基于POS系统的航空摄影测量试验研究
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摘要
摄影测量的主要任务之一是利用每个立体像对上的同名点确定对应地物点的实际坐标,而获取高精度的外方位元素则是解算地物点实际位置的关键。传统的摄影测量方法是通过空三加密来确定影像的外方位元素,但这一过程需要大量的地面控制点。随着全球定位技术和惯性导航技术的迅速发展,将DGPS/IMU组合系统即POS系统引入到摄影测量中,利用GPS动态差分技术测定航摄仪的位置和速度,惯性测量单元IMU (Inertial Measurement Unit)测定其瞬时姿态,通过严格的数据后处理,可获取航片的外方位元素,从而可实现无地面控制或少量地面控制的高精度对地直接定位,进而能减少外业工作量,缩短生产周期,提高作业效率。
论文从国内外POS辅助航空摄影测量的技术出发,研究了基于POS系统的航空摄影测量的相关原理、方法、关键技术,以及POS数据处理流程,在此基础上,结合两种不同航摄比例尺的POS影像数据,以Applanix公司的POS/AV为例,从POS数据的获取和处理,到利用POS数据进行航空影像DOM的制作,在这个过程中,采用POS直接定向法和DGPS/IMU辅助空中三角测量法分别对两测区的试验结果进行比较和精度分析,并形成一套完整且可行的POS辅助航空摄影测量DOM制作的方案。
最后,本文对试验结果进行总结并提出了相关建议,对今后POS辅助航空摄影测量的进一步研究提供了方向和前景。
One goal for photogrammetry is that determine the actual coordinates of the corresponding features in point by each stereo pair on the use of the same name point, and getting the high-precision exterior orientation elements data is the key point for solving actual location of features in point. Traditional photogrammetry determines the exterior orientation elements of the image by aerotriangulation method, but the process requires a large number of ground control points. With rapid development of the global positioning technology and the inertial navigation technology, the integrated DGPS/IMU System-so called POS system, that is introduced into the photogrammetry, using Dynamic differential GPS technology measured aerial position and velocity, Inertial Measurement Unit (IMU) measured instantaneous attitude, through rigorous data processing, to obtain the exterior orientation elements of aerial photograph, which can be realized high-precision direct-to-ground position without or less ground control, then can reduce the outside workload and the production cycle time, improve operational efficiency.
The paper starting from the domestic and international POS-assisted aerial photogrammetry techniques, studying related principles, approaches, critical technologies and POS data process of aerial photogrammetry based on POS system. On this basis, from the POS data collection and processing to the use of POS data for the DOM production, combining two POS image data of different flight scales and the case of Applanix's POS/AV. In this process, analyzing and comparing the experimental results of two measure areas respectively, that obtained by Direct Georeferencing method and Integrated Sensor Orientation method. A complete and viable solution of DOM production using POS-supported photogrammetry has been worked out within this research project.
Finally, this paper give a summary of experimental results and related suggestion, It provided the direction and prospects for the further research of POS-supported photogrammetry in further.
论文从国内外POS辅助航空摄影测量的技术出发,研究了基于POS系统的航空摄影测量的相关原理、方法、关键技术,以及POS数据处理流程,在此基础上,结合两种不同航摄比例尺的POS影像数据,以Applanix公司的POS/AV为例,从POS数据的获取和处理,到利用POS数据进行航空影像DOM的制作,在这个过程中,采用POS直接定向法和DGPS/IMU辅助空中三角测量法分别对两测区的试验结果进行比较和精度分析,并形成一套完整且可行的POS辅助航空摄影测量DOM制作的方案。
最后,本文对试验结果进行总结并提出了相关建议,对今后POS辅助航空摄影测量的进一步研究提供了方向和前景。
One goal for photogrammetry is that determine the actual coordinates of the corresponding features in point by each stereo pair on the use of the same name point, and getting the high-precision exterior orientation elements data is the key point for solving actual location of features in point. Traditional photogrammetry determines the exterior orientation elements of the image by aerotriangulation method, but the process requires a large number of ground control points. With rapid development of the global positioning technology and the inertial navigation technology, the integrated DGPS/IMU System-so called POS system, that is introduced into the photogrammetry, using Dynamic differential GPS technology measured aerial position and velocity, Inertial Measurement Unit (IMU) measured instantaneous attitude, through rigorous data processing, to obtain the exterior orientation elements of aerial photograph, which can be realized high-precision direct-to-ground position without or less ground control, then can reduce the outside workload and the production cycle time, improve operational efficiency.
The paper starting from the domestic and international POS-assisted aerial photogrammetry techniques, studying related principles, approaches, critical technologies and POS data process of aerial photogrammetry based on POS system. On this basis, from the POS data collection and processing to the use of POS data for the DOM production, combining two POS image data of different flight scales and the case of Applanix's POS/AV. In this process, analyzing and comparing the experimental results of two measure areas respectively, that obtained by Direct Georeferencing method and Integrated Sensor Orientation method. A complete and viable solution of DOM production using POS-supported photogrammetry has been worked out within this research project.
Finally, this paper give a summary of experimental results and related suggestion, It provided the direction and prospects for the further research of POS-supported photogrammetry in further.
引文
[1]王之卓.摄影测量原理[M].北京:测绘出版社,1979.
[2]王之卓.摄影测量原理续篇[M].北京:测绘出版社,1986.
[3]宁津生,陈俊勇,李德仁,刘经南,张祖勋.测绘学概论[M].武汉:武汉大学出版社,2004.
[4]李德仁.GPS用于摄影测量与遥感[M].北京:测绘出版社,1996.
[5]刘基余.GPS卫星导航定位原理与方法[M].北京:科学出版社,2003.
[6]刘大杰,施一民,过静珺.全球定位系统(GPS)的原理与数据处理[M].上海:同济大学出版,1996.
[7]袁修孝.GPS辅助空中三角测量原理及应用[M].北京:测绘出版社,2001.
[8]李学友. IMU/DGPS辅助航空摄影测量原理、方法及实践[D].郑州:解放军信息工程大学博士论文,2005.
[9]刘基余,陈小明等.GPS动态载波相位测量的航摄飞行试验及其分析[J].导航,1995,(2):76-91.
[10]郭杭,刘经南GPS/INS组合系统数据处理方法[J].测绘通报,2002,(2):21-23.
[11]陈小明.高精度GPS动态定位的理论与实践[D].武汉:武汉测绘科技大学,1999.
[12]张永生.数字摄影测量[M].北京:解放军出版社,1997.
[13]单杰.摄影测量与非摄影测量观测值的联合平差[M].北京:测绘出版社,1993.
[14]袁修孝.GPS辅助空中三角测量及其质量控制[D].武汉:武汉测绘科技大学,1997.
[15]吴俊,许斌.GPS/INS组合系统的工作原理及其在航空遥感中的应用现状[J].测绘科学与工程,2006,(2):12-14.
[16]吴俊. GPS/INS辅助航空摄影测量原理及应用研究[D].郑州:中国人民解放军信息工程大学硕士论文,2006.
[17]吴芳,郑雄伟,王建超,郭大海,张宗贵.基于POS系统的1:1万比例尺正摄影像图制作[J].国土资源遥感,2007,(4):54-56.
[18]袁修孝,杨芬,赵青,明洋.机载POS系统视准轴误差检校[J].武汉大学学报,2006,(12):40-42.
[19]白志刚,鲁建伟. GPS/INS直接定向精度分析[J].全球定位系统,2009,(2):27-30.
[20]李学友,倪忠礼. IMU/DGPS辅助航空摄影测量中检校场布设方案研究[J].测绘工程,2005,(4):14-18.
[21]李学友. IMU/DGPS辅助航空摄影测量综述[J].测绘科学,2005(5):7-27.
[22]李学友,孙占义. IMU/DGPS辅助航摄项目中GPS基站布设方案试验研究[J].测绘通报,2005,(12):8-12.
[23]李学友,赵荣军等. GPS/INS辅助航测技术在大比例尺航测成图中的应用[J].测绘科学,2006,2(1):1-2.
[24]赵海涛,左正立,房成法,王光.POS辅助UCD航空摄影测量直接地理定位精度分析[J].测绘信息与工程,2008,33(3):45-46.
[25]赵海涛. DGPS/IMU辅助航空摄影测量直接对地目标定位误差分析[D].武汉:武汉大学,2006.
[26]刘经南,陈俊勇等.广域差分GPS原理和方法[M].北京:测绘出版社,1999.
[27]勾志阳,赵红颖,晏磊.无人机航空摄影质量评价[J].影像技术,2007,(2):49-52.
[28]董绪荣,张守信,华仲春. GPS/INS组合导航定位及其应用[M].长沙:国防科技大学出版社,2004.
[29]尤建红,江月松,李树楷.机载遥感直接对地定位的误差分析和精度估计[J].测绘学报,1998,27(1):86-91.
[30]蔡文惠,梁国华. IMU/DGPS辅助航空摄影测量应用探讨[J].测绘通报,2009,(4):41-43.
[31]戴立权,巩淑楠,陈世培,曲平. IMU/DGPS数据在1:50000DOM生产中的应用[J].地理信息世界,2006,(4):36-39.
[32]严海英,邓新安,石洁. IMU/DGPS辅助航测技术在1:1万航测成图中的应用试验[J].测绘通报,2007,(2):37-40.
[33]许骥.POS数据辅助立体影像自动量测[D].武汉:武汉大学硕士论文,2005.
[34]刘志俭.GPS载波相位差分技术、捷联惯性导航系统初始对准技术及其组合技术研究[D].长沙:国防科学技术大学博士论文,2003.
[35]赵永德.载波相位测量技术在GPS/INS中应用的研究[D].哈尔滨:哈尔滨工业大学硕士论文,2003.
[36]赵国军,安锦文,王若甫.基于GPS/INS的图像目标实时定位方法研究[J].西北工业大学学报,2004,22(2):189-191.
[37]张良云.惯性导航系统[M].北京:国防工业出版社,1992.
[38]张祖勋,张剑清.数字摄影测量学[M].武汉:武汉大学出版社,1997.
[39]吴晓燕,白志刚,刘敏,苗小莉.基于GPS/INS数据的多像空间前方交会[J].矿山测量,2009,(1):53-56.
[40]刘春,展昀.集成GPS/INS对线扫描影像的直接定位精度分析[J].同济大学学报,2008,36(7):990-994.
[41]刘军,王冬红,张永生.基于GPS/INS姿态测量与定位的航空摄影测量精度分析[J].测绘工程,2004,13(4):43-47.
[42]许丽佳,陈阳舟,崔平远. GPS/INS组合导航系统中的信息融合算法研究[J].计算机仿真,2004,21(5):20-23.
[43]曹福祥,袁建平,郑谔.高精度位置GPS/SINS组合导航系统研究[J].航空电子技术,1999,(1): 21-24.
[44]游文虎,蒋复兴. INS/GPS组合导航系统的数据同步技术研究[J].中国惯性技术学报,2003,(4):20-22.
[45]GB 7930—1987.1:500,1:1000,1:2000地形图航空摄影测量内业规范[S].
[46]GB/T 13990—92.1:5000,1:10000,地形图航空摄影测量内业规范[S].
[47]Applanix. POSAV V5 User Manual[R]. Ontario:Applanix Corporation,2004.
[48]Applanix. POSPac User Manual[R]. Ontario:Applanix Corporation.2004.
[49]Anke Steinbach, WORKING WITH GPS/INS, Commission I, WG 1/5, ISPRS 2004.
[50]Baumker M, Heimes F J. New Calibration and Computing Method for Direct Georeferencing of Image and Scanner Data Using the Position and Angular Data of an Hybrid Inertial Navigation System[J]. Integrated Sensor Orientation,2002,43:197-212.
[51]L. Pinto, G. Forlani. Integrated INS/DGPS Systesms:Calibration and combined block adjustment[R]. OEEPE-Workshop:Integrated Sensor Orientation, hannover, Germany,2001.
[52]Schwarz K.-P. Integrated airborne navigation systems for photogrammetry[A]. Photogra-mmetric Week'95, Wichmann, Heidelberg,139-153,1995.
[53]Cramer M. Performance of GPS/Inertial Solutionsin Photogrammetry [R]. Photogrammetric Week, Wichmann Verlag, Heidelberg,2001.
[54]Yang Y, Farrell J, Tan H-S. GPS-aided INS based control state calculation for AHS [C]. Proceedings of the American Control Conference. Arlington, VA,2001.2321-2326.
[55]Yang Yunchun, Jay A. Farrell. Magnetometer and differential carrier phase GPS-aided INS for advanced vehicle control[J]. IEEE Transactions on Robotics and Automation, 2003,19(2):269-281.
[2]王之卓.摄影测量原理续篇[M].北京:测绘出版社,1986.
[3]宁津生,陈俊勇,李德仁,刘经南,张祖勋.测绘学概论[M].武汉:武汉大学出版社,2004.
[4]李德仁.GPS用于摄影测量与遥感[M].北京:测绘出版社,1996.
[5]刘基余.GPS卫星导航定位原理与方法[M].北京:科学出版社,2003.
[6]刘大杰,施一民,过静珺.全球定位系统(GPS)的原理与数据处理[M].上海:同济大学出版,1996.
[7]袁修孝.GPS辅助空中三角测量原理及应用[M].北京:测绘出版社,2001.
[8]李学友. IMU/DGPS辅助航空摄影测量原理、方法及实践[D].郑州:解放军信息工程大学博士论文,2005.
[9]刘基余,陈小明等.GPS动态载波相位测量的航摄飞行试验及其分析[J].导航,1995,(2):76-91.
[10]郭杭,刘经南GPS/INS组合系统数据处理方法[J].测绘通报,2002,(2):21-23.
[11]陈小明.高精度GPS动态定位的理论与实践[D].武汉:武汉测绘科技大学,1999.
[12]张永生.数字摄影测量[M].北京:解放军出版社,1997.
[13]单杰.摄影测量与非摄影测量观测值的联合平差[M].北京:测绘出版社,1993.
[14]袁修孝.GPS辅助空中三角测量及其质量控制[D].武汉:武汉测绘科技大学,1997.
[15]吴俊,许斌.GPS/INS组合系统的工作原理及其在航空遥感中的应用现状[J].测绘科学与工程,2006,(2):12-14.
[16]吴俊. GPS/INS辅助航空摄影测量原理及应用研究[D].郑州:中国人民解放军信息工程大学硕士论文,2006.
[17]吴芳,郑雄伟,王建超,郭大海,张宗贵.基于POS系统的1:1万比例尺正摄影像图制作[J].国土资源遥感,2007,(4):54-56.
[18]袁修孝,杨芬,赵青,明洋.机载POS系统视准轴误差检校[J].武汉大学学报,2006,(12):40-42.
[19]白志刚,鲁建伟. GPS/INS直接定向精度分析[J].全球定位系统,2009,(2):27-30.
[20]李学友,倪忠礼. IMU/DGPS辅助航空摄影测量中检校场布设方案研究[J].测绘工程,2005,(4):14-18.
[21]李学友. IMU/DGPS辅助航空摄影测量综述[J].测绘科学,2005(5):7-27.
[22]李学友,孙占义. IMU/DGPS辅助航摄项目中GPS基站布设方案试验研究[J].测绘通报,2005,(12):8-12.
[23]李学友,赵荣军等. GPS/INS辅助航测技术在大比例尺航测成图中的应用[J].测绘科学,2006,2(1):1-2.
[24]赵海涛,左正立,房成法,王光.POS辅助UCD航空摄影测量直接地理定位精度分析[J].测绘信息与工程,2008,33(3):45-46.
[25]赵海涛. DGPS/IMU辅助航空摄影测量直接对地目标定位误差分析[D].武汉:武汉大学,2006.
[26]刘经南,陈俊勇等.广域差分GPS原理和方法[M].北京:测绘出版社,1999.
[27]勾志阳,赵红颖,晏磊.无人机航空摄影质量评价[J].影像技术,2007,(2):49-52.
[28]董绪荣,张守信,华仲春. GPS/INS组合导航定位及其应用[M].长沙:国防科技大学出版社,2004.
[29]尤建红,江月松,李树楷.机载遥感直接对地定位的误差分析和精度估计[J].测绘学报,1998,27(1):86-91.
[30]蔡文惠,梁国华. IMU/DGPS辅助航空摄影测量应用探讨[J].测绘通报,2009,(4):41-43.
[31]戴立权,巩淑楠,陈世培,曲平. IMU/DGPS数据在1:50000DOM生产中的应用[J].地理信息世界,2006,(4):36-39.
[32]严海英,邓新安,石洁. IMU/DGPS辅助航测技术在1:1万航测成图中的应用试验[J].测绘通报,2007,(2):37-40.
[33]许骥.POS数据辅助立体影像自动量测[D].武汉:武汉大学硕士论文,2005.
[34]刘志俭.GPS载波相位差分技术、捷联惯性导航系统初始对准技术及其组合技术研究[D].长沙:国防科学技术大学博士论文,2003.
[35]赵永德.载波相位测量技术在GPS/INS中应用的研究[D].哈尔滨:哈尔滨工业大学硕士论文,2003.
[36]赵国军,安锦文,王若甫.基于GPS/INS的图像目标实时定位方法研究[J].西北工业大学学报,2004,22(2):189-191.
[37]张良云.惯性导航系统[M].北京:国防工业出版社,1992.
[38]张祖勋,张剑清.数字摄影测量学[M].武汉:武汉大学出版社,1997.
[39]吴晓燕,白志刚,刘敏,苗小莉.基于GPS/INS数据的多像空间前方交会[J].矿山测量,2009,(1):53-56.
[40]刘春,展昀.集成GPS/INS对线扫描影像的直接定位精度分析[J].同济大学学报,2008,36(7):990-994.
[41]刘军,王冬红,张永生.基于GPS/INS姿态测量与定位的航空摄影测量精度分析[J].测绘工程,2004,13(4):43-47.
[42]许丽佳,陈阳舟,崔平远. GPS/INS组合导航系统中的信息融合算法研究[J].计算机仿真,2004,21(5):20-23.
[43]曹福祥,袁建平,郑谔.高精度位置GPS/SINS组合导航系统研究[J].航空电子技术,1999,(1): 21-24.
[44]游文虎,蒋复兴. INS/GPS组合导航系统的数据同步技术研究[J].中国惯性技术学报,2003,(4):20-22.
[45]GB 7930—1987.1:500,1:1000,1:2000地形图航空摄影测量内业规范[S].
[46]GB/T 13990—92.1:5000,1:10000,地形图航空摄影测量内业规范[S].
[47]Applanix. POSAV V5 User Manual[R]. Ontario:Applanix Corporation,2004.
[48]Applanix. POSPac User Manual[R]. Ontario:Applanix Corporation.2004.
[49]Anke Steinbach, WORKING WITH GPS/INS, Commission I, WG 1/5, ISPRS 2004.
[50]Baumker M, Heimes F J. New Calibration and Computing Method for Direct Georeferencing of Image and Scanner Data Using the Position and Angular Data of an Hybrid Inertial Navigation System[J]. Integrated Sensor Orientation,2002,43:197-212.
[51]L. Pinto, G. Forlani. Integrated INS/DGPS Systesms:Calibration and combined block adjustment[R]. OEEPE-Workshop:Integrated Sensor Orientation, hannover, Germany,2001.
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