References
- ASD Inc. 2010. FieldSpec ® 3 user manual. Boulder. www.asdi.com.
- Ashphaq M, Srivastava PK, Mitra D. 2021. Review of near-shore satellite derived bathymetry: classification and account of five decades of coastal bathymetry research. J Ocean Eng Sci. 6:340–359.
- Awad M. 2014. Sea water chlorophyll-a estimation using hyperspectral images and supervised Artificial Neural Network. Ecol Inform. 24:60–68. http://dx.doi.org/10.1016/j.ecoinf.2014.07.004.
- Bhattacharya BK, Green RO, Rao S, Saxena M, Sharma S, Ajay Kumar K, Srinivasulu P, Sharma S, Dhar D, Bandyopadhyay S, et al. 2019. Overview of first phase of AVIRIS-NG airborne hyperspectral science campaign over India. Curr Sci. 116(7):1082–1088. https://vedas.sac.gov.in/aviris/pdf/Overview_AVIRIS_NG_Phase_1_campaign.pdf.
- Bo - Cai G, Kathleen BH, Alexander FHG. 1999. Atmosphere removal program (ATREM) user’s guide, version 3.1. Boulder (CO): Center for the Study of Earth from Space (CSES), Cooperative Institute for Research in Environmental Sciences (CIRES), University of Colorado, Boulder, Colo.
- Braga F, Giardino C, Bassani C, Matta E, Candiani G, Strömbeck N, Adamo M, Bresciani M. 2013. Assessing water quality in the northern Adriatic Sea from HICOTM data. Remote Sens Lett. 4(10):1028–1037. 10.1080/2150704X.2013.830203.
- Chavez PS. 1988. An improved dark-object subtraction technique for atmospheric scattering correction of multispectral data. Remote Sens Environ. 24(3):459–479.
- Cherukuru NC, Scientific TC, Anstee JM, Scientific TC, Oubelkheir K. 2014. Influence of suspended particulate concentration, composition and size on the variability of light backscattering in the Great Barrier Reef region. Ocean opt XXII (extended Abstr Portland, Maine. Portland (ME)).
- Corbett CA. 2007. Colored dissolved organic matter (CDOM). In Workshop Summary. Charlotte Harbor National Estuary Program, Punta Gorda, FL.
- D’Sa EJ, Miller RL, McKee BA. 2007. Suspended particulate matter dynamics in coastal waters from ocean color: application to the northern Gulf of Mexico. Geophys Res Lett. 34(23):1–6.
- Dal Moro G, Halounova L. 2007. Haze removal for high-resolution satellite data: a case study. Int J Remote Sens. 28(10):2187–2205.
- Du Y, Guindon B, Cihlar J. 2002. Haze detection and removal in high resolution satellite image with wavelet analysis. IEEE Trans Geosci Remote Sens. 40(1):210–216.
- Gholizadeh MH, Melesse AM, Reddi L. 2016. Spaceborne and airborne sensors in water quality assessment. Int J Remote Sens. 37(14):3143–3180. http://dx.doi.org/10.1080/01431161.2016.1190477.
- Gitelson A. a, Gao B-C, Li R-R, Berdnikov S, Saprygin V. 2011. Estimation of chlorophyll-a concentration in productive turbid waters using a Hyperspectral Imager for the Coastal Ocean—the Azov Sea case study. Environ Res Lett. 6(2):024023.
- Gordon R. 1997. Atmospheric correction of ocean color imagery in the Earth Observing System era. J Geophys Res. 102(D14):17081–17106.
- Green RO, Eastwood ML, Sarture CM, Chrien TG, Aronsson M, Chippendale BJ, Faust JA, Pavri BE, Chovit CJ, Solis M, et al. 1998. Imaging spectroscopy and airborne visible/infrared imaging spectrometer (AVIRIS). Remote Sens Environ. 65(3):227–248.
- Gruninger JH, Ratkowski AJ, Hoke ML. 2004. The sequential maximum angle convex cone (SMACC) endmember model. Algorithms Technol Multispectral. 5425:1.
- Hamlin L, Green RO, Mouroulis P, Eastwood M, Wilson D, Dudik M, Paine C. 2011. Imaging spectrometer science measurements for terrestrial ecology: AVIRIS and new developments. IEEE Aerospace Conference Proceedings; Big Sky, MT. Piscataway (NJ): IEEE; p. 1–7.
- He XY, Hu JB, Chen W, Li XY. 2010. Haze removal based on advanced haze-optimized transformation (AHOT) for multispectral imagery. Int J Remote Sens. 31(20):5331–5348.
- Hooker SB, Firestone ER, Acker JG, Mueller JL, Austin RW. 1995. SeaWiFS technical report series. Volume 25: Ocean optics protocols for SeaWiFS validation, revision 1 (No. NASA-TM-104566-VOL-25-REV-1).
- Huot Y, Babin M, Bruyant F, Grob C, Twardowski MS, Claustre H. 2007. Relationship between photosynthetic parameters and different proxies of phytoplankton biomass in the subtropical ocean. Biogeosciences. 4(5):853–868.
- Ji CY. 2008. Haze reduction from the visible bands of LANDSAT TM and ETM + images over a shallow water reef environment. Remote Sens Environ. 112(4):1773–1783.
- Kar S, Rathore VS, Champati Ray PK, Sharma R, Swain SK. 2016. Classification of river water pollution using Hyperion data. J Hydrol. 537:221–233.
- Kaufman YJ. 1984. Atmospheric effects on remote sensing of surface reflectance. Remote Sensing: Critical Review of Technology Arlington; Vol. 0475. Arlington (TX). p. 20. 10.1117/12.966238
- Keith DJ, Schaeffer B. a, Lunetta RS, Gould RW, Rocha K, Cobb DJ. 2014. Remote sensing of selected water-quality indicators with the hyperspectral imager for the coastal ocean (HICO) sensor. Int J Remote Sens. 35(9):2927–2962. 10.1080/01431161.2014.894663.
- Kudela RM, Palacios SL, Austerberry DC, Accorsi EK, Guild LS, Torres-Perez J. 2015. Application of hyperspectral remote sensing to cyanobacterial blooms in inland waters. Remote Sens Environ. 167:196–205. http://dx.doi.org/10.1016/j.rse.2015.01.025.
- Kutser T, Hedley J, Giardino C, Roelfsema C, Brando VE. 2020. Remote sensing of shallow waters – A 50 year retrospective and future directions. Remote Sens Environ. 240:111619.
- Lee Z. 2014. Update of the quasi-analytical algorithm (QAA_v6). [place unknown]. y.
- Lee Z, Carder KL, Arnone RA. 2002. Deriving inherent optical properties from water color: a multiband quasi-analytical algorithm for optically deep waters. Appl Opt. 41(27):5755–5772. http://www.ncbi.nlm.nih.gov/pubmed/12269575.
- Lee Z, Carder KL, Mobley CD, Steward RG, Patch JS. 1999. Hyperspectral remote sensing for shallow waters. 2. Deriving bottom depths and water properties by optimization. Appl Opt. 38(18):3831–3843. http://www.ncbi.nlm.nih.gov/pubmed/18319990.
- Lee Z, Lubac B, Werdell J, Arnone R. 2009. An update of the quasi - analytical algorithm (QAA - V5). Boston (MA): University of Massachusetts.
- Liu C, Hu J, Lin Y, Wu S, Huang W. 2011. Haze detection, perfection and removal for high spatial resolution satellite imagery. Int J Remote Sens. 32(23):8685–8697.
- Makarau A, Richter R, Müller R, Reinartz P. 2014. Haze detection and removal in remotely sensed multispectral imagery. IEEE Trans Geosci Remote Sens. 52(9):5895–5905.
- Mishra DR, Schaeffer BA, Keith D. 2014. Performance evaluation of normalized difference chlorophyll index in northern Gulf of Mexico estuaries using the Hyperspectral Imager for the Coastal Ocean. GIScience Remote Sens. 51(2):175–198.
- Mobley CD. 1999. Estimation of the remote-sensing reflectance from above-surface measurements. Appl Opt. 38(36):7442–7455.
- Moses WJ, Gitelson AA, Berdnikov S, Bowles JH, Povazhnyi V, Saprygin V, Wagner EJ, Patterson KW. 2014. HICO-based NIR – red models for estimating chlorophyll- a concentration in productive coastal waters. IEEE Geosci Remote Sensing Lett. 11(6):1111–1115.
- Nechad B, Ruddick KG, Park Y. 2010. Calibration and validation of a generic multisensor algorithm for mapping of total suspended matter in turbid waters. Remote Sens Environ. 114(4):854–866. http://dx.doi.org/10.1016/j.rse.2009.11.022.
- Pan X, Xie F, Jiang Z, Yin J. 2015. Haze removal for a single remote sensing image based on deformed haze imaging model. IEEE Signal Process Lett. 22(10):1806–1810.
- Richter R. 1996. Atmospheric correction of satellite data with haze removal including a haze/clear transition region. Comput Geosci. 22(6):675–681.
- SAC, ISRO, Ahmedabad I. 2015. ISRO-NASA AVIRIS-NG airborne flights over India science plan document for hyperspectral remote sensing. Ahmedabad, India: SAC, ISRO.
- Shen F, Verhoef W. 2010. Suppression of local haze variations in MERIS images over turbid coastal waters for retrieval of suspended sediment concentration. Opt Express. 18(12):12653–12662.
- Shi W, Wang M. 2017. Characterization of particle backscattering of global highly turbid waters from VIIRS ocean color observations. J Geophys Res Oceans. 122(11):9255–9275.
- Shi W, Wang M. 2019. A blended inherent optical property algorithm for global satellite ocean color observations. Limnol Oceanogr Methods. 17(7):377–394.
- Sun L, Latifovic R, Pouliot D. 2017. Haze removal based on a fully automated and improved haze optimized transformation for landsat imagery over land. Remote Sens. 9(10):972.
- Twardowski MS, Boss E, Sullivan JM, Donaghay PL. 2004. Modeling the spectral shape of absorption by chromophoric dissolved organic matter. Mar Chem. 89(1–4):69–88.
- Vahtmäe E, Paavel B, Kutser T. 2020. How much benthic information can be retrieved with hyperspectral sensor from the optically complex coastal waters? J Appl Rem Sens. 14(01):1.
- Vane G, Green RO, Chrien TG, Enmark HT, Hansen EG, Porter WM. 1993. The airborne visible/infrared imaging spectrometer (AVIRIS). Remote Sens Environ. 44(2–3):127–143.
- Zhang Y, Guindon B, Cihlar J. 2002. An image transform to characterize and compensate for spatial variations in thin cloud contamination of Landsat images. Remote Sens Environ. 82(2–3):173–187.
- Zhu W, Yu Q. 2012. Inversion of chromophoric dissolved organic matter from EO-1 hyperion imagery for turbid estuarine and coastal waters. IEEE Trans Geosci Remote Sens. 51(6):1–13.