AEROS: Oceanographic Hyperspectral Imaging and Argos-Tracking CubeSat

Sophie Prendergast; Cadence Payne; Miles Lifson; Christian Haughwout; Marcos Tieppo; Paulo Figueiredo; André G. C. Guerra; Alexander Costa; Helder Magalhães; Tiago Hormigo; Francisco Câmara; Carlos Mano; Pedro Pinheiro; Alvin D. Harvey; Bruno Macena; Luis F. Azevedo; Miguel Martin; Tiago Miranda; Eduardo Pereira; João Faria; Inês Castelão; Catarina Cecilio; Emanuel Castanho; Kerri Cahoy; Manuel Coutinho; Helder Silva; Jorge Fontes

Informações chave

Autores:

Sophie Prendergast; Cadence Payne; Miles Lifson; Christian Haughwout; Marcos Tieppo; Paulo Figueiredo; André G. C. Guerra (André Gomes da Costa Guerra); Alexander Costa (Alexander Martins Costa); Helder Magalhães; Tiago Hormigo; Francisco Câmara; Carlos Mano; Pedro Pinheiro; Alvin D. Harvey; Bruno Macena; Luis F. Azevedo; Miguel Martin; Tiago Miranda; Eduardo Pereira; João Faria; Inês Castelão (Inês Bento de Matos Cruz Castelão); Catarina Cecilio; Emanuel Castanho; Kerri Cahoy; Manuel Coutinho; Helder Silva; Jorge Fontes

Publicado em

Setembro 2022

Resumo

AEROS is a 3U CubeSat pathfinder toward a future ocean-observing constellation, targeting the Portuguese Atlantic region. AEROS features a miniaturized, high-resolution Hyperspectral Imager (HSI), a 5MP RGB camera, and a Software Defined Radio (SDR). The sensor generated data will be processed and aggregated for end-users in a new web-based Data Analysis Center (DAC). The HSI has 150 spectrally contiguous bands covering visible to near-infrared with 10 nm bandwidth. The HSI collects ocean color data to support studies of oceanographic characteristics known to influence the spatio-temporal distribution and movement behavior of marine organisms. Usage of an SDR expands AEROS's operational and communication range and allows for remote reconfiguration. The SDR receives, demodulates, and retransmits short duration messages, from sources including tagged marine organisms, autonomous vehicles, subsurface floats, and buoys. The future DAC will collect, store, process, and analyze acquired data, taking advantage of its ability to disseminate data across the stakeholders and the scientific network. Correlation of animal-borne Argos platform locations and oceanographic data will advance fisheries management, ecosystem-based management, monitoring of marine protected areas, and bio-oceanographic research in the face of a rapidly changing environment. For example, correlation of oceanographic data collected by the HSI, geolocated with supplementary images from the RGB camera and fish locations, will provide researchers with near real-time estimates of essential oceanographic variables within areas selected by species of interest.