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hydrolight

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HE53_Bootstrap enables user to evaluate radiative transfer using field-measured inherent optical properties (IOPs). The program accepts ac-s and hs6 data and performs bootstrapping with replacement to produce a series of depth-binned absorption, attenuation, and backscattering from single spectra. The resulting output files can be uploaded into …

  • Updated Sep 18, 2019
  • Jupyter Notebook

This python notebook reformats a series of Hydrolight-generated m-files (radiative transfer outputs) into hdf5 files. This enables easier access to data for investigators, who can work with structured variables inside the hdf5 files rather than unweildy ascii files, which are difficult to utilize on a large scale. See GitHub readme for more deta…

  • Updated Nov 8, 2020
  • Python

Consistent with up to date protocols, hs6PROCESS_INTERACTIVE processes raw backscattering data as sampled in natural water bodies using HOBI Labs Hydroscat-6 (hs6). hs6PROCESS_SEABASS should is also designed to be compatible with Hydroscat-4 and 2.

  • Updated Feb 11, 2020
  • MATLAB

Consistent with up to date protocols and NASA's SEABASS submission standards, hs6PROCESS_SEABASS processes raw backscattering data as sampled in natural water bodies using HOBI Labs Hydroscat-6 (hs6). hs6PROCESS_SEABASS should also be compatible with Hydroscat-4 and 2.

  • Updated Jun 18, 2019
  • MATLAB

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