In a groundbreaking study conducted in southern Brazil, researchers leveraged UAV technology using the Inspired Flight IF1200 to transform how aquatic ecosystems are monitored, providing real-time, high-accuracy data that traditional methods often struggle to achieve.
Historically, water quality monitoring has relied on satellite imagery and in-situ sampling. However, cloud cover and time gaps often compromise satellite data, making it difficult to obtain real-time insights. Meanwhile, manual sampling is labor-intensive and lacks broad coverage, leading to inefficiencies in data collection. By integrating UAVs into water quality monitoring, researchers discovered a faster, more cost-effective, and precise solution.
Figure 1: Map of São Gonçalo Channel with monitoring sites.
A team of researchers from UFPel, UFRJ, and ONR conducted a study in the São Gonçalo Channel, a vital hydro waterway in Brazil. The goal was to map key water quality parameters such as turbidity and organic matter content using UAVs equipped with hyperspectral sensors. The study focused on four critical sites:
When asked about the motivation behind using UAV technology for water quality monitoring, Felipe Lobo, Adjunct Professor at Universidade Federal de Pelotas, explained:
“The fact that we can access water quality from space without relying on satellite images is a game changer. Using UAVs with appropriate sensors, such as a hyperspectral radiometer, allows us to estimate water quality parameters in near-real-time resolution.”
Figure 2: Example of suspended particulate matter visualization including estimates using a Sentinel-2 image (background), and UAV estimation (dots and stripes from left to right). The sediment estimation were based on the Dogliotti et al. (2015) algorithm.
Figure 3: IF1200 equipped with RedEdge-MX, OceanOptics USB-650, and DLS2 sensors.
At the core of this study was the Inspired Flight IF1200, an NDAA-compliant platform chosen for its reliability and ability to integrate advanced sensing technologies. The UAV carried a suite of state-of-the-art sensors, including:
Operating at altitudes between 50 and 80 meters, the IF1200 collected real-time spectral data, which was compared against Sentinel-2 satellite imagery and in-situ radiometer measurement, confirming its accuracy and reliability.
Figure 4: The flooding event has impacted the whole state of Rio Grande do Sul (upper left) with the inundation area shown in pink. a) to d) depicts the areas with UAV data acquisition (red lines), the intention was to measure different water types, including a massive sediment plume that came downstream as shown in c).
To maximize accuracy, researchers implemented a step-by-step data processing workflow, ensuring consistency across UAV and satellite data sources.
The data gathered by the UAV was processed using DroneWQ, a specialized Python-based package for aquatic remote sensing. The workflow included:
Figure 5: Comparison before and after sun-glint removal using the Hedley method.
Figure 6: This comparison demonstrates how UAVs provide more granular, real-time insights than satellite imagery, reducing data gaps caused by cloud cover and time gaps.
The impact of this research extends far beyond the study itself. UAV technology is enabling smarter, more efficient environmental monitoring with applications that include:
Figure 7: IF1200 UAV conducting water quality monitoring in the field.
By combining UAV technology with advanced sensor integration and AI-driven data processing, this study highlights the potential of UAVs in next-generation environmental monitoring. The IF1200 has demonstrated its ability to deliver near real-time, high-accuracy assessments that traditional methods struggle to achieve.
When asked about the most impactful real-world application of this research, Felipe Lobo, shared his perspective:
“Hyperspectral data from UAVs allows for a deep investigation of water components. In the near future, proper water quality management will depend on more precise algorithms, and the current approach enables such investigation.”
As the demand for precise, scalable water quality monitoring solutions grows, UAVs are proving to be an invaluable tool in scientific research, industrial applications, and policy-driven environmental initiatives. This study serves as a compelling example of how UAV technology is reshaping the future of water monitoring, providing researchers, industries, and policymakers with the tools they need to see, understand, and protect our waterways like never before.
This study was made possible through the collaboration and expertise of researchers from UFPel, UFRJ, ONR, and FURG. Special thanks to Felipe Lobo, Lino Sander de Carvalho, Leonardo Pereira, Wesley Moses, Gilberto Collares, and Fernanda Giannini for their contributions to data collection, analysis, and project execution.