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| Satellite-and Ground-based Red Tide Detection Method and System by Means of Peak Shift of Remote Sensing Reflectance
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Full
text: |
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Source |
International Journal of Applied Sciences (IJAS) |
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Table of Contents |
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Download
Complete Issue PDF(6.22MB) |
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Volume: 2 Issue: 3 |
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Pages: NULL |
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Publication
Date: July / August 2011 |
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ISSN
(Online): 2180-1258 |
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Pages |
53 - 61 |
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Author(s) |
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Published
Date |
05-08-2011 |
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Publisher |
CSC
Journals, Kuala Lumpur,
Malaysia |
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ADDITIONAL
INFORMATION |
| Keywords Abstract References Cited by Related Articles Collaborative
Colleague |
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KEYWORDS: Red Tide, Remote Sensing, MODIS, Sensor Network |
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| This Manuscript is indexed in the following databases/websites:- |
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| 1. Directory of Open Access Journals (DOAJ) |
| 2. Scribd |
| 3. Google Scholar |
| 4. Docstoc |
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| A method for detection of red tide by means of remote sensing reflectance peak shift is proposed together with suspended solid influence eliminations. Although remote sensing reflectance peak is situated at around 550nm for sea water
without suffered from red tide, the peak is shifted to the longer wavelength when sea water is suffered from red tide. Based on this fact, it is capable to detect red tide using high wavelength resolution of spectroradiometers. The proposed
system uses green color filtered cameras. Acquired imagery data can be transmitted through wireless LAN to Internet terminal and can be archived in server through Internet. This is the proposed ground based red tide monitoring system. The paper also proposes a method for removing suspended solid influence on red tide suffered area estimations. The proposed method and system is validated in laboratory and field experiments. The system is deployed at coastal areas of Ariake Sea in Kyushu, Japan. |
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| 1 |
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Arnone, R. A., Martinolich, P., Gould, R. W., Jr., Stumpf, R., & Ladner, S., Coastal optical properties using SeaWiFS. Ocean Optics XIV, Kailua Kona, Hawaii, USA, November 10– 13, 1998. SPIE Proceedings., 1998.
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Stumpf, R. P., Arnone, R. A., Gould Jr., R. W., Martinolich, P. M., & Martinuolich, V., A partially coupled ocean-atmosphere model for retrieval of water-leaving radiance from SeaWiFS in coastal waters. In S. B. Hooker, & E. R. Firestone (Eds.), SeaWiFS Postlaunch Tech. Report Series. NASA Technical Memorandum, 2003-206892, vol. 22 (p. 74), 2003.
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Gordon, H. R., & Wang, M., Retrieval of water-leaving radiance and aerosol optical thickness over the oceans with SeaWiFS: A preliminary algorithm. Applied Optics, 33, 443–452, 1994.
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O’Reilly, J. E., Maritorena, S., Siegel, D. A., O’Brien, M. C., Toole, D.,Chavez, F. P., et al., Ocean color chlorophyll a algorithms for SeaWiFS, OC2, and OC4: Version 4. In B. Hooker, & R. Firestone (Eds.), SeaWiFS Postlaunch Tech. Report Series. NASA Technical Memorandum 2000-206892, vol. 11 (p. 2000), 2000.
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Weijian C., Hall, L.O., Goldgof, D.B., Soto, I.M., Chuanmin H, Automatic red tide detection from MODIS satellite images, Systems, Man and Cybernetics, 2009. SMC 2009. IEEE International Conference on SMC, 2009.
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Kohei Arai and Yasunori Terayama, Polarized radiance from red tide, Proceedings of the SPIE Asia Pacific Remote Sensing, AE10-AE101-14, Invited Paper, 2010
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Kohei Arai, Red tides: combining satellite- and ground-based detection. 29 January 2011, SPIE Newsroom. DOI: 10.1117/2.1201012.003267, http://spie.org/x44134.xml?ArticleID=x44134
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| Kohei Arai : Colleagues
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| Yasunori Terayama : Colleagues
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