Description: NASA is seeking a sensor that provides in-situ measurements of ocean particulate backscatter, depolarization, beam attenuation, and diffuse attenuation coefficients relevant for combined ocean-atmosphere active remote sensing. To address this need, Intellisense Systems, Inc. (Intellisense) proposes to advance the development of its In-Situ Depolarization, Attenuation, and Scattering (IDEAS) sensor. IDEAS is submersible to >300 m, is configured for ship-based and in-water deployments, and innovatively incorporates a beam attenuation and depolarization sensing subsystem and a backscattering sensing subsystem in a single unit, along with a depth sensor. The first subsystem innovatively measures the inherent losses and depolarization for linearly and circularly polarized beams as a function of depth. The second subsystem determines the scattering for angles >170 deg with an angular resolution of <1 deg and innovatively calculates the full scattering matrix using polarization-sensitive detectors. IDEAS uses this data to calculate the diffuse attenuation coefficients based on a user-defined light field. IDEAS operates at wavelengths ranging from 355 nm to 1064 nm and is designed for unattended operation. In Phase II, Intellisense will develop a prototype with minimal size, weight, and power consumption that is ocean submersible to 300 m or deeper. It will provide in-situ measurements of ocean particulate backscatter, depolarization, beam attenuation, and diffuse attenuation coefficients relevant for combined ocean-atmosphere active remote sensing at 355, 473, 486, 532, and 1064 nm. The backscattering sensing subsystem will provide measurements from 170 deg to 180 deg scattering angles with an angular resolution of <1 deg. Intellisense will deliver the prototype to NASA, including all necessary hardware and software.

Benefits: IDEAS directly meets NASA’s needs for quality field instruments that support NASA’s Earth science objectives in current and future research programs such as the PACE, SBG, NAAMES, and EXPORTS missions. IDEAS will enable an accurate determination of the optical signature of aquatic environments and allow for precise determination of biogeochemical parameters such as chlorophyll or particulate organic carbon concentration. This will allow NASA to refine its models of particulate count versus water color as measured by its satellite-based sensors.

Non-NASA applications for IDEAS include measuring the concentration of water pollutants such as microplastics for water safety testing and oceanic characterization in support of underwater optical communications systems.