Computer Science – Performance
Scientific paper
May 1995
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1995jhu..repts....d&link_type=abstract
Interim Progress Report, 16 Oct. 1994 - 15 Apr. 1995 Johns Hopkins Univ., Baltimore, MD. Dept. of electrical and Computer Engine
Computer Science
Performance
Design Analysis, Laser Altimeters, Laser Range Finders, Performance Tests, Rangefinding, Receivers, Computer Programs, Errors, Pulse Amplitude, Pulse Duration, Reliability Analysis, Trailing Edges, Waveforms
Scientific paper
Laser altimeters measure the time of flight of the laser pulses to determine the range of the target. The simplest altimeter receiver consists of a photodetector followed by a leading edge detector. A time interval unit (TIU) measures the time from the transmitted laser pulse to the leading edge of the received pulse as it crosses a preset threshold. However, the ranging error of this simple detection scheme depends on the received, pulse amplitude, pulse shape, and the threshold. In practice, the pulse shape and the amplitude are determined by the target target characteristics which has to be assumed unknown prior to the measurement. The ranging error can be improved if one also measures the pulse width and use the average of the leading and trailing edges (half pulse width) as the pulse arrival time. The ranging error becomes independent of the received pulse amplitude and the pulse width as long as the pulse shape is symmetric. The pulse width also gives the slope of the target. The ultimate detection scheme is to digitize the received waveform and calculate the centroid as the pulse arrival time. The centroid detection always gives unbiased measurement even for asymmetric pulses. In this report, we analyze the laser altimeter ranging errors for these three detection schemes using the Mars Orbital Laser Altimeter (MOLA) as an example.
Davidson Frederic M.
Field Christopher T.
Sun Xiaoli
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