
Proceedings Paper
Atmospheric effects on low-elevation transmission measurements at EOPACEFormat | Member Price | Non-Member Price |
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Paper Abstract
An analysis is presented showing the effects of refraction, aerosol extinction, and molecular extinction on transmission
measurements obtained during the EO Propagation Assessment in Coastal Environments (EOPACE) campaign carried out in
San Diego during March and April 1996. Infrared transmission measurements were made over both a 7 km path (mid IR) and
a 15 km path (mid JR and far IR) at heights below 10 m above sea level. The average difference between all the measured
transmissions and aerosol transmittances over the two paths with results obtained using the JR Boundary Layer Effects Model
(IRBLEM) were found to be relatively small, even though the difference for individual measurements can be significant. The
effect of molecular transmittance, as calculated using MODTRAN, is found to reduce the transmission by about 35% forthe 7 km
path, 72% for the mid JR over the 15 km path, and between 70% and 90% for the far JR over the 15 km path.The effect of
aerosol transmittance, as calculated using a variation of the Navy Aerosol Model (NAM), is found to reduce the transmission
from 10% to 90% for the mid JR over both the 7 and 15 km paths, and from 10% to 60% for the far JR over the 15 km path. The
effect of refractance, the focussing and defocussing of radiation due to atmospheric refraction, on the predicted transmissions
is found to account for gains and losses up to 20% for the 7 km path, and gains and losses up to 100% for the 15 km path.
Consequently, any JR transmission model for the marine boundary layer (MBL) must properly take into account the effects on
the transmission due to molecular extinction, aerosol extinction, and refractance.
Paper Details
Date Published: 23 September 1997
PDF: 12 pages
Proc. SPIE 3125, Propagation and Imaging through the Atmosphere, (23 September 1997); doi: 10.1117/12.283883
Published in SPIE Proceedings Vol. 3125:
Propagation and Imaging through the Atmosphere
Luc R. Bissonnette; Christopher Dainty, Editor(s)
PDF: 12 pages
Proc. SPIE 3125, Propagation and Imaging through the Atmosphere, (23 September 1997); doi: 10.1117/12.283883
Show Author Affiliations
J. Luc Forand, Defence Research Establishment Valcartier (Canada)
Mike Duffy, Defence Research Establishment Valcartier (Canada)
Carl R. Zeisse, Naval Command, Control and Ocean Surveillance Ctr. (United States)
Mike Duffy, Defence Research Establishment Valcartier (Canada)
Carl R. Zeisse, Naval Command, Control and Ocean Surveillance Ctr. (United States)
Stuart G. Gathman, Naval Command, Control and Ocean Surveillance Ctr. (United States)
Arie N. de Jong, TNO Physics and Electronics Lab. (Netherlands)
Denis Dion, Defence Research Establishment Valcartier (Canada)
Arie N. de Jong, TNO Physics and Electronics Lab. (Netherlands)
Denis Dion, Defence Research Establishment Valcartier (Canada)
Published in SPIE Proceedings Vol. 3125:
Propagation and Imaging through the Atmosphere
Luc R. Bissonnette; Christopher Dainty, Editor(s)
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