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Proceedings Paper

A simple method for determining distances by range-gated vision systems with different forms of illuminating pulses
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Paper Abstract

It is proposed to single out two methods for observing object using range-gated vision systems (RGVS). In the first case the distance between RGVS and an object is fixed. Its observation is made by changing time delay between the leading edges of pulses of laser illumination and gate-pulses of the receiving block, i.e. neighboring layers of space are sequentially seen along the optical axis (visibility zone shifts). In the second case time delay is fixed. This corresponds either to observation of object moving along the optical axis of the system or to the study of ensemble of objects in visibility zone at different distances, including the observation on inclined path. It is shown that such a division of the observation methods has a definite physical justification. Division of the two methods for observing object will promote systematization and better understanding of the investigation results on RGVS.
The regularities were investigated of formation of range-energy profiles (REP) of visibility zone for RGVS with illuminating pulses, the shape of which differs from the rectangular (triangular or trapezoidal) one. It was established that if the illuminating pulse length ΔtL is smaller or equal to the length of gate-pulse ΔtG of the receiving block, then the expressions for characteristic distances coincide with the case of rectangular-shaped pulses and they can be used to determine distances to objects for pulses having non-rectangular shape. At ΔtL > ΔtG in a case of illuminating pulses having triangular shape REP possesses bell-like shape. For illuminating pulses having trapezoidal shape REP has either bell-like or trapezoidal shape. The last shape appears when the duration of the upper base of the illuminating pulse having trapezoidal shape exceeds the gate-pulse duration. The empirical method for determining characteristics distances to the REP maximum and boundary points of plateau area, which can be used for calculation of the distance to the object. Using calibration constants the method was proposed for calculating the distances to objects and its efficiency was experimentally proved.

Paper Details

Date Published: 9 October 2019
PDF: 15 pages
Proc. SPIE 11159, Electro-Optical and Infrared Systems: Technology and Applications XVI, 1115910 (9 October 2019); doi: 10.1117/12.2532103
Show Author Affiliations
B. F. Kuntsevich, SSPA “Optics, Optoelectronics, and Laser Technology” (Belarus)
D. V. Shabrov, B. I. Stepanov Institute of Physics (Belarus)

Published in SPIE Proceedings Vol. 11159:
Electro-Optical and Infrared Systems: Technology and Applications XVI
Duncan L. Hickman; Helge Bürsing, Editor(s)

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