Orthorectification of WorldView-2 satellite imagery, of the Cape Poinsett area, Budd Coast, Antarctica, captured 2 November 2013

The Australian Antarctic Data Centre (AADC) has WorldView-2 satellite imagery, of the Cape Poinsett area, Budd Coast, Antarctica, captured 2 November 2013. The panchromatic and multispectral bands were orthorectified using the RPC data files. The orthorectified image files are called WV_2Nov2013_pan...

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Bibliographic Details
Other Authors: BENDER, ANGELA (hasPrincipalInvestigator), BENDER, ANGELA (processor), BROLSMA, HENK (hasPrincipalInvestigator), BROLSMA, HENK (processor), Australian Antarctic Data Centre (publisher)
Format: Dataset
Language:unknown
Published: Australian Antarctic Data Centre
Subjects:
imageryBaseMapsEarthCover
INFRARED IMAGERY
EARTH SCIENCE
SPECTRAL/ENGINEERING
INFRARED WAVELENGTHS
VISIBLE IMAGERY
VISIBLE WAVELENGTHS
Satellite Image
Digital Globe
SATELLITES
WORLDVIEW-2
CONTINENT &gt
ANTARCTICA
OCEAN &gt
SOUTHERN OCEAN
GEOGRAPHIC REGION &gt
POLAR
Antarctic
Budd Coast
Cape Poinsett
Poinsett
Southern Ocean
Antarc*
Antarctica
Online Access:https://researchdata.ands.org.au/orthorectification-worldview-2-november-2013/700694
https://data.aad.gov.au/metadata/records/cape_poinsett_worldview_2nov2013
http://nla.gov.au/nla.party-617536
Description
Summary:The Australian Antarctic Data Centre (AADC) has WorldView-2 satellite imagery, of the Cape Poinsett area, Budd Coast, Antarctica, captured 2 November 2013. The panchromatic and multispectral bands were orthorectified using the RPC data files. The orthorectified image files are called WV_2Nov2013_pan_orc and WV_2Nov2013_ms_orc. These two images were then pansharpened using Gram-Schmidt spectral sharpening, the resulting image is called WV_2Nov2013_ps_orc. The processing was done by Angela Bender of the AADC using IDL/ENVI version 4.8. WorldView-2 geometric accuracy specification is 6.5 m CE90, with predicted performance in the range of 4.6 to 10.7 m (15 to 35 feet) CE90. Given that there were no accurate ground control points or digital elevation models available within the image area it was decided that the orthorectification be carried out using the fast mode orthorectification process which derives a model from the RPC co-efficients. Rational polynomial coefficients (RPCs) model the ground-to-image relationship as a third-order, rational, ground-to-image polynomial. The RPC orthorectification process works on a pixel-by-pixel basis to provide correct ground locations, so it can take a significant amount of processing time. An alternative method to the standard RPC orthorectification is a "fast mode" orthorectification. This method works by sacrificing accuracy for speed, since processing time is much faster but the results are slightly less accurate. Instead of solving the RPC equation for each pixel, the fast mode orthorectification solves for a grid of points spaced throughout the image and triangulates a warp between the points. This approach assumes that the geometric accuracy of the WorldView-2 image based on its RPC and attitude information is more accurate than a polynomial correction based on inaccurate ground control points. In this orthorectification approach the image is assumed to be in the correct location (at sea level) and topographic relief distortions are not removed.

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