Retrieval of optically active parameters from oceanic reflectance spectra using multi-layer perceptron and K-Nearest neighbour algorithms
Retrieval of optically active parameters from oceanic reflectance spectra using multi-layer perceptron and K-Nearest neighbour algorithms
Artificial radiance sets, generated with the use of a biooptical and radiative transfer model Hydrolight, corresponding to Case 1 and Case 2 waters, are used as inputs to Multi-layer Perceptron and K-NN algorithms to study the algorithm’s retrieval capabilities for optically active constituents in the water. The radiative transfer model Hydrolight has been used to produce 18,000 artificial reflectance spectra representing various Case 1 and Case 2 water conditions. The remote sensing reflectances were generated at the MERIS wavebands 412, 442, 490, 510, 560, 620, 665 and 682nm from randomly generated triplet combinations of phytoplankton, non-chlorophyllous particles and CDOM concentrations. These reflectances were then used to assess the performance of the KNearest Neighbour and the Multilayer Perceptron algorithms, which were compared to some more traditional band ratio regression algorithms that had been a popular choice for CZCS and SeaWiFS imagery. The objective of the work was to establish the best kind of algorithm for this type of application.
99-105
Bedford Institute of Oceanography
Dransfeld, S.
64b5bbc8-cdf9-4d61-8aa9-66291b0318b8
Tatnall, A.R.L.
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Robinson, I.S.
548399f7-f9eb-41ea-a28d-a248d3011edc
Mobley, C.D.
8e0f6a09-1ec0-4606-ba00-62ea49b72e44
2001
Dransfeld, S.
64b5bbc8-cdf9-4d61-8aa9-66291b0318b8
Tatnall, A.R.L.
2c9224b6-4faa-4bfd-9026-84e37fa6bdf3
Robinson, I.S.
548399f7-f9eb-41ea-a28d-a248d3011edc
Mobley, C.D.
8e0f6a09-1ec0-4606-ba00-62ea49b72e44
Dransfeld, S., Tatnall, A.R.L., Robinson, I.S. and Mobley, C.D.
(2001)
Retrieval of optically active parameters from oceanic reflectance spectra using multi-layer perceptron and K-Nearest neighbour algorithms.
In Proceedings of Current Problems in Optics of Natural Waters.
Bedford Institute of Oceanography.
.
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Conference or Workshop Item
(Paper)
Abstract
Artificial radiance sets, generated with the use of a biooptical and radiative transfer model Hydrolight, corresponding to Case 1 and Case 2 waters, are used as inputs to Multi-layer Perceptron and K-NN algorithms to study the algorithm’s retrieval capabilities for optically active constituents in the water. The radiative transfer model Hydrolight has been used to produce 18,000 artificial reflectance spectra representing various Case 1 and Case 2 water conditions. The remote sensing reflectances were generated at the MERIS wavebands 412, 442, 490, 510, 560, 620, 665 and 682nm from randomly generated triplet combinations of phytoplankton, non-chlorophyllous particles and CDOM concentrations. These reflectances were then used to assess the performance of the KNearest Neighbour and the Multilayer Perceptron algorithms, which were compared to some more traditional band ratio regression algorithms that had been a popular choice for CZCS and SeaWiFS imagery. The objective of the work was to establish the best kind of algorithm for this type of application.
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Published date: 2001
Venue - Dates:
Current Problems in Optics of Natural Waters, St. Petersburg, Russia, 2001-09-25 - 2001-09-28
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Local EPrints ID: 22328
URI: http://eprints.soton.ac.uk/id/eprint/22328
PURE UUID: 18017e46-d76e-4a3c-a51c-1ba8858aab1b
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Date deposited: 28 Feb 2007
Last modified: 15 Mar 2024 06:36
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Author:
S. Dransfeld
Author:
C.D. Mobley
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