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    Journals >Acta Optica Sinica >Volume 26 >Issue 8 >Page 1172 > Article
    • Acta Optica Sinica
    • Vol. 26, Issue 8, 1172 (2006)
    Study on Large Dynamic Range Compression in Airborne Laser Bathymetry
    [in Chinese]1、2, [in Chinese]1, [in Chinese]1, [in Chinese]1, [in Chinese]1, and [in Chinese]1、*
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    [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. Study on Large Dynamic Range Compression in Airborne Laser Bathymetry[J]. Acta Optica Sinica, 2006, 26(8): 1172 Copy Citation Text show less
    References

    [1] G. D. Gilbert, The effects of particle size on contrast improvement by polarization discrimination for underwater targets[J]. Appl. Opt., 1970, 9: 421~428

    [2] L. J. Nullen, Amarildo J. C. Vieira. Application of radar technology of aerial lidar system for enhancement of shallow underwater target detection[J]. IEEE. Trans. on Microwave Theory Technol., 1995, 43(9): 2370~2377

    [3] Michael P. Bristow, Donald H. Bundyd. Signal linearity, gain stability, and gating in photomultiplier: application to differential absorption lidars[J]. Appl. Opt., 1995, 34(21): 4437~4452

    [4] Michael P. Bristow. Lidar-signal compression by photomutiplier gain modulation influence of detector nonlinearity[J]. Appl. Opt., 1998, 37(27): 6468~6479

    [5] Brian Concannon, V. Michael Contarino, Thomas P. Curran. Adjustable dynamic signal compression by photomultiplier space charge control[C]. Proc. SPIE, 1990, 1302: 421~432

    [6] P. B. Coats. The origins of afterpulse in photomultipliers[J]. J. Phys. D. Appl. Phys., 1973, 6:1159~1167

    [7] M. Yamashita, O. Yura. Probability and time distribution of afterpulses in gap first dynode photomultiplier tubes[J]. Nuclear Instruments and Methods, 1982, 196: 199~202

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    [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. Study on Large Dynamic Range Compression in Airborne Laser Bathymetry[J]. Acta Optica Sinica, 2006, 26(8): 1172
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