David D. R. Kohler
Florida Environmental Research Institute
14 Papers
136 Citations
David D. R. Kohler is an academic researcher from Florida Environmental Research Institute. The author has contributed to research in topics: Hyperspectral imaging & Digital content. The author has an hindex of 9, co-authored 14 publications.
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Papers
Interpretation of hyperspectral remote-sensing imagery by spectrum matching and look-up tables
Curtis D. Mobley,Lydia K. Sundman,Curtiss O. Davis,Jeffrey H. Bowles,Trijntje Valerie Downes,Robert A. Leathers,Marcos J. Montes,William Paul Bissett,David D. R. Kohler,R. P. Reid,Eric M. Louchard,Arthur C. R. Gleason +11 more
TL;DR: The LUT methodology has been evaluated by application to an Ocean Portable Hyperspectral Imaging Low-Light Spectrometer image acquired near Lee Stocking Island, Bahamas, on 17 May 2000 and the LUT-retrieved bottom depths were on average within 5% and 0.5 m of independently obtained acoustic depths.
Evaluating Light Availability, Seagrass Biomass, and Productivity Using Hyperspectral Airborne Remote Sensing in Saint Joseph’s Bay, Florida
TL;DR: In this article, a high spatial resolution (1 m) airborne hyperspectral sensor (3.2 nm bandwidth) was used to detect benthic vegetation in the complex coastal waters of Saint Joseph's Bay (SJB).
Patent
Spectral imaging system
William Paul Bissett,David D. R. Kohler,Robert G. Steward,Curtis D. Mobley +3 more
- 23 Nov 2004
TL;DR: In this article, a passive hyperspectral imaging sensor is calibrated and integrated into a system having a positioning and attitude detection system and an instrument control and data acquisition system that records data from sensors in a three-dimensional data cube having two spatial dimensions and a spectral dimension.
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Spatial and Spectral Resolution Considerations for Imaging Coastal Waters
TL;DR: In this paper, the authors present results from an analysis of airborne hyperspectral data for a Harmful Algal Bloom in Monterey Bay and recommend increased frequency of sampling, increased spatial sampling and additional spectral channels for ocean color sensors for coastal environments.