Abstract
Target detection and location based on a laser imaging system means discovering and locating targets by utilizing processing results of laser images.
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References
Huang T, Hu Y, Zhao G et al (2011) Target extraction and classification base on imaging LADAR range image. J Infrared Millimeter Waves 30(2):179–183
Shen Y, Yang Z (2003) A hierarchical filtering algorithm for processing distance images. J Xidian Univ 30(1):136–140 (Natural sciences edition)
Ren S, Wang B, Luo B (1997) Method for automatic detection of threshold and peak point based on histogram exponential smoothing. J Image Graph 2(4):230–233
Rafael CG, Richard EW (2003) Digital image processing, 2nd edn. Publishing house of electronics industry
Zhao N (2006) Processing of target detection using a laser imaging system. Electronic Engineering College, Hefei
Ni-Meister W, Jupp DLB, Dubayah R (2001) Modeling lidar waveforms in heterogeneous and discrete canopies. IEEE Trans Geosci Remote Sens 39(9)
Li X, Strahler AH, Woodcock CE (1995) A hybrid geometric optical-radiative transfer approach for modeling albedo and directional reflectance of discontinuous canopies. IEEE Trans Geosci Remote Sens (33):466–480
Ni W, Li X, Woodcock CE, Roujean JL, Davis R (1997) Transmission of solar radiation in boreal conifer forest: measurements and models. J Geophy Res 102(D24):29555–29566
Ni W, Jupp DLB (2000) Spatial variance in directional remote sensing imagery—recent developments and future perspectives. Remote Sens Rev 18(2–4):441–479
Nilson M (1995) Estimation of tree heights and stand volume using an airborne lidar system. Remote Sens Environ 56:1–7
Lohmann AW, Wirnitzer B (1984) Triple correlations. IEEE 72(7):889–901
Lohmann AW, Wigelt G, Wirnitzer B (1983) Speckle masking in astronomy: triple correlation theory and applications. Appl Opt 22(24):4028–4037
Fuyuan Peng, Xinjie Zhou (2000) Rapid infrared detection of small targets based on multiple correlation analysis. J Infrared Millimeter Waves 19(6):454–456
Yang Y, Peng F, Xie Z et al (2003) Laser detection of underwater targets based on wavelet analysis. Comput Simul 20(5):17–19
Songjun S, Wang S, Wang X et al (1998) Laser detection based on wavelet analysis. J Naval Univ Eng 3:37–42
Liu S, Shao H, Xiang M et al (1999) Principle and error analysis of the airborne laser ranging and multispectral imaging mapping system. J Surveying Mapp 28(2):121–127
You H, Ma J, Liu T et al (1998) Direct geo-location based on 3D remote sensing including GPS, attitude and laser imaging. J Remote Sens 2(1):63–67
Hu Y (2000) Quantitative technology of airborne 3D imaging. The Shanghai Institute of Technical Physics of the Chinese Academy of Sciences, Shanghai
Hu Y (2009) Three-dimensional target detection based on laser staring imaging. Technical report. Electronic Engineering College, Hefei
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© 2018 National Defense Industry Press, Beijing and Springer Nature Singapore Pte Ltd.
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Hu, Y. (2018). Target Detection and Location Using a Laser Imaging System. In: Theory and Technology of Laser Imaging Based Target Detection. Springer, Singapore. https://doi.org/10.1007/978-981-10-3497-8_8
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DOI: https://doi.org/10.1007/978-981-10-3497-8_8
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