Open-source, low-cost, in-situ turbidity sensor for river network monitoring

Droujko, Jessica; Molnár, Péter

doi:10.1038/s41598-022-14228-4

Cited by 22 publications

(8 citation statements)

References 50 publications

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“…This is true even for chemical analytes such as nutrients (e.g., nitrogen, phosphorus) for which methods are well known. Progress towards low-cost platforms (below €5,000) (Schierenbeck and Smith, 2017;McCaul et al, 2021;Droujko and Molnar, 2022;Li et al, 2022) has not been as rapid as might have been expected, despite considerable efforts over several decades to deliver autonomous sensors to monitor nitrogen and phosphorus. Nitrogen commonly occurs in the form of ammonia (NH 4 + ), nitrate (NO 3…”

Section: Reducing the Cost Of Aquatic Chemical-sensor Platformsmentioning

confidence: 99%

Understanding and mitigating global change with aquatic sensors: current challenges and future prospects

Diamond,

Relyea,

McCaul

2023

Front. Sens.

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Human activities are causing global change around the world including habitat destruction, invasive species in non-native ecosystems, overexploitation, pollution, and global climate change. While traditional monitoring has long been used to quantify and aid mitigation of global change, in-situ autonomous sensors are being increasingly used for environmental monitoring. Sensors and sensor platforms that can be deployed in developed and remote areas and allow high-frequency data collection, which is critical for parameters that exhibit important short-term dynamics on the scale of days, hours, or minutes. In this article, we discuss the benefits of in-situ autonomous sensors in aquatic ecosystems as well as the many challenges that we have experienced over many years of working with these technologies. These challenges include decisions on sensor locations, sensor types, analytical specification, sensor calibration, sensor drift, the role of environmental conditions, sensor fouling, service intervals, cost of ownership, and data QA/QC. These challenges result in important tradeoffs when making decisions regarding which sensors to deploy, particularly when a network of sensors is desired to cover a large area. We also review recent advances in designing and building chemical-sensor platforms that are allowing researchers to develop the next-generation of autonomous sensors and the power of integrating multiple sensors into a network that provides increased insight into the dynamics of water quality over space and time. In the coming years, there will be an exponential growth in data related to aquatic sensing, which will be an essential part of global efforts to monitor and mitigate global change and its adverse impacts on society.

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Section: Reducing the Cost Of Aquatic Chemical-sensor Platformsmentioning

confidence: 99%

Understanding and mitigating global change with aquatic sensors: current challenges and future prospects

Diamond,

Relyea,

McCaul

2023

Front. Sens.

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“…Data acquisition and processing will play a key role in addressing most questions but might require new study designs and protocols for novel parameters and a higher spatiotemporal resolution than previously available in hydropeaking studies. Rapid advances in remote and proximal sensing techniques and low-cost environmental sensors [168] can potentially boost research activities in this direction [169].…”

Section: Synthesis Of Emerging Research Needsmentioning

confidence: 99%

100 Key Questions to Guide Hydropeaking Research and Policy

et al. 2023

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“…Using monochromatic light sources at infrared wavelengths solves the interference problem [8]. However, the presence of air bubbles, particle shape, size heterogeneity, and the carcinogenic nature of formazin are of great urgency for further study [9,10]. Developing a multi-detector system at various lighting angles is an option designed to anticipate potential measurement errors caused by some air bubbles in the measured suspended sample [10].…”

Section: Introductionmentioning

confidence: 99%

Limiting Factors of Simultaneous Measurement Method for Turbidity and Total Suspended Solids Based on Image Processing Approaches

Hakiki,

Purnama,

Zevi

et al. 2024

J. Phys.: Conf. Ser.

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Image processing is one of the computational approaches that can be applied to measure fluctuations in surface water pollutant concentrations. Identifying factors that can affect and become a limitation in the development of image processing-based simultaneous measurement methods is the focus of the discussion in this article. Nineteen variables have been identified from the three-factor categories of hardware configuration, software settings, and the measured suspension characteristics. Measurements were made on thirty images extracted from video captured with a USB Mechanic-DX-230 camera with a 23-megapixel resolution Panasonic CMOS sensor equipped with a macro lens in 130X magnification on the S-EYE-1.6.0.11 interface. Image frame extraction was performed with VirtualDub2 build 4428/release, followed by digital image processing and analysis with ImageJ 1.46r. The lens’s focal length to the sample cell is 5 cm, setting the brightness parameter minimum of 90 and maximum of 255 and minimum threshold settings of 209 and maximum of 255, which is a controlled factor to achieve the best repeatability rate. It is indicated by a relative standard deviation of up to 6% in the measurement chamber with a dark background. Complying with the stated factors is essential to ensure measurement results’ reliability and validity.

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Open-source, low-cost, in-situ turbidity sensor for river network monitoring

Cited by 22 publications

References 50 publications

Understanding and mitigating global change with aquatic sensors: current challenges and future prospects

Understanding and mitigating global change with aquatic sensors: current challenges and future prospects

100 Key Questions to Guide Hydropeaking Research and Policy

Limiting Factors of Simultaneous Measurement Method for Turbidity and Total Suspended Solids Based on Image Processing Approaches

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