DocumentCode
2947316
Title
Computer simulation of the performance of advanced underwater optical viewing systems
Author
Funk, Clarence
Author_Institution
Ocean Technology Department, Naval Undersea Research
fYear
1971
fDate
21-24 Sept. 1971
Firstpage
74
Lastpage
84
Abstract
A simulation model has been formulated for the parametric analysis of the capabilities of advanced underwater viewing systems and to facilitate the comparison of the different systems. The water medium is characterized in the model by the absorption coefficient,
, the scattering coefficient,
, the volume scattering function,
, and the polarization coefficient,
, of the backscattered light. Monte Carlo techniques are used to calculate effective attenuation coefficients for illuminating, image-forming, and backscattered light. These coefficients permit the most significant effects of multiple scattering to be incorporated into the model. The output of the simulation is the expected signal and backscattered irradiance functions across a strip in the image plane of the receiver.
, the scattering coefficient,
, the volume scattering function,
, and the polarization coefficient,
, of the backscattered light. Monte Carlo techniques are used to calculate effective attenuation coefficients for illuminating, image-forming, and backscattered light. These coefficients permit the most significant effects of multiple scattering to be incorporated into the model. The output of the simulation is the expected signal and backscattered irradiance functions across a strip in the image plane of the receiver.Keywords
Absorption; Light scattering; Optical attenuators; Optical pulses; Optical receivers; Optical refraction; Optical scattering; Optical sensors; Polarization; Scattering parameters;
fLanguage
English
Publisher
ieee
Conference_Titel
Engineering in the Ocean Environment, IEEE 1971 Conference on
Conference_Location
San Diego, CA, USA
Type
conf
DOI
10.1109/OCEANS.1971.1161042
Filename
1161042
Link To Document