矿图数字化方案设计及陷落柱分布规律研究
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摘要
矿山是一种特殊的地理和工业区域,其地理空间要素和社会经济要素的内容具有广泛性、综合性、复杂性及动态性。矿图是煤矿生产的重要技术基础资料,也是矿井地质工作的主要成果。传统的矿图绘制及更新是一项十分繁琐的工作。计算机技术的应用及普及使地矿工作的信息化成为可能和时代发展的潮流。
本课题首先对矿图信息化技术现状及煤矿地质数据的特征进行分析,在比较当前数字化方法的基础上,设计出一种矿图数字化方案,并以西山煤田杜儿坪井田为例进行方案实施。同时以数字化的成果为基础对杜儿坪矿区陷落柱的分布规律进行初步研究。最后探讨了矿山地理信息系统的应用。
本文研究过程中发现通过计算机技术以数字化流程处理矿图是一种切实可行的方法,大大提高了矿图绘制及更新的效率,具有广泛的推广价值。研究中同时发现矿山地理信息系统在我国煤矿系统中有广阔的应用前景,建立实用的矿山地理信息系统将使煤矿工作发生质的飞跃。
The mine is one kind of special geographical and industrial region and its geo-spatial, social and economical factors are widespread, comprehensive, complicated and dynamic. The blueprint is the basic data and the main achievement of mine. The traditional blueprint plan and its renewal is extremely tedious work. The application of computer technology makes it possible and feasible that digitizes the collected data quickly and accurately.
The author analyzes the situation of blueprint information technology and the characteristics of the data of coal mine, designs one kind of plan for blueprint digitization, and takes the Duerping Mine in Xishan Coalfield as the example to do the test. By means of the digitized results, the author examines the distribution of collapse pillars in Duerping mining area. Finally the author discusses the application of MGIS.
This study shows it is a feasible and high efficient method to digitize the blueprint by computer. The author also discovers the MGIS has the broad application prospect in mine system in our country. MGIS will change the mine work greatly.
本课题首先对矿图信息化技术现状及煤矿地质数据的特征进行分析,在比较当前数字化方法的基础上,设计出一种矿图数字化方案,并以西山煤田杜儿坪井田为例进行方案实施。同时以数字化的成果为基础对杜儿坪矿区陷落柱的分布规律进行初步研究。最后探讨了矿山地理信息系统的应用。
本文研究过程中发现通过计算机技术以数字化流程处理矿图是一种切实可行的方法,大大提高了矿图绘制及更新的效率,具有广泛的推广价值。研究中同时发现矿山地理信息系统在我国煤矿系统中有广阔的应用前景,建立实用的矿山地理信息系统将使煤矿工作发生质的飞跃。
The mine is one kind of special geographical and industrial region and its geo-spatial, social and economical factors are widespread, comprehensive, complicated and dynamic. The blueprint is the basic data and the main achievement of mine. The traditional blueprint plan and its renewal is extremely tedious work. The application of computer technology makes it possible and feasible that digitizes the collected data quickly and accurately.
The author analyzes the situation of blueprint information technology and the characteristics of the data of coal mine, designs one kind of plan for blueprint digitization, and takes the Duerping Mine in Xishan Coalfield as the example to do the test. By means of the digitized results, the author examines the distribution of collapse pillars in Duerping mining area. Finally the author discusses the application of MGIS.
This study shows it is a feasible and high efficient method to digitize the blueprint by computer. The author also discovers the MGIS has the broad application prospect in mine system in our country. MGIS will change the mine work greatly.
引文
[1] 邬伦等,地理信息系统原理、方法和应用.科学出版社,2001.
[2] 吴冲龙,计算机技术与地矿工作信息化.地学前缘,1998,vol.5(1-2),343-353.
[3] 熊助国等,用扫描矢量化方法生成符合GIS要求的数字地图.测绘通报,2000,(7),19-23.
[4] 吴凡等,AutoCAD支持下地图数据的拓扑组织.测绘通报,1998,(2),17—21.
[5] 西山矿务局.太原西山煤田官地矿区岩溶陷落柱分析预测报告[R].1996.
[6] 谢刚生,地理信息系统中的热点问题综述,华东地质学院学报,1996,vol.22,(2),167-174.
[7] 郑贵洲等,MAPGIS图层在地图数据处理和管理中的作用,测绘学院学报,2000,vol.17,(3),216-219.
[8] 王卫安等,矢量图形数据拓扑结构的生成及应用.
[9] 石伟伟等,以GIS为核心的数字化成图系统的设计与实现,2001’中国GIS年会论文集.
[10] 郑贵洲,地理信息系统在地质学中的应用,地球科学,1998,vol.23(4),420-423.
[11] 陈逢珍等,地图、地理信息系统与数字地球,福建师范大学学报,vol.17(1),99-102.
[12][4] 地质辞典(四)—矿床地质应用地质分册[K].北京:地质出版社,1986.
[13] 中国大百科全书(地质学)[K].北京:中国大百科全书出版社,1994.
[14] 褚志忠.陷落柱伴生断层及陷落柱预测[J].煤田地质与勘探,1998,26(3),26-28
[15] 董其成等,岩溶陷落柱对综采经济效益的影响,煤炭科学技术,1989,(9),19-21.
[16] 苏昶元等,从多种地质闪素出发综合分析预测盘区内陷落柱分布状况,
西山科技,1993,(3),1—7.
[17]李文英等,西山矿区发展综采的对策,煤炭科学技术,1987,(10),39-41.
[18] 盛业华等,矿图扫描图像中坐标格网线的自动提取,中国矿业大学不报,2000,vol.29,(1),60-62.
[19] 苏昶元等,岩溶陷落柱的分析与预测,山西煤炭,1997,vol.17,(2),15-20.
[20] 苏昶元等,对岩溶陷落柱发育规律的探讨,西山科技,1996,(4),9-12.
[21] 郭天一等,综采工作面陷落柱的物探与处理,西山科技,1992,(1),6-9.
[22] 董其成等,西山煤田陷落柱形成的区域地质背景,西山科技,(3),1-4.
[23] 周平等,西峪煤矿陷落柱的发育特征与分布规律,中国煤田地质,1996,vol.8,(3),15-18.
[24] 宋伟尔等,AutoCAD与Geomedia数据转换的研究,测绘通报,2001,(2),28-29.
[25] 地理信息系统技术开发、应用与产品化,中外科技信息,1998,(12).
[26] 董其成,西山煤田陷落柱的地质特征及地震滤波研究,博士学位论文,1992.
[27] 地学专家系统,http://www.hzau.edu.cn/wsjy/dlxx/gis 45.htm.
[28] 李军等,地学数据特征分析,地理科学,1999,vol.19,(2),158-162
[29] 候遵泽等,GIS中数字化仪采集数据的处理及其应用,1996,vol.18,(2),130-133.
[30] 陈能等,GIS数字图形产品生产的质量过程控制,测绘通报,2000,(10),6-8.
[31] 刘惠德等,GIS在矿山应用中的探讨,西山科技,2000,(增刊),11-14.
[32] 毛仲玉等,GIS在煤矿中的应用及展望,东北煤炭技术,1999,(6).
[33] 李晓池等,地理信息系统在地质学中的应用,地学前缘,1995,vol.2,(1-2).
[34] 李学亮,矿山地理信息系统的现状及其发展趋向,矿山测量,1997,(2),12-14
[35] Anthony D. Hammond, An Application of GIS in Underground Mining,
www.hammond.swayne.com/GIS mining.htm.
[36] A.K . Ray & B. Mukherji, GIS approach to Statistical Modelling for Mineral Deposits in the Singhbhum Copper Belt, Bihar, India, using Geological and Geophysical parameters, Geological Survey of India.
[37] ArcView 3D Analyst, www.geo.utexas.edu/courses/371c/Labs/lab 11 .htm.
[38] DIGITAL GEOLOGIC MAP DATA MODEL, Bruce R. Johnson, Boyan Brodaric, and Gary L. Raines, 1998.
[39] Kenneth S. Johnson, 1989, Salt dissolution, interstratal karst, and ground subsidence in the northern part of the Texas Panhandle.
[40] Georgi M. Troitzky, Vladimir V. Tolmachyov, Victor P. Khomenko, 1993, Sinkhole danger-Engineering problem of covered karst.
[41] David A, Hubbard Jr., 1984, Sinkhole distribution in the central and northern Valley and Ridge province, Virginia.
[42] J.C. Currens, J.A.Ray, 1999, Karst atlas for Kentucky.
[43] Y. Singh, 1995, Morphology of pseudo-sinkholes in granitic rocks of the Bastar Craton, central India.
[44] A.C. Waltham, 1989, Karst, caves and engineering: The British experience.
[45] Aida Bahtijarevic, 1989, Sinkhole density of the Forest City quadrangle.
[2] 吴冲龙,计算机技术与地矿工作信息化.地学前缘,1998,vol.5(1-2),343-353.
[3] 熊助国等,用扫描矢量化方法生成符合GIS要求的数字地图.测绘通报,2000,(7),19-23.
[4] 吴凡等,AutoCAD支持下地图数据的拓扑组织.测绘通报,1998,(2),17—21.
[5] 西山矿务局.太原西山煤田官地矿区岩溶陷落柱分析预测报告[R].1996.
[6] 谢刚生,地理信息系统中的热点问题综述,华东地质学院学报,1996,vol.22,(2),167-174.
[7] 郑贵洲等,MAPGIS图层在地图数据处理和管理中的作用,测绘学院学报,2000,vol.17,(3),216-219.
[8] 王卫安等,矢量图形数据拓扑结构的生成及应用.
[9] 石伟伟等,以GIS为核心的数字化成图系统的设计与实现,2001’中国GIS年会论文集.
[10] 郑贵洲,地理信息系统在地质学中的应用,地球科学,1998,vol.23(4),420-423.
[11] 陈逢珍等,地图、地理信息系统与数字地球,福建师范大学学报,vol.17(1),99-102.
[12][4] 地质辞典(四)—矿床地质应用地质分册[K].北京:地质出版社,1986.
[13] 中国大百科全书(地质学)[K].北京:中国大百科全书出版社,1994.
[14] 褚志忠.陷落柱伴生断层及陷落柱预测[J].煤田地质与勘探,1998,26(3),26-28
[15] 董其成等,岩溶陷落柱对综采经济效益的影响,煤炭科学技术,1989,(9),19-21.
[16] 苏昶元等,从多种地质闪素出发综合分析预测盘区内陷落柱分布状况,
西山科技,1993,(3),1—7.
[17]李文英等,西山矿区发展综采的对策,煤炭科学技术,1987,(10),39-41.
[18] 盛业华等,矿图扫描图像中坐标格网线的自动提取,中国矿业大学不报,2000,vol.29,(1),60-62.
[19] 苏昶元等,岩溶陷落柱的分析与预测,山西煤炭,1997,vol.17,(2),15-20.
[20] 苏昶元等,对岩溶陷落柱发育规律的探讨,西山科技,1996,(4),9-12.
[21] 郭天一等,综采工作面陷落柱的物探与处理,西山科技,1992,(1),6-9.
[22] 董其成等,西山煤田陷落柱形成的区域地质背景,西山科技,(3),1-4.
[23] 周平等,西峪煤矿陷落柱的发育特征与分布规律,中国煤田地质,1996,vol.8,(3),15-18.
[24] 宋伟尔等,AutoCAD与Geomedia数据转换的研究,测绘通报,2001,(2),28-29.
[25] 地理信息系统技术开发、应用与产品化,中外科技信息,1998,(12).
[26] 董其成,西山煤田陷落柱的地质特征及地震滤波研究,博士学位论文,1992.
[27] 地学专家系统,http://www.hzau.edu.cn/wsjy/dlxx/gis 45.htm.
[28] 李军等,地学数据特征分析,地理科学,1999,vol.19,(2),158-162
[29] 候遵泽等,GIS中数字化仪采集数据的处理及其应用,1996,vol.18,(2),130-133.
[30] 陈能等,GIS数字图形产品生产的质量过程控制,测绘通报,2000,(10),6-8.
[31] 刘惠德等,GIS在矿山应用中的探讨,西山科技,2000,(增刊),11-14.
[32] 毛仲玉等,GIS在煤矿中的应用及展望,东北煤炭技术,1999,(6).
[33] 李晓池等,地理信息系统在地质学中的应用,地学前缘,1995,vol.2,(1-2).
[34] 李学亮,矿山地理信息系统的现状及其发展趋向,矿山测量,1997,(2),12-14
[35] Anthony D. Hammond, An Application of GIS in Underground Mining,
www.hammond.swayne.com/GIS mining.htm.
[36] A.K . Ray & B. Mukherji, GIS approach to Statistical Modelling for Mineral Deposits in the Singhbhum Copper Belt, Bihar, India, using Geological and Geophysical parameters, Geological Survey of India.
[37] ArcView 3D Analyst, www.geo.utexas.edu/courses/371c/Labs/lab 11 .htm.
[38] DIGITAL GEOLOGIC MAP DATA MODEL, Bruce R. Johnson, Boyan Brodaric, and Gary L. Raines, 1998.
[39] Kenneth S. Johnson, 1989, Salt dissolution, interstratal karst, and ground subsidence in the northern part of the Texas Panhandle.
[40] Georgi M. Troitzky, Vladimir V. Tolmachyov, Victor P. Khomenko, 1993, Sinkhole danger-Engineering problem of covered karst.
[41] David A, Hubbard Jr., 1984, Sinkhole distribution in the central and northern Valley and Ridge province, Virginia.
[42] J.C. Currens, J.A.Ray, 1999, Karst atlas for Kentucky.
[43] Y. Singh, 1995, Morphology of pseudo-sinkholes in granitic rocks of the Bastar Craton, central India.
[44] A.C. Waltham, 1989, Karst, caves and engineering: The British experience.
[45] Aida Bahtijarevic, 1989, Sinkhole density of the Forest City quadrangle.