Lake SkyWater—A Portable Buoy for Measuring Water-Leaving Radiance in Lakes Under Optimal Geometric Conditions

Lake SkyWater—A Portable Buoy for Measuring Water-Leaving Radiance in Lakes Under Optimal Geometric Conditions

This study introduces Lake SkyWater (LSW), a novel radiometric buoy designed for the reliable measurement of remote sensing reflectance (R<sub>rs</sub>) in lakes using the Skylight-Blocked Approach (SBA). LSW addresses key challenges in “on-water” field radiometry owing to its motorised...

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Bibliographic Details
Main Authors: Arthur Coqué, Guillaume Morin, Tiphaine Peroux, Jean-Michel Martinez, Thierry Tormos
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Sensors
Subjects:
radiometric buoy
skylight-blocked approach (SBA)
remote sensing reflectance
water-leaving radiance
field radiometry
water colour
Online Access:https://www.mdpi.com/1424-8220/25/5/1525
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Summary:This study introduces Lake SkyWater (LSW), a novel radiometric buoy designed for the reliable measurement of remote sensing reflectance (R<sub>rs</sub>) in lakes using the Skylight-Blocked Approach (SBA). LSW addresses key challenges in “on-water” field radiometry owing to its motorised rotating system, which maintains the radiance sensor in optimal geometrical conditions (i.e., facing the sun). Our device is easy to transport and deploy and can be controlled with a smartphone over Wi-Fi. Its modular design, which uses standard components and custom 3D-printed parts, facilitates customisation. A field experiment demonstrated excellent performance in the visible spectrum (400–700 nm) and no significant differences compared with handheld SBA measurements when measuring R<sub>rs</sub> (coefficient of determination > 0.99 and general accuracy (median symmetric accuracy) of ~2.43%). Areas for potential improvement were identified, such as refinement of orientation control and addressing the occasional rotation of the float. Nonetheless, LSW shortens the acquisition time, reduces the risk of fore-optics contamination, and ensures that the measurements are conducted under optimal geometric conditions. In conclusion, LSW is a promising instrument for the operational collection of high-quality R<sub>rs</sub> spectra in lakes, which is important for advancing both research and monitoring applications in aquatic remote sensing.
ISSN:1424-8220

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