Scientific Data (Nov 2024)

High-resolution ocean color imagery from the SeaHawk-HawkEye CubeSat mission

  • Philip J. Bresnahan,
  • Sara Rivero-Calle,
  • John Morrison,
  • Gene Feldman,
  • Alan Holmes,
  • Sean Bailey,
  • Alicia Scott,
  • Liang Hong,
  • Frederick Patt,
  • Norman Kuring,
  • Corrine Rojas,
  • Craig Clark,
  • John Charlick,
  • Baptiste Lombard,
  • Hessel Gorter,
  • Roberto Travaglini,
  • Hazel Jeffrey

DOI
https://doi.org/10.1038/s41597-024-04076-4
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 11

Abstract

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Abstract Here we describe the data obtained by a successful proof-of-concept initiative to launch the first ocean color imager on board a CubeSat satellite and collect research-grade imagery at severalfold higher spatial resolution than any other ocean color satellite mission. The 3U CubeSat, named SeaHawk, flew at a nominal altitude of 585 km. Its ocean color sensor, HawkEye, collected 7,471 research-grade push-broom images of 230 × 780 km2 at best-in-class 130 × 130 m2 per pixel. The sensor is built with comparatively low-cost commercial off-the-shelf optoelectronics and was designed to match NASA SeaWiFS ocean color specifications, including wavelengths, bandwidths, and signal-to-noise ratios. HawkEye’s design for ocean color remote sensing combined with its high spatial resolution make the imagery especially well-suited for coastal, estuarine, and limnological applications. Ultimately, the successful mission provided open access to a rich global dataset of calibrated and quality-controlled imagery for use in aquatic ecology and environmental change studies.