VOL. 2: Ascending vs. Descending Node.
Citation:
W.W. Gregg, 1992: Analysis of Orbit Selection for SeaWiFS: Ascending vs. Descending
Node. NASA Tech. Memo. 104566, Vol. 2, S.B. Hooker and E.R. Firestone, Eds., NASA
Goddard Space Flight Center, Greenbelt, Maryland, 16 pp.
Due to range safety considerations, the Sea-viewing Wide Field-of-view
Sensor (SeaWiFS) ocean color instrument may be required to be launched
into a near-noon descending node, as opposed to the ascending node used
by the predecessor sensor, the Coastal Zone Color Scanner (CZCS). The
relative importance of ascending versus descending near-noon orbits was
assessed here to determine if descending node will meet the scientific
requirements of SeaWiFS. Analyses focused on ground coverage, local
times of coverage, solar and viewing geometries (zenith and azimuth
angles), and sun glint. Differences were found in the areas covered by
individual orbits, but were not important when taken over a 16 day
repeat time. Local time of coverage was also different: for ascending
node orbits the Northern Hemisphere was observed in the morning and the
Southern Hemisphere in the afternoon, while for descending node orbits
the Northern Hemisphere was observed in the afternoon and the Southern
in the morning. There were substantial differences in solar azimuth
and spacecraft azimuth angles both at equinox and at the Northern
Hemisphere summer solstice. Negligible differences in solar and
spacecraft zenith angles, relative azimuth angles, and sun glint were
obtained at the equinox. However, large differences were found in
solar zenith angles, relative azimuths and sun glint for the solstice.
These differences appeared to compensate across the scan, however, an
increase in sun glint in descending node over that in ascending node on
the western part of the scan was compensated by a decrease on the
eastern part of the scan. Thus, no advantage or disadvantage could be
conferred upon either ascending node or descending node for noon
orbits. Analyses were also performed for ascending and descending node
orbits that deviated from a noon equator crossing time. For ascending
node, afternoon orbits produced the lowest mean solar zenith angles in
the Northern Hemisphere; and morning orbits produced the lowest angles
for the Southern Hemisphere. For descending node, morning orbits
produced the lowest mean solar zenith angles for the Northern
Hemisphere; afternoon orbits produced the lowest angles for the
Southern Hemisphere.
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