Abstract

Parallax observations from staggered charge-coupled devices (CCDs) have been applied to satellite jitter detection. Nevertheless, the jitter during the initial period of an imaging process cannot be detected. This paper presents an approach that combines parallax observations with the attitude data from attitude-measuring sensors in order to detect the global jitter, including the initial jitter. Low-frequency components, which can be reconstructed from attitude data, account for most jitter energy, and determine the jitter curve’s overall shape. We introduce attitude data into parallax observations to constrain the initial jitter and find its optimum estimate. Meanwhile, an offset is extracted from parallax observation images by using a comprehensive matching method. A mathematical model is developed to demonstrate how to calculate the global jitter with the initial jitter and offset. Numerical simulation results indicate that, for pixel-level offset error, the root-mean-square error (RMSE) of the proposed method is 1.4 pixels, while the measurement error near integer multiples of characteristic frequency is amplified significantly. Experiments performed on Chinese Heavenly Palace-1 satellite show that the jitter at 0.12Hz with an amplitude about 6 pixels exists in the cross-track direction, while the down-track jitter results fail to show obvious periodicity.

© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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2017 (2)

M. Wang, C. Fan, J. Pan, S. Jin, and X. Chang, “Image jitter detection and compensation using a high-frequency angular displacement method for Yaogan-26 remote sensing satellite,” ISPRS J. Photogramm. Remote Sens. 130, 32–43 (2017).
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L. Huang, T. Sun, T. Zhang, and H. You, “Application of DIROEF algorithm for noncollinear multiple CCD array stitching of the Chinese Mapping satellite 1-02,” IEEE Geosci. Remote Sens. Lett. 14(4), 519 (2017).
[Crossref]

2016 (1)

S. Liu, X. Tong, F. Wang, W. Sun, C. Guo, Z. Ye, Y. Jin, H. Xie, and P. Chen, “Attitude jitter detection based on remotely sensed images and dense ground controls: a case study for Chinese ZY-3 satellite,” IEEE J. Sel. Topics Appl. Earth Observ. 9(12), 5760–5766 (2016).
[Crossref]

2015 (3)

T. Sun, H. Long, B. C. Liu, and Y. Li, “Application of attitude jitter detection based on short-time asynchronous images and compensation methods for Chinese mapping satellite-1,” Opt. Express 23(2), 1395–1410 (2015).
[Crossref] [PubMed]

X. Tong, L. Li, S. Liu, Y. Xu, Z. Ye, Y. Jin, F. Wang, and H. Xie, “Detection and estimation of ZY-3 three-line array image distortions caused by attitude oscillation,” ISPRS J. Photogramm. Remote Sens. 101(10), 291–309 (2015).
[Crossref]

X. Tong, Y. Xu, Z. Ye, S. Liu, X. Tang, L. Li, H. Xie, and J. Xie, “Attitude oscillation detection of the ZY-3 satellite by using multispectral parallax images,” IEEE Trans. Geosci. Remote Sens. 53(6), 3522–3534 (2015).
[Crossref]

2014 (3)

X. Tong, Z. Ye, Y. Xu, X. Tang, S. Liu, L. Li, H. Xie, F. Wang, T. Li, and Z. Hong, “Framework of jitter detection and compensation for high resolution satellites,” Remote Sens. 6(5), 3944–3964 (2014).
[Crossref]

H. L. Haiqiu Liu, D. W. Dong Wang, D. Y. Dejie Yan, and S. X. Shuyan Xu, “Study on blind band elimination in jitter estimation,” Chin. Opt. Lett. 12(10), 101203 (2014).
[Crossref]

Y. H. Jiang, G. Zhang, X. Tang, D. Li, and W. C. Huang, “Detection and correction of relative attitude errors for ZY1-02C,” IEEE Trans. Geosci. Remote Sens. 52(12), 7674–7683 (2014).
[Crossref]

2013 (4)

Y. C. Li, J. H. Dong, W. Li, Q. F. Guo, K. J. Wang, H. P. Wang, and W. G. Zhao, “Detailed analysis of the HIRISE FPA,” Key Eng. Mater. 552, 64–68 (2013).
[Crossref]

H. Pan, G. Zhang, X. Tang, D. Li, X. Zhu, P. Zhou, and Y. Jiang, “Basic products of the ZiYuan-3 satellite and accuracy evaluation,” Photogramm. Eng. Remote Sensing 79(12), 1131–1145 (2013).
[Crossref]

V. Amberg, C. Dechoz, L. Bernard, D. Greslou, F. de Lussy, and L. Lebegue, “Inflight attitude perturbances estimation: application to PLEIADES-HR satellites,” Proc. SPIE 8866, 886612 (2013).
[Crossref]

R. Mumtaz and P. Palmer, “Attitude determination by exploiting geometric distortions in stereo images of DMC camera,” IEEE Trans. Aerosp. Electron. Syst. 49(3), 1601–1625 (2013).
[Crossref]

2012 (3)

C. Latry, S. Artigues, and L. Bernard, “Attitude assessment using Pleiades HR capabilities,” Int. Arch. Photogramm. Remote Sens. 39(B1), 525–530 (2012).

D. Poli and T. Toutin, “Review of developments in geometric modeling for high resolution satellite pushbroom sensors,” Photogramm. Rec. 27(137), 58–73 (2012).
[Crossref]

P. Schwind, R. Müller, G. Palubinskas, and T. Storch, “An in-depth simulation of EnMAP acquisition geometry,” ISPRS J. Photogramm. Remote Sens. 70, 99–106 (2012).
[Crossref]

2011 (2)

T. Toutin, “State-of-the-art of geometric correction of remote sensing data: a data fusion perspective,” Int. J. Image Data Fusion 2(1), 3–35 (2011).
[Crossref]

S. Mattson, A. Bartels, and A. Boyd, “Continuing analysis of spacecraft jitter in LROC-NAC,” Am. Nat. 152(3), 321–337 (2011).

2010 (1)

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

2009 (2)

P. Schwind, M. Schneider, G. Palubinskas, T. Storch, R. Muller, and R. Richter, “Processors for ALOS optical data: deconvolution, DEM generation, orthorectification, and atmospheric correction,” IEEE Trans. Geosci. Remote Sens. 47(12), 4074–4082 (2009).
[Crossref]

S. Mattson, A. Boyd, and R. L. Kirk, “HiJACK: Correcting spacecraft jitter in HiRISE images of Mars,” Health Manag. Technol. 33(5), A162 (2009).

2008 (2)

Y. Teshima and A. Iwasaki, “Correction of attitude fluctuation of terra spacecraft using ASTER/SWIR imagery with parallax observation,” IEEE Trans. Geosci. Remote Sens. 46(1), 222–227 (2008).
[Crossref]

R. Kirk, E. Howington-Kraus, M. Rosiek, J. Anderson, B. Archinal, K. Becker, D. Cook, D. Galuszka, P. Geissler, T. Hare, I. M. Holmberg, L. P. Keszthelyi, B. L. Redding, W. A. Delamere, D. Gallagher, J. D. Chapel, E. M. Eliason, R. King, and A. S. McEwen, “Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: meter-scale slopes of candidate Phoenix landing sites,” J. Geophys. Res. Planets 113, E00A24 (2008).
[Crossref]

2007 (2)

A. S. McEwen, E. M. Eliason, J. W. Bergstrom, N. T. Bridges, C. J. Hansen, W. A. Delamere, J. A. Grant, V. C. Gulick, K. E. Herkenhoff, L. Keszthelyi, R. L. Kirk, M. T. Mellon, S. W. Squyres, N. Thomas, and C. M. Weitz, “Mars reconnaissance orbiter’s high resolution imaging science experiment (HiRISE),” J. Geophys. Res. Planets 112(5), E05S02 (2007).
[Crossref]

K. Janschek, V. Tchernykh, and S. Dyblenko, “Performance analysis of opto-mechatronic image stabilization for a compact space camera,” Control Eng. Pract. 15(3), 333–347 (2007).
[Crossref]

2005 (3)

R. Binet and L. Bollinger, “Horizontal coseismic deformation of the 2003 Bam (Iran) earthquake measured from SPOT-5 THR satellite imagery,” Geophys. Res. Lett. 32(2), 2307 (2005).
[Crossref]

J. Wang, P. Yu, and C. Yan, “Space optical remote sensor image motion velocity vector computational modeling, error budget and synthesis,” Chin. Opt. Lett. 3(7), 414–417 (2005).

J. Wang, P. Yu, and C. Yan, “Space optical remote sensor image motion velocity vector computation modeling,” Acta Opt. Sin. 24(12), 1585–1589 (2005).

2004 (1)

N. Venkateswaran, P. Goel, M. Siva, P. Natarajan, E. Krishnakumar, and N. Philip, “Precision pointing of imaging spacecraft using gyro-based attitude reference with horizon sensor updates,” Sadhana 29(2), 189–203 (2004).
[Crossref]

2003 (1)

R. Kirk, E. Howington-Kraus, B. Redding, D. Galuszka, T. M. Hare, B. A. Archinal, L. A. Soderblom, and J. M. Barrett, “High-resolution topomapping of candidate MER landing sites with Mars Orbiter Camera narrow-angle images,” J. Geophys. Res. Planets 108(12), 12 (2003).
[Crossref]

Aharonson, O.

F. Ayoub, S. Leprince, R. Binet, K. W. Lewis, O. Aharonson, and J.-P. Avouac, “Influence of camera distortions on satellite image registration and change detection applications,” in Proceedings of IEEE International Geoscience and Remote Sensing Symposium, (IEEE, 2008), pp. II-1072–II-1075.
[Crossref]

Alan Delamere, W.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

Amberg, V.

V. Amberg, C. Dechoz, L. Bernard, D. Greslou, F. de Lussy, and L. Lebegue, “Inflight attitude perturbances estimation: application to PLEIADES-HR satellites,” Proc. SPIE 8866, 886612 (2013).
[Crossref]

Anderson, J.

R. Kirk, E. Howington-Kraus, M. Rosiek, J. Anderson, B. Archinal, K. Becker, D. Cook, D. Galuszka, P. Geissler, T. Hare, I. M. Holmberg, L. P. Keszthelyi, B. L. Redding, W. A. Delamere, D. Gallagher, J. D. Chapel, E. M. Eliason, R. King, and A. S. McEwen, “Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: meter-scale slopes of candidate Phoenix landing sites,” J. Geophys. Res. Planets 113, E00A24 (2008).
[Crossref]

Archinal, B.

R. Kirk, E. Howington-Kraus, M. Rosiek, J. Anderson, B. Archinal, K. Becker, D. Cook, D. Galuszka, P. Geissler, T. Hare, I. M. Holmberg, L. P. Keszthelyi, B. L. Redding, W. A. Delamere, D. Gallagher, J. D. Chapel, E. M. Eliason, R. King, and A. S. McEwen, “Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: meter-scale slopes of candidate Phoenix landing sites,” J. Geophys. Res. Planets 113, E00A24 (2008).
[Crossref]

Archinal, B. A.

R. Kirk, E. Howington-Kraus, B. Redding, D. Galuszka, T. M. Hare, B. A. Archinal, L. A. Soderblom, and J. M. Barrett, “High-resolution topomapping of candidate MER landing sites with Mars Orbiter Camera narrow-angle images,” J. Geophys. Res. Planets 108(12), 12 (2003).
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Artigues, S.

C. Latry, S. Artigues, and L. Bernard, “Attitude assessment using Pleiades HR capabilities,” Int. Arch. Photogramm. Remote Sens. 39(B1), 525–530 (2012).

Avouac, J.-P.

F. Ayoub, S. Leprince, R. Binet, K. W. Lewis, O. Aharonson, and J.-P. Avouac, “Influence of camera distortions on satellite image registration and change detection applications,” in Proceedings of IEEE International Geoscience and Remote Sensing Symposium, (IEEE, 2008), pp. II-1072–II-1075.
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Ayoub, F.

F. Ayoub, S. Leprince, R. Binet, K. W. Lewis, O. Aharonson, and J.-P. Avouac, “Influence of camera distortions on satellite image registration and change detection applications,” in Proceedings of IEEE International Geoscience and Remote Sensing Symposium, (IEEE, 2008), pp. II-1072–II-1075.
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Banks, M.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Barrett, J. M.

R. Kirk, E. Howington-Kraus, B. Redding, D. Galuszka, T. M. Hare, B. A. Archinal, L. A. Soderblom, and J. M. Barrett, “High-resolution topomapping of candidate MER landing sites with Mars Orbiter Camera narrow-angle images,” J. Geophys. Res. Planets 108(12), 12 (2003).
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Bartels, A.

S. Mattson, A. Bartels, and A. Boyd, “Continuing analysis of spacecraft jitter in LROC-NAC,” Am. Nat. 152(3), 321–337 (2011).

Baugh, N.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Becker, K.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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R. Kirk, E. Howington-Kraus, M. Rosiek, J. Anderson, B. Archinal, K. Becker, D. Cook, D. Galuszka, P. Geissler, T. Hare, I. M. Holmberg, L. P. Keszthelyi, B. L. Redding, W. A. Delamere, D. Gallagher, J. D. Chapel, E. M. Eliason, R. King, and A. S. McEwen, “Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: meter-scale slopes of candidate Phoenix landing sites,” J. Geophys. Res. Planets 113, E00A24 (2008).
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Bergstrom, J. W.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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A. S. McEwen, E. M. Eliason, J. W. Bergstrom, N. T. Bridges, C. J. Hansen, W. A. Delamere, J. A. Grant, V. C. Gulick, K. E. Herkenhoff, L. Keszthelyi, R. L. Kirk, M. T. Mellon, S. W. Squyres, N. Thomas, and C. M. Weitz, “Mars reconnaissance orbiter’s high resolution imaging science experiment (HiRISE),” J. Geophys. Res. Planets 112(5), E05S02 (2007).
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Bernard, L.

V. Amberg, C. Dechoz, L. Bernard, D. Greslou, F. de Lussy, and L. Lebegue, “Inflight attitude perturbances estimation: application to PLEIADES-HR satellites,” Proc. SPIE 8866, 886612 (2013).
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C. Latry, S. Artigues, and L. Bernard, “Attitude assessment using Pleiades HR capabilities,” Int. Arch. Photogramm. Remote Sens. 39(B1), 525–530 (2012).

Beyer, R. A.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Binet, R.

R. Binet and L. Bollinger, “Horizontal coseismic deformation of the 2003 Bam (Iran) earthquake measured from SPOT-5 THR satellite imagery,” Geophys. Res. Lett. 32(2), 2307 (2005).
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F. Ayoub, S. Leprince, R. Binet, K. W. Lewis, O. Aharonson, and J.-P. Avouac, “Influence of camera distortions on satellite image registration and change detection applications,” in Proceedings of IEEE International Geoscience and Remote Sensing Symposium, (IEEE, 2008), pp. II-1072–II-1075.
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Bolek, J.

P. Sabelhaus, J. Bolek, S. Scott, E. Holmes, and R. James, “On-orbit ACDS performance of the Landsat 7 spacecraft,” in Proceedings of AAS Guidance and Control (2001).

Bollinger, L.

R. Binet and L. Bollinger, “Horizontal coseismic deformation of the 2003 Bam (Iran) earthquake measured from SPOT-5 THR satellite imagery,” Geophys. Res. Lett. 32(2), 2307 (2005).
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Bortolini, E.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Boyd, A.

S. Mattson, A. Bartels, and A. Boyd, “Continuing analysis of spacecraft jitter in LROC-NAC,” Am. Nat. 152(3), 321–337 (2011).

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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S. Mattson, A. Boyd, and R. L. Kirk, “HiJACK: Correcting spacecraft jitter in HiRISE images of Mars,” Health Manag. Technol. 33(5), A162 (2009).

Bridges, N. T.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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A. S. McEwen, E. M. Eliason, J. W. Bergstrom, N. T. Bridges, C. J. Hansen, W. A. Delamere, J. A. Grant, V. C. Gulick, K. E. Herkenhoff, L. Keszthelyi, R. L. Kirk, M. T. Mellon, S. W. Squyres, N. Thomas, and C. M. Weitz, “Mars reconnaissance orbiter’s high resolution imaging science experiment (HiRISE),” J. Geophys. Res. Planets 112(5), E05S02 (2007).
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Byrne, S.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Castalia, B.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Chang, X.

M. Wang, C. Fan, J. Pan, S. Jin, and X. Chang, “Image jitter detection and compensation using a high-frequency angular displacement method for Yaogan-26 remote sensing satellite,” ISPRS J. Photogramm. Remote Sens. 130, 32–43 (2017).
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Chapel, J.

S. W. Lee, E. D. Skulsky, J. Chapel, D. Cwynar, R. Gehling, and W. A. Delamere, “Mars Reconnaissance Orbiter design approach for high-resolution surface imaging,” in AAS Guidance and Control Conference,113, pp. 509–528(2003).

Chapel, J. D.

R. Kirk, E. Howington-Kraus, M. Rosiek, J. Anderson, B. Archinal, K. Becker, D. Cook, D. Galuszka, P. Geissler, T. Hare, I. M. Holmberg, L. P. Keszthelyi, B. L. Redding, W. A. Delamere, D. Gallagher, J. D. Chapel, E. M. Eliason, R. King, and A. S. McEwen, “Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: meter-scale slopes of candidate Phoenix landing sites,” J. Geophys. Res. Planets 113, E00A24 (2008).
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Chen, P.

S. Liu, X. Tong, F. Wang, W. Sun, C. Guo, Z. Ye, Y. Jin, H. Xie, and P. Chen, “Attitude jitter detection based on remotely sensed images and dense ground controls: a case study for Chinese ZY-3 satellite,” IEEE J. Sel. Topics Appl. Earth Observ. 9(12), 5760–5766 (2016).
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Chuang, F. C.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Cook, D.

R. Kirk, E. Howington-Kraus, M. Rosiek, J. Anderson, B. Archinal, K. Becker, D. Cook, D. Galuszka, P. Geissler, T. Hare, I. M. Holmberg, L. P. Keszthelyi, B. L. Redding, W. A. Delamere, D. Gallagher, J. D. Chapel, E. M. Eliason, R. King, and A. S. McEwen, “Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: meter-scale slopes of candidate Phoenix landing sites,” J. Geophys. Res. Planets 113, E00A24 (2008).
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Crumpler, L. S.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Cwynar, D.

S. W. Lee, E. D. Skulsky, J. Chapel, D. Cwynar, R. Gehling, and W. A. Delamere, “Mars Reconnaissance Orbiter design approach for high-resolution surface imaging,” in AAS Guidance and Control Conference,113, pp. 509–528(2003).

Daubar, I.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Davatzes, A. K.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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de Lussy, F.

V. Amberg, C. Dechoz, L. Bernard, D. Greslou, F. de Lussy, and L. Lebegue, “Inflight attitude perturbances estimation: application to PLEIADES-HR satellites,” Proc. SPIE 8866, 886612 (2013).
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Deardorff, D. G.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Dechoz, C.

V. Amberg, C. Dechoz, L. Bernard, D. Greslou, F. de Lussy, and L. Lebegue, “Inflight attitude perturbances estimation: application to PLEIADES-HR satellites,” Proc. SPIE 8866, 886612 (2013).
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Dejie Yan, D. Y.

DeJong, A.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Delamere, W. A.

R. Kirk, E. Howington-Kraus, M. Rosiek, J. Anderson, B. Archinal, K. Becker, D. Cook, D. Galuszka, P. Geissler, T. Hare, I. M. Holmberg, L. P. Keszthelyi, B. L. Redding, W. A. Delamere, D. Gallagher, J. D. Chapel, E. M. Eliason, R. King, and A. S. McEwen, “Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: meter-scale slopes of candidate Phoenix landing sites,” J. Geophys. Res. Planets 113, E00A24 (2008).
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A. S. McEwen, E. M. Eliason, J. W. Bergstrom, N. T. Bridges, C. J. Hansen, W. A. Delamere, J. A. Grant, V. C. Gulick, K. E. Herkenhoff, L. Keszthelyi, R. L. Kirk, M. T. Mellon, S. W. Squyres, N. Thomas, and C. M. Weitz, “Mars reconnaissance orbiter’s high resolution imaging science experiment (HiRISE),” J. Geophys. Res. Planets 112(5), E05S02 (2007).
[Crossref]

S. W. Lee, E. D. Skulsky, J. Chapel, D. Cwynar, R. Gehling, and W. A. Delamere, “Mars Reconnaissance Orbiter design approach for high-resolution surface imaging,” in AAS Guidance and Control Conference,113, pp. 509–528(2003).

Dobrea, E. N.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Dong, J. H.

Y. C. Li, J. H. Dong, W. Li, Q. F. Guo, K. J. Wang, H. P. Wang, and W. G. Zhao, “Detailed analysis of the HIRISE FPA,” Key Eng. Mater. 552, 64–68 (2013).
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Dong Wang, D. W.

Dundas, C. M.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Dyblenko, S.

K. Janschek, V. Tchernykh, and S. Dyblenko, “Performance analysis of opto-mechatronic image stabilization for a compact space camera,” Control Eng. Pract. 15(3), 333–347 (2007).
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K. Janschek, V. Tchernykh, and S. Dyblenko, “Integrated camera motion compensation by real-time image motion tracking and image deconvolution,” in Proceedings of International Conference on Advanced Intelligent Mechatronics.(IEEE, 2005), pp.1437–1444.
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Eliason, E. M.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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R. Kirk, E. Howington-Kraus, M. Rosiek, J. Anderson, B. Archinal, K. Becker, D. Cook, D. Galuszka, P. Geissler, T. Hare, I. M. Holmberg, L. P. Keszthelyi, B. L. Redding, W. A. Delamere, D. Gallagher, J. D. Chapel, E. M. Eliason, R. King, and A. S. McEwen, “Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: meter-scale slopes of candidate Phoenix landing sites,” J. Geophys. Res. Planets 113, E00A24 (2008).
[Crossref]

A. S. McEwen, E. M. Eliason, J. W. Bergstrom, N. T. Bridges, C. J. Hansen, W. A. Delamere, J. A. Grant, V. C. Gulick, K. E. Herkenhoff, L. Keszthelyi, R. L. Kirk, M. T. Mellon, S. W. Squyres, N. Thomas, and C. M. Weitz, “Mars reconnaissance orbiter’s high resolution imaging science experiment (HiRISE),” J. Geophys. Res. Planets 112(5), E05S02 (2007).
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Espinoza, Y.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Fan, C.

M. Wang, C. Fan, J. Pan, S. Jin, and X. Chang, “Image jitter detection and compensation using a high-frequency angular displacement method for Yaogan-26 remote sensing satellite,” ISPRS J. Photogramm. Remote Sens. 130, 32–43 (2017).
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Fennema, A.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Fishbaugh, K. E.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

Forrester, T.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Gallagher, D.

R. Kirk, E. Howington-Kraus, M. Rosiek, J. Anderson, B. Archinal, K. Becker, D. Cook, D. Galuszka, P. Geissler, T. Hare, I. M. Holmberg, L. P. Keszthelyi, B. L. Redding, W. A. Delamere, D. Gallagher, J. D. Chapel, E. M. Eliason, R. King, and A. S. McEwen, “Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: meter-scale slopes of candidate Phoenix landing sites,” J. Geophys. Res. Planets 113, E00A24 (2008).
[Crossref]

Galuszka, D.

R. Kirk, E. Howington-Kraus, M. Rosiek, J. Anderson, B. Archinal, K. Becker, D. Cook, D. Galuszka, P. Geissler, T. Hare, I. M. Holmberg, L. P. Keszthelyi, B. L. Redding, W. A. Delamere, D. Gallagher, J. D. Chapel, E. M. Eliason, R. King, and A. S. McEwen, “Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: meter-scale slopes of candidate Phoenix landing sites,” J. Geophys. Res. Planets 113, E00A24 (2008).
[Crossref]

R. Kirk, E. Howington-Kraus, B. Redding, D. Galuszka, T. M. Hare, B. A. Archinal, L. A. Soderblom, and J. M. Barrett, “High-resolution topomapping of candidate MER landing sites with Mars Orbiter Camera narrow-angle images,” J. Geophys. Res. Planets 108(12), 12 (2003).
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Gehling, R.

S. W. Lee, E. D. Skulsky, J. Chapel, D. Cwynar, R. Gehling, and W. A. Delamere, “Mars Reconnaissance Orbiter design approach for high-resolution surface imaging,” in AAS Guidance and Control Conference,113, pp. 509–528(2003).

Geissler, P.

R. Kirk, E. Howington-Kraus, M. Rosiek, J. Anderson, B. Archinal, K. Becker, D. Cook, D. Galuszka, P. Geissler, T. Hare, I. M. Holmberg, L. P. Keszthelyi, B. L. Redding, W. A. Delamere, D. Gallagher, J. D. Chapel, E. M. Eliason, R. King, and A. S. McEwen, “Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: meter-scale slopes of candidate Phoenix landing sites,” J. Geophys. Res. Planets 113, E00A24 (2008).
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Geissler, P. E.

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A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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S. Mattson, A. Boyd, and R. L. Kirk, “HiJACK: Correcting spacecraft jitter in HiRISE images of Mars,” Health Manag. Technol. 33(5), A162 (2009).

McArthur, G.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

McEwen, A.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

McEwen, A. S.

R. Kirk, E. Howington-Kraus, M. Rosiek, J. Anderson, B. Archinal, K. Becker, D. Cook, D. Galuszka, P. Geissler, T. Hare, I. M. Holmberg, L. P. Keszthelyi, B. L. Redding, W. A. Delamere, D. Gallagher, J. D. Chapel, E. M. Eliason, R. King, and A. S. McEwen, “Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: meter-scale slopes of candidate Phoenix landing sites,” J. Geophys. Res. Planets 113, E00A24 (2008).
[Crossref]

A. S. McEwen, E. M. Eliason, J. W. Bergstrom, N. T. Bridges, C. J. Hansen, W. A. Delamere, J. A. Grant, V. C. Gulick, K. E. Herkenhoff, L. Keszthelyi, R. L. Kirk, M. T. Mellon, S. W. Squyres, N. Thomas, and C. M. Weitz, “Mars reconnaissance orbiter’s high resolution imaging science experiment (HiRISE),” J. Geophys. Res. Planets 112(5), E05S02 (2007).
[Crossref]

Mellon, M. T.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

A. S. McEwen, E. M. Eliason, J. W. Bergstrom, N. T. Bridges, C. J. Hansen, W. A. Delamere, J. A. Grant, V. C. Gulick, K. E. Herkenhoff, L. Keszthelyi, R. L. Kirk, M. T. Mellon, S. W. Squyres, N. Thomas, and C. M. Weitz, “Mars reconnaissance orbiter’s high resolution imaging science experiment (HiRISE),” J. Geophys. Res. Planets 112(5), E05S02 (2007).
[Crossref]

Metz, J. M.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

Milazzo, M. P.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

Milliken, R. E.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

Motazedian, T.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

Muller, R.

P. Schwind, M. Schneider, G. Palubinskas, T. Storch, R. Muller, and R. Richter, “Processors for ALOS optical data: deconvolution, DEM generation, orthorectification, and atmospheric correction,” IEEE Trans. Geosci. Remote Sens. 47(12), 4074–4082 (2009).
[Crossref]

Müller, R.

P. Schwind, R. Müller, G. Palubinskas, and T. Storch, “An in-depth simulation of EnMAP acquisition geometry,” ISPRS J. Photogramm. Remote Sens. 70, 99–106 (2012).
[Crossref]

Mumtaz, R.

R. Mumtaz and P. Palmer, “Attitude determination by exploiting geometric distortions in stereo images of DMC camera,” IEEE Trans. Aerosp. Electron. Syst. 49(3), 1601–1625 (2013).
[Crossref]

Natarajan, P.

N. Venkateswaran, P. Goel, M. Siva, P. Natarajan, E. Krishnakumar, and N. Philip, “Precision pointing of imaging spacecraft using gyro-based attitude reference with horizon sensor updates,” Sadhana 29(2), 189–203 (2004).
[Crossref]

Okubo, C. H.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

Ortiz, A.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

Palmer, P.

R. Mumtaz and P. Palmer, “Attitude determination by exploiting geometric distortions in stereo images of DMC camera,” IEEE Trans. Aerosp. Electron. Syst. 49(3), 1601–1625 (2013).
[Crossref]

Palubinskas, G.

P. Schwind, R. Müller, G. Palubinskas, and T. Storch, “An in-depth simulation of EnMAP acquisition geometry,” ISPRS J. Photogramm. Remote Sens. 70, 99–106 (2012).
[Crossref]

P. Schwind, M. Schneider, G. Palubinskas, T. Storch, R. Muller, and R. Richter, “Processors for ALOS optical data: deconvolution, DEM generation, orthorectification, and atmospheric correction,” IEEE Trans. Geosci. Remote Sens. 47(12), 4074–4082 (2009).
[Crossref]

Pan, H.

H. Pan, G. Zhang, X. Tang, D. Li, X. Zhu, P. Zhou, and Y. Jiang, “Basic products of the ZiYuan-3 satellite and accuracy evaluation,” Photogramm. Eng. Remote Sensing 79(12), 1131–1145 (2013).
[Crossref]

Pan, J.

M. Wang, C. Fan, J. Pan, S. Jin, and X. Chang, “Image jitter detection and compensation using a high-frequency angular displacement method for Yaogan-26 remote sensing satellite,” ISPRS J. Photogramm. Remote Sens. 130, 32–43 (2017).
[Crossref]

Philip, N.

N. Venkateswaran, P. Goel, M. Siva, P. Natarajan, E. Krishnakumar, and N. Philip, “Precision pointing of imaging spacecraft using gyro-based attitude reference with horizon sensor updates,” Sadhana 29(2), 189–203 (2004).
[Crossref]

Philippoff, A. J.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

Plassmann, J.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

Poli, D.

D. Poli and T. Toutin, “Review of developments in geometric modeling for high resolution satellite pushbroom sensors,” Photogramm. Rec. 27(137), 58–73 (2012).
[Crossref]

Polit, A.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

Redding, B.

R. Kirk, E. Howington-Kraus, B. Redding, D. Galuszka, T. M. Hare, B. A. Archinal, L. A. Soderblom, and J. M. Barrett, “High-resolution topomapping of candidate MER landing sites with Mars Orbiter Camera narrow-angle images,” J. Geophys. Res. Planets 108(12), 12 (2003).
[Crossref]

Redding, B. L.

R. Kirk, E. Howington-Kraus, M. Rosiek, J. Anderson, B. Archinal, K. Becker, D. Cook, D. Galuszka, P. Geissler, T. Hare, I. M. Holmberg, L. P. Keszthelyi, B. L. Redding, W. A. Delamere, D. Gallagher, J. D. Chapel, E. M. Eliason, R. King, and A. S. McEwen, “Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: meter-scale slopes of candidate Phoenix landing sites,” J. Geophys. Res. Planets 113, E00A24 (2008).
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Richter, R.

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A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
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Wang, F.

S. Liu, X. Tong, F. Wang, W. Sun, C. Guo, Z. Ye, Y. Jin, H. Xie, and P. Chen, “Attitude jitter detection based on remotely sensed images and dense ground controls: a case study for Chinese ZY-3 satellite,” IEEE J. Sel. Topics Appl. Earth Observ. 9(12), 5760–5766 (2016).
[Crossref]

X. Tong, L. Li, S. Liu, Y. Xu, Z. Ye, Y. Jin, F. Wang, and H. Xie, “Detection and estimation of ZY-3 three-line array image distortions caused by attitude oscillation,” ISPRS J. Photogramm. Remote Sens. 101(10), 291–309 (2015).
[Crossref]

X. Tong, Z. Ye, Y. Xu, X. Tang, S. Liu, L. Li, H. Xie, F. Wang, T. Li, and Z. Hong, “Framework of jitter detection and compensation for high resolution satellites,” Remote Sens. 6(5), 3944–3964 (2014).
[Crossref]

Wang, H. P.

Y. C. Li, J. H. Dong, W. Li, Q. F. Guo, K. J. Wang, H. P. Wang, and W. G. Zhao, “Detailed analysis of the HIRISE FPA,” Key Eng. Mater. 552, 64–68 (2013).
[Crossref]

Wang, J.

J. Wang, P. Yu, and C. Yan, “Space optical remote sensor image motion velocity vector computation modeling,” Acta Opt. Sin. 24(12), 1585–1589 (2005).

J. Wang, P. Yu, and C. Yan, “Space optical remote sensor image motion velocity vector computational modeling, error budget and synthesis,” Chin. Opt. Lett. 3(7), 414–417 (2005).

Wang, K. J.

Y. C. Li, J. H. Dong, W. Li, Q. F. Guo, K. J. Wang, H. P. Wang, and W. G. Zhao, “Detailed analysis of the HIRISE FPA,” Key Eng. Mater. 552, 64–68 (2013).
[Crossref]

Wang, M.

M. Wang, C. Fan, J. Pan, S. Jin, and X. Chang, “Image jitter detection and compensation using a high-frequency angular displacement method for Yaogan-26 remote sensing satellite,” ISPRS J. Photogramm. Remote Sens. 130, 32–43 (2017).
[Crossref]

Weitz, C. M.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

A. S. McEwen, E. M. Eliason, J. W. Bergstrom, N. T. Bridges, C. J. Hansen, W. A. Delamere, J. A. Grant, V. C. Gulick, K. E. Herkenhoff, L. Keszthelyi, R. L. Kirk, M. T. Mellon, S. W. Squyres, N. Thomas, and C. M. Weitz, “Mars reconnaissance orbiter’s high resolution imaging science experiment (HiRISE),” J. Geophys. Res. Planets 112(5), E05S02 (2007).
[Crossref]

Wray, J. J.

A. McEwen, M. Banks, N. Baugh, K. Becker, A. Boyd, J. W. Bergstrom, R. A. Beyer, E. Bortolini, N. T. Bridges, S. Byrne, B. Castalia, F. C. Chuang, L. S. Crumpler, I. Daubar, A. K. Davatzes, D. G. Deardorff, A. DeJong, W. Alan Delamere, E. N. Dobrea, C. M. Dundas, E. M. Eliason, Y. Espinoza, A. Fennema, K. E. Fishbaugh, T. Forrester, P. E. Geissler, J. A. Grant, J. L. Griffes, J. P. Grotzinger, V. C. Gulick, C. J. Hansen, K. E. Herkenhoff, R. Heyd, W. L. Jaeger, D. Jones, B. Kanefsky, L. Keszthelyi, R. King, R. L. Kirk, K. J. Kolb, J. Lasco, A. Lefort, R. Leis, K. W. Lewis, S. Martinez-Alonso, S. Mattson, G. McArthur, M. T. Mellon, J. M. Metz, M. P. Milazzo, R. E. Milliken, T. Motazedian, C. H. Okubo, A. Ortiz, A. J. Philippoff, J. Plassmann, A. Polit, P. S. Russell, C. Schaller, M. L. Searls, T. Spriggs, S. W. Squyres, S. Tarr, N. Thomas, B. J. Thomson, L. L. Tornabene, C. Van Houten, C. Verba, C. M. Weitz, and J. J. Wray, “The high resolution imaging science experiment (HiRISE) during MRO’s primary science phase (PSP),” Icarus 205(1), 2–37 (2010).
[Crossref]

Xie, H.

S. Liu, X. Tong, F. Wang, W. Sun, C. Guo, Z. Ye, Y. Jin, H. Xie, and P. Chen, “Attitude jitter detection based on remotely sensed images and dense ground controls: a case study for Chinese ZY-3 satellite,” IEEE J. Sel. Topics Appl. Earth Observ. 9(12), 5760–5766 (2016).
[Crossref]

X. Tong, Y. Xu, Z. Ye, S. Liu, X. Tang, L. Li, H. Xie, and J. Xie, “Attitude oscillation detection of the ZY-3 satellite by using multispectral parallax images,” IEEE Trans. Geosci. Remote Sens. 53(6), 3522–3534 (2015).
[Crossref]

X. Tong, L. Li, S. Liu, Y. Xu, Z. Ye, Y. Jin, F. Wang, and H. Xie, “Detection and estimation of ZY-3 three-line array image distortions caused by attitude oscillation,” ISPRS J. Photogramm. Remote Sens. 101(10), 291–309 (2015).
[Crossref]

X. Tong, Z. Ye, Y. Xu, X. Tang, S. Liu, L. Li, H. Xie, F. Wang, T. Li, and Z. Hong, “Framework of jitter detection and compensation for high resolution satellites,” Remote Sens. 6(5), 3944–3964 (2014).
[Crossref]

Xie, J.

X. Tong, Y. Xu, Z. Ye, S. Liu, X. Tang, L. Li, H. Xie, and J. Xie, “Attitude oscillation detection of the ZY-3 satellite by using multispectral parallax images,” IEEE Trans. Geosci. Remote Sens. 53(6), 3522–3534 (2015).
[Crossref]

Xu, Y.

X. Tong, Y. Xu, Z. Ye, S. Liu, X. Tang, L. Li, H. Xie, and J. Xie, “Attitude oscillation detection of the ZY-3 satellite by using multispectral parallax images,” IEEE Trans. Geosci. Remote Sens. 53(6), 3522–3534 (2015).
[Crossref]

X. Tong, L. Li, S. Liu, Y. Xu, Z. Ye, Y. Jin, F. Wang, and H. Xie, “Detection and estimation of ZY-3 three-line array image distortions caused by attitude oscillation,” ISPRS J. Photogramm. Remote Sens. 101(10), 291–309 (2015).
[Crossref]

X. Tong, Z. Ye, Y. Xu, X. Tang, S. Liu, L. Li, H. Xie, F. Wang, T. Li, and Z. Hong, “Framework of jitter detection and compensation for high resolution satellites,” Remote Sens. 6(5), 3944–3964 (2014).
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J. Wang, P. Yu, and C. Yan, “Space optical remote sensor image motion velocity vector computational modeling, error budget and synthesis,” Chin. Opt. Lett. 3(7), 414–417 (2005).

J. Wang, P. Yu, and C. Yan, “Space optical remote sensor image motion velocity vector computation modeling,” Acta Opt. Sin. 24(12), 1585–1589 (2005).

Ye, Z.

S. Liu, X. Tong, F. Wang, W. Sun, C. Guo, Z. Ye, Y. Jin, H. Xie, and P. Chen, “Attitude jitter detection based on remotely sensed images and dense ground controls: a case study for Chinese ZY-3 satellite,” IEEE J. Sel. Topics Appl. Earth Observ. 9(12), 5760–5766 (2016).
[Crossref]

X. Tong, L. Li, S. Liu, Y. Xu, Z. Ye, Y. Jin, F. Wang, and H. Xie, “Detection and estimation of ZY-3 three-line array image distortions caused by attitude oscillation,” ISPRS J. Photogramm. Remote Sens. 101(10), 291–309 (2015).
[Crossref]

X. Tong, Y. Xu, Z. Ye, S. Liu, X. Tang, L. Li, H. Xie, and J. Xie, “Attitude oscillation detection of the ZY-3 satellite by using multispectral parallax images,” IEEE Trans. Geosci. Remote Sens. 53(6), 3522–3534 (2015).
[Crossref]

X. Tong, Z. Ye, Y. Xu, X. Tang, S. Liu, L. Li, H. Xie, F. Wang, T. Li, and Z. Hong, “Framework of jitter detection and compensation for high resolution satellites,” Remote Sens. 6(5), 3944–3964 (2014).
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You, H.

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Yu, P.

J. Wang, P. Yu, and C. Yan, “Space optical remote sensor image motion velocity vector computation modeling,” Acta Opt. Sin. 24(12), 1585–1589 (2005).

J. Wang, P. Yu, and C. Yan, “Space optical remote sensor image motion velocity vector computational modeling, error budget and synthesis,” Chin. Opt. Lett. 3(7), 414–417 (2005).

Zhang, G.

Y. H. Jiang, G. Zhang, X. Tang, D. Li, and W. C. Huang, “Detection and correction of relative attitude errors for ZY1-02C,” IEEE Trans. Geosci. Remote Sens. 52(12), 7674–7683 (2014).
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Y. C. Li, J. H. Dong, W. Li, Q. F. Guo, K. J. Wang, H. P. Wang, and W. G. Zhao, “Detailed analysis of the HIRISE FPA,” Key Eng. Mater. 552, 64–68 (2013).
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Zhou, P.

H. Pan, G. Zhang, X. Tang, D. Li, X. Zhu, P. Zhou, and Y. Jiang, “Basic products of the ZiYuan-3 satellite and accuracy evaluation,” Photogramm. Eng. Remote Sensing 79(12), 1131–1145 (2013).
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Zhu, X.

H. Pan, G. Zhang, X. Tang, D. Li, X. Zhu, P. Zhou, and Y. Jiang, “Basic products of the ZiYuan-3 satellite and accuracy evaluation,” Photogramm. Eng. Remote Sensing 79(12), 1131–1145 (2013).
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Figures (17)

Fig. 1
Fig. 1 Distribution of overlapping images and non-overlapping images.
Fig. 2
Fig. 2 Process of one object images in two adjacent TDICCDs with jitter.
Fig. 3
Fig. 3 Framework for detection of the jitter based on overlapping images and attitude data.
Fig. 4
Fig. 4 Results of the numerical simulations. (a) The amplitude-frequency curves in [0 192Hz]; (b) The amplitude-frequency curves in [0 20Hz].
Fig. 5
Fig. 5 Relationships between the RMSE of jitter detection and white noise mixed in (a) low-frequency jitter when σoffset = 1 pixels; (b) offset data when σlow = 4 pixels (cross-track direction); (c) offset data when σlow = 15 pixels (down-track direction).
Fig. 6
Fig. 6 Layout of the focal plane of the VLC on Chinese Heavenly Palace-1 satellite (not to scale).
Fig. 7
Fig. 7 Spatial distribution of image motion velocity on the focal plane when VLC was shooting the Study area A.
Fig. 8
Fig. 8 Study areas and the corresponding images from CCD 2# (left), CCD 3# (middle) and CCD 4# (right) of the VLC on Chinese Heavenly Palace-1 satellite.
Fig. 9
Fig. 9 Results of the cross-track offset from (a) CCD 2# and CCD 3# of Study area A; (b) CCD 3# and CCD 4# of Study area A; (c) CCD 2# and CCD 3# of Study area B; (d) CCD 3# and CCD 4# of Study area B.
Fig. 10
Fig. 10 Results of the cross-track initial jitter from (a) CCD 2# and CCD 3# of Study area A; (b) CCD 3# and CCD 4# of Study area A; (c) CCD 2# and CCD 3# of Study area B; (d) CCD 3# and CCD 4# of Study area B.
Fig. 11
Fig. 11 Results of the total jitter in the cross-track direction from (a) CCD 2# and CCD 3# of Study area A; (b) CCD 3# and CCD 4# of Study area A; (c) CCD 2# and CCD 3# of Study area B; (d) CCD 3# and CCD 4# of Study area B.
Fig. 12
Fig. 12 Cross-track comparisons of the low-frequency jitter. Time-domain results from (a) CCD 2# and CCD 3# of Study area A; (b) CCD 3# and CCD 4# of Study area A; (c) CCD 2# and CCD 3# of Study area B; (d) CCD 3# and CCD 4# of Study area B. Frequency-domain results from (e) CCD 2# and CCD 3# of Study area A; (f) CCD 3# and CCD 4# of Study area A; (g) CCD 2# and CCD 3# of Study area B; (h) CCD 3# and CCD 4# of Study area B.
Fig. 13
Fig. 13 Time-domain cross-track comparisons of the high-frequency jitter from (a) CCD 2# and CCD 3# of Study area A; (b) CCD 3# and CCD 4# of Study area A; (c) CCD 2# and CCD 3# of Study area B; (d) CCD 3# and CCD 4# of Study area B.
Fig. 14
Fig. 14 Frequency-domain cross-track comparisons of the high-frequency jitter from (a) CCD 2# and CCD 3# of Study area A; (b) CCD 3# and CCD 4# of Study area A; (c) CCD 2# and CCD 3# of Study area B; (d) CCD 3# and CCD 4# of Study area B.
Fig. 15
Fig. 15 Down-track comparisons between offset from (a) CCD 2# and CCD 3# of Study area A; (b) CCD 3# and CCD 4# of Study area A; (c) CCD 2# and CCD 3# of Study area B; (d) CCD 3# and CCD 4# of Study area B; Initial jitter from (e) CCD 2# and CCD 3# of Study area A; (f) CCD 3# and CCD 4# of Study area A; (g) CCD 2# and CCD 3# of Study area B; (h) CCD 3# and CCD 4# of Study area B; Total jitter from (i) CCD 2# and CCD 3# of Study area A; (j) CCD 3# and CCD 4# of Study area A; (k) CCD 2# and CCD 3# of Study area B; (l) CCD 3# and CCD 4# of Study area B; Low-frequency time-domain jitter from (m) CCD 2# and CCD 3# of Study area A; (n) CCD 3# and CCD 4#of Study area A; (o) CCD 2# and CCD 3# of Study area B; (p) CCD 3# and CCD 4# of Study area B; Low-frequency frequency-domain jitter from (q) CCD 2# and CCD 3# of Study area A; (r) CCD 3# and CCD 4# of Study area A; (s) CCD 2# and CCD 3# Study area B; (t) CCD 3# and CCD 4# Study area B.
Fig. 16
Fig. 16 Time-domain down-track comparisons of the high-frequency jitter from (a) CCD 2# and CCD 3# of Study area A; (b) CCD 3# and CCD 4# of Study area A; (c) CCD 2# and CCD 3# of Study area B; (d) CCD 3# and CCD 4# of Study area B.
Fig. 17
Fig. 17 Frequency-domain down-track comparisons of the high-frequency jitter from (a) CCD 2# and CCD 3# of Study area A; (b) CCD 3# and CCD 4# of Study area A; (c) CCD 2# and CCD 3# of Study area B; (d) CCD 3# and CCD 4# of Study area B.

Tables (3)

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Table 1 Accuracy of three methods

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Table 2 Results of cross-track low-frequency jitter (frequency’s unit: Hz, amplitude’ unit: pixels).

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Table 3 Statistical results of cross-track comparisons in [0.98 192Hz]

Equations (26)

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g(t+τ)=j( t+τ )j( t ),0tTτ,
j( r+R )=j( r )+g(r+R),r=1,2,N×R
{ j( r+R )=j( r )+g(r+R) j( r+2R )=j( r )+g(r+R)+g(r+2R) j( r+3R )=j( r )+g(r+R)+g(r+2R)+g(r+3R) j( r+NR )=j( r )+g(r+R)+g(r+2R)++g[ r+NR ] ,r=1,2,R
J 0 = [ j( 1 ),j( 2 ),,j( R ) ] 1×R
J= [ J 1 , J 2 ,, J N ] T = [ j( 1+R ) j( 2+R ) j( 2R ) j( 1+2R ) j( 2+2R ) j( 3R ) j( 1+NR ) j( 2+NR ) j( R+NR ) ] N×R
G= [ G 1 , G 2 ,, G N ] T = [ g( 1+R ) g( 2+R ) g( 2R ) g( 1+2R ) g( 2+2R ) g( 3R ) g( 1+NR ) g( 2+NR ) g( R+NR ) ] N×R
J= [ 1 1 1 ] N×1 × J 0 + [ 1 0 0 1 1 0 0 1 0 1 1 1 ] N×N ×G
p( φ i , θ i , ψ i )=[ p d p c p v 1 ]=[ Γ/ Hh 0 0 0 0 Γ/ Hh 0 0 0 0 Γ/ Hh Γ 0 0 0 1 ][ 1 0 0 0 0 cos φ i sin φ i 0 0 sin φ i cos φ i 0 0 0 0 1 ][ cos θ i 0 sin θ i 0 0 1 0 0 sin θ i 0 cos θ i 0 0 0 0 1 ] [ cos ψ i sin ψ i 0 0 sin ψ i cos ψ i 0 0 0 0 1 0 0 0 0 1 ][ 1 0 0 0 0 1 0 0 0 0 1 ( R+H ) 0 0 0 1 ][ cosγ 0 sinγ 0 0 1 0 0 sinγ 0 cosγ 0 0 0 0 1 ][ cos i 0 sin i 0 0 0 sin i 0 cos i 0 0 0 0 0 1 0 0 0 0 1 ] [ cosΩt 0 sinΩt 0 0 1 0 0 sinΩt 0 cosΩt 0 0 0 0 1 ][ cos i 0 sin i 0 0 0 sin i 0 cos i 0 0 0 0 0 1 0 0 0 0 1 ][ cos γ 0 0 sin γ 0 0 0 1 0 0 sin γ 0 0 cos γ 0 0 0 0 0 1 ][ 1 0 0 0 0 1 0 0 0 0 1 ( R+H ) 0 0 0 1 ][ u 1 u 2 0 1 ]
( d d i , d c i , d v i )=( p d i , p c i , p v i )=[ p( φ i , θ i , ψ i )p( φ 0 , θ 0 , ψ 0 ) ],i=1,2,M
d( t )= q=0 Q A q sin( ω q t+ λ q )
S( J 0 )= r=1 R [ j( r )d( r ) d( r ) ] 2 + r=1 R [ j( r )+g( r+R )d( r+R ) d( r+R ) ] 2
2 S( J 0 )= [ 2 S( J 0 ) j (1) 2 , 2 S( J 0 ) j(1)j(2) ,, 2 S( J 0 ) j(1)j(R) 2 S( J 0 ) j(2)j(1) , 2 S( J 0 ) j (2) 2 ,, 2 S( J 0 ) j(2)j(R) 2 S( J 0 ) j(R)j(1) , 2 S( J 0 ) j(R)j(2) ,, 2 S( J 0 ) j (R) 2 ] R×R
S( J 0 ) j( 1 ) = 2 d ( 1 ) 2 [ j( 1 )d( 1 ) ]+ 2 d ( 1+R ) 2 [ j( 1 )+g( 1+R )d( 1+R ) ] S( J 0 ) j( 2 ) = 2 d ( 2 ) 2 [ j( 2 )d( 2 ) ]+ 2 d ( 2+R ) 2 [ j( 2 )+g( 2+R )d( 2+R ) ] S( J 0 ) j( R ) = 2 d ( R ) 2 [ j( R )d( R ) ]+ 2 d ( R+R ) 2 [ j( R )+g( R+R )d( R+R ) ]
S 2 ( J 0 ) j( 1 )j( r ) ={ 2( 1 d ( 1 ) 2 + 1 d ( 1+R ) 2 ),r=1 0,others S 2 ( J 0 ) j( 2 )j( r ) ={ 2( 1 d ( 2 ) 2 + 1 d ( 2+R ) 2 ),r=2 0,others S 2 ( J 0 ) j( R )j( r ) ={ 2( 1 d ( R ) 2 + 1 d ( R+R ) 2 ),r=R 0,others
2 S( J 0 )= [ 2( 1 d ( 1 ) 2 + 1 d ( 1+R ) 2 ) 0 0 0 2( 1 d ( 2 ) 2 + 1 d ( 2+R ) 2 ) 0 0 0 2( 1 d ( R ) 2 + 1 d ( R+R ) 2 ) ] R×R
| 2 S ( J 0 ) i×i |= 2 i ( 1 d ( 1 ) 2 + 1 d ( 1+R ) 2 )( 1 d ( 2 ) 2 + 1 d ( 2+R ) 2 )( 1 d ( i ) 2 + 1 d ( i+R ) 2 ),i=1,2,,R
| 2 S ( J 0 ) i×i |>0,i=1,2,,R
g( t )= k=1 K B k sin( 2π f k t+ σ k )
f ' k = f k ,k=1,2,,K
B ' k = B k | 2sin( πτ f k ) | ,k=1,2,,K
f k n τ ,n=1,2,
F= 1 τ = 1 T r ×L
f k nF,n=1,2,
δ'=| 1 2sin( πτ f k ) |δ
f k =( n+Δn )F,Δn0
δ'=| 1 2sin[ πτF( n+Δn ) ] |δ=| 1 2sin[ π( n+Δn ) ] |δ=| 1 2sin( Δnπ ) |δ1δ,Δn0

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