基于单站地基望远镜的空间目标姿态估计方法

李正炜; 王建立; 吴元昊; 王国聪; 刘帅; 李正炜; 王建立; 吴元昊; 王国聪; 刘帅

doi:10.3788/CO.20160903.0371

[1]

王春雪.基于图像的空间目标三维姿态估计研究[D].北京:中国科学院,2014.

WANG CH X. The study of 3D pose estimation for space object based on images[D].Beijing:Graduate University of the Chinese Academy of Sciences,2014.(in Chinese)

[2]

陈娟,陈乾辉.空间目标三维姿态估计方法综述[J].长春工业大学学报(自然科学版),2008,3(29):323-327.

CHEN J,CHEN Q H. Summary of the 3D pose estimations for the space targets[J]. J. Changchun University of Technology(Natural Science Edition),2008,3(29):323-327.(in Chinese)

[3]

夏军营.空间目标的单目视觉位姿测量方法研究[D].长沙:国防科学技术大学,2012.

XIA J Y. Researches on monocular vision based pose measurements for space targets[D]. Changsha:Graduate School of National University of Defense Technology,2012.(in Chinese)

[4]

冷大炜.基于单目视觉的三维刚体目标测量技术研究[D].北京:清华大学,2011.

LENG D W. Research on monocular vision based metrology for 3D rigid object[D]. Beijing:Tsinghua University,2011.(in Chinese)

[5]

张永军,孔胃.利用单幅影像的空间目标姿态测定方法[J].西安交通大学学报,2009,9(43): 56-61.

ZHANG Y J,KONG W. Pose determination of space object with single image[J]. J. Xi'an Jiaotong University,2009,9(43):56-61.(in Chinese)

[6]

于起峰,孙祥一,邱志强.从单站光测图像确定空间目标三维姿态[J].光学技术,2002,1(28): 77-80.

YU Q F,SUN X Y,QIU ZH Q. Approach of determination of Object's 3D pose from mono-view[J]. Optical Technique,2002,1(28):77-80.(in Chinese)

[7]

张原,王志乾,乔彦峰,等.导弹发射姿态测量方法研究[J].中国光学,2015,8(6):997-1003.

ZHANG Y,WANG ZH Q,QIAO Y F,et al.. Attitude measurement method research for missile launch[J]. Chinese Optics,2015,8(6):997-1003.(in Chinese)

[8]

李晶,袁峰,胡英辉.基于多点合作目标的多线阵CCD空间物体姿态测量[J].光学精密工程,2013,21(6):269-275.

LI J,YUAN F,HU Y H. Attitude measurement of space objects based on multi-linear CCD and multi-point cooperation target[J]. Opt. Precision Eng.,2013,21(6):269-275.(in Chinese)

[9]

王彬,何昕,魏仲慧.采用多站图像直线特征的飞机姿态估计[J].光学精密工程,2013,21(7):195-203.

WANG B,HE X,WEI ZH H. Attitude estimation of aircrafts using line features on multi-camera images[J]. Opt. Precision Eng.,2013,21(7): 195-203.(in Chinese)

[10]

赵汝进,刘恩海,张文明,等.基于弱透视成像模型的目标三维姿态测量[J].光子学报,2014,5(43):0512002-1-6.

[11]

胡薇,张桂林,任仙怡.基于子空间的3D目标识别和姿态估计方法[J].红外与激光工程,2004,6(33):592-596.

HU W,ZHANG G L,REN X Y. Eigenspace-based approach for object recognition and pose estimation[J]. Infrared and Laser Engineering,2004,6(33):592-596.(in Chinese)

[12]

牛铁.基于Vega Prime的实时三维视景仿真技术的研究[D].乌鲁木齐:新疆大学,2010.

NIU T. Research of real-time 3D scene visualization technology based on Vega Prime[D]. Wulumuqi:Xinjiang University,2010.(in Chinese)

[13]

于洋,李丹.跟踪图像生成技术应用于光电设备模拟训练[J].液晶与显示,2015,30(2):166-171.

YU Y,LI D. Technology of tracking image generating applied in simulation training of photoelectric device[J]. Chinese J. Liquid Crystals and Displays,2015,30(2):166-171.

[14]

陈卫兵.几种图像相似性度量的匹配性能比较[J].计算机应用,2010,1(30): 98-100.

CHEN W B. Comparison of matching capabilities in similarity measurements[J]. J. Compute Applications,2010,1(30):98-100.(in Chinese)

[15]

卫沛锋,刘欣悦,林旭东,等.自适应光学系统测试中大气湍流的时域模拟[J].中国光学,2013,6(3):371-377.

WEI P F,LIU X Y,LIN X D,et al.. Temporal simulation of atmospheric turbulence during adaptive optics system testing[J]. Chinese Optics,2013,6(3):371-377.(in Chinese)

[16]

瞿青,曹召良,胡立发,等.位相差值法测量大气湍流格林伍德频率[J].中国光学,2015,8(1):121-129.

QU Q,CAO ZH L,HU L F,et al.. Greenwood frequency measurement of atmospheric turbulence by phase difference method[J]. Chinese Optics,2015,8(1):121-129.(in Chinese)

[17]

姜宝光,穆全全,曹召良,等.液晶波前校正器校正水平方向上的大气湍流[J].液晶与显示,2009,24(3):396-398.

JIANG B G,MU Q Q,CAO ZH L,et al.. Correction of turbulence in horizontal direction using a liquid crystal wave-front corrector[J]. Chinese J. Liquid Crystals and Displays,2009,24(3):396-398.(in Chinese)

[1]	王春雪.基于图像的空间目标三维姿态估计研究[D].北京:中国科学院,2014. WANG CH X. The study of 3D pose estimation for space object based on images[D].Beijing:Graduate University of the Chinese Academy of Sciences,2014.(in Chinese)
[2]	陈娟,陈乾辉.空间目标三维姿态估计方法综述[J].长春工业大学学报(自然科学版),2008,3(29):323-327. CHEN J,CHEN Q H. Summary of the 3D pose estimations for the space targets[J]. J. Changchun University of Technology(Natural Science Edition),2008,3(29):323-327.(in Chinese)
[3]	夏军营.空间目标的单目视觉位姿测量方法研究[D].长沙:国防科学技术大学,2012. XIA J Y. Researches on monocular vision based pose measurements for space targets[D]. Changsha:Graduate School of National University of Defense Technology,2012.(in Chinese)
[4]	冷大炜.基于单目视觉的三维刚体目标测量技术研究[D].北京:清华大学,2011. LENG D W. Research on monocular vision based metrology for 3D rigid object[D]. Beijing:Tsinghua University,2011.(in Chinese)
[5]	张永军,孔胃.利用单幅影像的空间目标姿态测定方法[J].西安交通大学学报,2009,9(43): 56-61. ZHANG Y J,KONG W. Pose determination of space object with single image[J]. J. Xi'an Jiaotong University,2009,9(43):56-61.(in Chinese)
[6]	于起峰,孙祥一,邱志强.从单站光测图像确定空间目标三维姿态[J].光学技术,2002,1(28): 77-80. YU Q F,SUN X Y,QIU ZH Q. Approach of determination of Object's 3D pose from mono-view[J]. Optical Technique,2002,1(28):77-80.(in Chinese)
[7]	张原,王志乾,乔彦峰,等.导弹发射姿态测量方法研究[J].中国光学,2015,8(6):997-1003. ZHANG Y,WANG ZH Q,QIAO Y F,et al.. Attitude measurement method research for missile launch[J]. Chinese Optics,2015,8(6):997-1003.(in Chinese)
[8]	李晶,袁峰,胡英辉.基于多点合作目标的多线阵CCD空间物体姿态测量[J].光学精密工程,2013,21(6):269-275. LI J,YUAN F,HU Y H. Attitude measurement of space objects based on multi-linear CCD and multi-point cooperation target[J]. Opt. Precision Eng.,2013,21(6):269-275.(in Chinese)
[9]	王彬,何昕,魏仲慧.采用多站图像直线特征的飞机姿态估计[J].光学精密工程,2013,21(7):195-203. WANG B,HE X,WEI ZH H. Attitude estimation of aircrafts using line features on multi-camera images[J]. Opt. Precision Eng.,2013,21(7): 195-203.(in Chinese)
[10]	赵汝进,刘恩海,张文明,等.基于弱透视成像模型的目标三维姿态测量[J].光子学报,2014,5(43):0512002-1-6.
[11]	胡薇,张桂林,任仙怡.基于子空间的3D目标识别和姿态估计方法[J].红外与激光工程,2004,6(33):592-596. HU W,ZHANG G L,REN X Y. Eigenspace-based approach for object recognition and pose estimation[J]. Infrared and Laser Engineering,2004,6(33):592-596.(in Chinese)
[12]	牛铁.基于Vega Prime的实时三维视景仿真技术的研究[D].乌鲁木齐:新疆大学,2010. NIU T. Research of real-time 3D scene visualization technology based on Vega Prime[D]. Wulumuqi:Xinjiang University,2010.(in Chinese)
[13]	于洋,李丹.跟踪图像生成技术应用于光电设备模拟训练[J].液晶与显示,2015,30(2):166-171. YU Y,LI D. Technology of tracking image generating applied in simulation training of photoelectric device[J]. Chinese J. Liquid Crystals and Displays,2015,30(2):166-171.
[14]	陈卫兵.几种图像相似性度量的匹配性能比较[J].计算机应用,2010,1(30): 98-100. CHEN W B. Comparison of matching capabilities in similarity measurements[J]. J. Compute Applications,2010,1(30):98-100.(in Chinese)
[15]	卫沛锋,刘欣悦,林旭东,等.自适应光学系统测试中大气湍流的时域模拟[J].中国光学,2013,6(3):371-377. WEI P F,LIU X Y,LIN X D,et al.. Temporal simulation of atmospheric turbulence during adaptive optics system testing[J]. Chinese Optics,2013,6(3):371-377.(in Chinese)
[16]	瞿青,曹召良,胡立发,等.位相差值法测量大气湍流格林伍德频率[J].中国光学,2015,8(1):121-129. QU Q,CAO ZH L,HU L F,et al.. Greenwood frequency measurement of atmospheric turbulence by phase difference method[J]. Chinese Optics,2015,8(1):121-129.(in Chinese)
[17]	姜宝光,穆全全,曹召良,等.液晶波前校正器校正水平方向上的大气湍流[J].液晶与显示,2009,24(3):396-398. JIANG B G,MU Q Q,CAO ZH L,et al.. Correction of turbulence in horizontal direction using a liquid crystal wave-front corrector[J]. Chinese J. Liquid Crystals and Displays,2009,24(3):396-398.(in Chinese)