Pulse Shape Correlation for Laser Detection and Ranging - Brian T Deas - 書籍 - Biblioscholar - 9781288319763 - 2012年11月19日
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Pulse Shape Correlation for Laser Detection and Ranging

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発送予定日 年7月21日 - 年8月6日
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An un-biased range estimation algorithm was developed that countered errors caused by pulse shape effects in laser radar (LADAR) systems. The Advanced Scientific Concepts FLASH LADAR created three-dimensional images by measuring return intensity and time of flight for a single laser pulse. A range estimate was made by estimating the return time of flight from the peak amplitude of the return laser pulse. Range error estimates occurred when the shape of the measured return pulse deviated from the expected pulse shape. A normalized variable shaping correlation algorithm called NOVAS performed the correlation between the recorded waveforms and a robust set of Gaussian-based reference waveforms covering a wide range of pulse shapes and asymmetries. While NOVAS did not generate the most accurate range estimates due to noise sensitivity, it was able to produce an estimate of the average asymmetric pulse shape. The NOVAS generated average (NGA) asymmetric pulse shape produced a more accurate average range estimate than the NGA symmetric pulse shape in six of seven trials and produced a more accurate average range estimate with less variance than an arbitrarily chosen symmetric reference waveform in all of seven trials.


126 pages, Illustrations, black and white

メディア 書籍     Paperback Book   (ソフトカバーで背表紙を接着した本)
リリース済み 2012年11月19日
ISBN13 9781288319763
出版社 Biblioscholar
ページ数 126
寸法 189 × 246 × 7 mm   ·   185 g
言語 英語