和,王燕平,齐永安.一种简单快速的Delaunay三角形逐块生成算法[J].测绘科学,2008,33(6):133-135.
[67]颜林,朱永杰.改进的构建约束Delaunay三角网的算法[J].北京石油化工学院学报,2010,18(2):41-44.
[68]刘学军,符锌砂,赵建三.三角网数字地面模型快速构建算法研究[J].中国公路学报,2000,13(2):31-36.
[69]宋晓眉,张晓东,李建林.一种高准确度的约束Delaunay三角网生成算法研究[J].地理与地理信息科学,2009,25(1):99-102.
[70]宋伟东,陈虎维,李兰勇.露天矿采场时空数据模型的构建与应用[J].测绘工程,2009,18(3):1-5.
[71]宋子岭,王东,刘毅勇.元宝山露天矿地质模型及采矿计划编制系统[J].辽宁工程技术大学学报:自然科学版,2003,22(8):12-14.
[72]赵景昌.露天矿短期采剥计划CAD及其优化研究[D].辽宁:辽宁工程技术大学,2003.
[73]胡涛.平庄西露天矿开采模型的建立及应用研究[D].辽宁:辽宁工程技术大学,2008.
[74]胡涛,白润才,曹博.AUTOCAD二次开发辅助制定露天矿短期生产计划[J].露天采矿技术,2008(3):31-32.
[75]宋子岭.VULCAN软件系统及其在元宝山露天矿的应用[J].露天采煤技术,2002(1):11-14.
[76]尹长林,喻定权.一种基于拓扑搜索的三角网求交算法[J].计算机工程与应用,2006,(36):209-211.
[77]龚健雅.GIS中面向对象时空数据模型[J].测绘学报,1997,26(1):1-6.
[78]舒红,陈军,史文中.时空数据模型研究综述.计算机科学,1998,25(6):70-74.
[79] CHEN Hu-wei,LI Lan-yong,ZHAO Guang-dong,et al.Research of establishment andapplication for spatio-temporal data models of an open pit stope [A].InternationalSociety for Mine Surveying XIII International Congress Budapest[C].Hungary:International Society for Mine Surveying,2007:106-110.
[80]王盛校.时空数据库模型研究与实现[D].北京:中国测绘科学研究院,2006.
[81]方辉.一种基态修正模型的改进模型[J].测绘与空间地理信息,2007,30(3):97-103.
[82]王贺封.时空数据模型及TGIS研究[J].测绘与空间地理信息,2006,29(4):11-13.
[83]陈新保,Songnian Li,朱建军,等.时空数据模型综述[J].地理科学进展,2009,28(1):9-16.
[84]吴清海.露天煤矿采剥量计算方法[J].煤炭工程,2008(11):21-22.
[85]张立亭,罗亦泳,杨伟,等.露天矿采剥工程量计算方法精度分析[J].煤炭工程,2008(6):34-36.
[86]罗亦泳,张立亭,杨伟,等.露天矿采剥工程量计算与可视化新方法研究[J].采矿工程,2008,29(5):30-33.
[87]杨天军,才庆祥.虚拟现实与露天煤矿规划研究[J].矿业快报,2001(2):7-9.
[88]胡福祥,蔡鸿起.虚拟现实技术在露天矿山设计中应用的展望[J].2004(2):50-51.
[89]魏锋.虚拟现实技术及其在煤矿中的应用[J].山西科技,2006(4):106-107.
[90]鹿浩,罗周全,杨彪,等.虚拟现实技术及其在矿业中的应用[J].中国钨业,2007,22(4):22-25.
[91]张威巍,刘芳,胡香.虚拟环境中三维CAD模型数据优化及重组[J].地矿测量,2008,24(3):1-3.
[92] Dillon,Ursula.The application of a geographic information system to open pit mineplanning and design[J].Queens University at Kingston (Canada),2002.
[93]吴会江,李建祥.露天矿生产计划的现状、问题与对策[J].金属矿山,2005(4):4-6.
[94] Zhu Q.,Li D.R.,Zhang Y.T.,et al.CyberCity GIS (CCGIS):Intergra-tion of DEMs,Images and3D Models[J].Photogrammetric Engineering&Remote Sensing,2002,68(4):361-367.
[95]蒋京名.DIMINE三维可视化软件在大红山铜矿生产计划编制中的应用研究[D].湖南:中南大学,2010.
[96]曾庆田,李德,汪德文,等.三维可视化地下矿采掘进度计划编制及动态管理技术[J].江西有色金属,2010,24(3-4):88-91.
[97]陈旭,徐瑞洁.西黑山露天矿数字矿山信息系统[J].科技向导,2011(24):258-259.
[98]郭军.基于3DGIS技术的数字矿山基础信息平台及其应用[J].工矿自动化,2010,1:1-5.
[99] SimonW Houlding.3D geoscience modeling-computer techniques for geologicalcharacterization[M].Springer-Verlag,1994.
[100] HOU Enke,Wu Lixin.Several Aspect Research Situation and Developing Trend of3DGeosciences Modeling[J].CoalGeology&Exploration,2000,28(6):5-7.
[101]李一帆,李枫,王慧萍.三维可视化技术在矿山工程中的应用[J].中国钨业,2009,24(1):24-28.
[102]沙明光,易志强,秦雷.三维可视化建模技术在矿山工程中的应用[J].湖南有色金属,2010,26(1):10-14.
[103] U Dillon,G Black.The use of a geographic information system for open pit minedevelopment[J].CIM Bulletin,2003,(3):119-121.
[104]何鑫.地质体三维模型构建及相关算法研究[D].湖南:中南大学,2010.
[105]王志宏,陈应显.露天矿三维可视化矿床地质模型的建立[J].辽宁工程技术大学学报:自然科学版,2004,23(2):145-147.
[106]刘云,盖俊鹏,刘颖.利用3DMine软件建立矿山地质三维模型[J].矿业工程,2009,7(5):58-59.
[107] Arnaud de la Losa,Bernard Cervelle.3D Topological Modeling and Visualizationfor3D GIS[J].Computers&Graphics,1999,23:469-478.
[108] Batty M.and Smith A..Virtuality and cities: Definitions, geographies, designs,virtual Reality in Geography[M].London:Taylor&Francis,2002.
[109] HaklayM.E.Virtual reality and GIS:Applications,trends and directions[M].London:PeterFisher and DavidUnwin (Eds.),2002.