{"title":"Water Depth and Optical Attenuation Characteristics of Natural Water Reservoirs nearby Kolkata City Assessed from Hyperion Hyperspectral and LISS-3 Multispectral Images","authors":"Barun Raychaudhuri","volume":94,"journal":"International Journal of Environmental and Ecological Engineering","pagesStart":705,"pagesEnd":709,"ISSN":"1307-6892","URL":"https:\/\/publications.waset.org\/pdf\/9999444","abstract":"
A methodology is proposed for estimating the optical
\r\nattenuation and proportional depth variation of shallow inland water.
\r\nThe process is demonstrated with EO-1 Hyperion hyperspectral and
\r\nIRS-P6 LISS-3 multispectral images of Kolkata city nearby area
\r\ncentered around 22º33′ N 88º26′ E. The attenuation coefficient of
\r\nwater was found to change with fine resolution of wavebands and in
\r\npresence of suspended organic matter in water.<\/p>\r\n","references":"[1] C. D. Mobley, and L. K. Sundman, \"Effects of optically shallow bottoms\r\non upwelling radiances: Inhomogeneous and sloping bottoms\u201d,\r\nLimnology and Oceanography, vol.48, pp. 329\u2013336, 2003.\r\n[2] C. J. Legleiter, D. A. Roberts, and R. L. Lawrence, \"Spectrally based\r\nremote sensing of river bathymetry\u201d, Earth Surface Processes and\r\nLandforms, vol. 34, pp. 1039\u20131059, 2009.SPECTR\r\n[3] E. J. Hochberg, M. J. Atkinson, and S. Andrefouet, \"Spectral reflectance\r\nof coral reef bottom-types worldwide and implications for coral reef\r\nremote sensing\u201d, Remote Sensing of Environment, vol. 85, pp. 159\u2013173,\r\n2003.\r\n[4] M. Ibrahim, and A. P. Cracknell, \"Bathymetry using Landsat MSS data\r\nof Penang Island in Malaysia\u201d, International Journal of Remote Sensing,\r\nvol. 11, pp. 557\u2013559, 1990.\r\n[5] S. Bagheri, M. Stein, and R. Dios, \"Utility of hyperspectral data for\r\nbathymetric mapping in a turbid estuary\u201d,International Journal of\r\nRemote Sensing, vol. 19, pp. 1179\u20131188, 1998.\r\n[6] H. M. Kao, H. Ren, C. S. Lee, C. P. Chang, J. Y. Yen, and T. H. Lin,\r\n\"Determination of shallow water depth using optical satellite images\u201d,\r\nInternational Journal of Remote Sensing, vol. 30, pp. 6241\u20136260, 2009.\r\n[7] N. K. Tripathi, and A. M. Rao, \"Bathymetry mapping in Kakinada Bay,\r\nIndia, using IRS-1D LISS-III data\u201d, International Journal of Remote\r\nSensing, vol. 23, pp. 1013\u20131025, 2002.\r\n[8] M. Durand, E. Rodriguez, D. E. Alsdorf, and M. Trigg, \"Estimating\r\nriver depth from remote sensing swath interferometry measurements of\r\nriver height, slope, and width\u201d, IEEE Journal of Selected Topics in\r\nApplied Earth Observations and Remote Sensing, vol. 3, pp. 20\u201331,\r\n2010.\r\n[9] Z. P. Lee, B. Casey, R. Parsons, W. Goode, A. Weidemann, and R.\r\nArnone, \"Bathymetry of shallow coastal regions derived from spaceborne\r\nhyperspectral sensor\u201d, Proceedings of Ocean 2005 MTS\/IEEE\r\nConference & Exhibition, Washington D.C., USA, 18-23 September,\r\n2005.\r\n[10] L. Zhang, B. Zhang, Z. Chen, L. Zheng, and Q. Tong, \"The application\r\nof hyperspectral remote sensing to coast environment investigation\u201d,\r\nActa Oceanologica Sinica, vol. 28, pp. 1\u201313, 2009.\r\n[11] Z.Liu, and Y. Zhou, \"Direct inversion of shallow-water bathymetry from\r\nEO-1 hyperspectral remote sensing data\u201d, Chinese Optics Letters, vol. 9,\r\npp. 060102-1\u20134, 2011.","publisher":"World Academy of Science, Engineering and Technology","index":"Open Science Index 94, 2014"}