Bathymetry Retrieval from Hyperspectral Imagery in the Very Shallow Water Limit: A Case Study from the 2007 Virginia Coast Reserve (VCR'07) Multi-Sensor Campaign
Abstract
We focus on the validation of a simplified approach to bathymetry retrieval from hyperspectral imagery (HSI) in the very shallow water limit (less than 1-2 m), where many existing bathymetric LIDAR sensors perform poorly. In this depth regime, near infrared (NIR) reflectance depends primarily on water depth (water absorption) and bottom type, with suspended constituents playing a secondary role. Our processing framework exploits two optimal regions where a simple model depending on bottom type and water depth can be applied in the very shallow limit. These two optimal spectral regions are at a local maximum in the near infra-red reflectance near 810 nm, corresponding to a local minimum in absorption, and a maximum in the first derivative of the reflectance near 720 nm. These two regions correspond to peaks in spectral correlation with bathymetry at these depths.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 2010
- Accession Number
- ADA530738
Entities
People
- Alan Dean Weidemann
- C. R. Nichols
- Charles M. Bachmann
- Christopher Parrish
- Jon Sellars
- Kevin Mcilhany
- Marcos J. Montes
- Patrick M Woodward
- Robert A. Fusina
- Wesley Goode
Organizations
- United States Naval Research Laboratory