2023
DOI: 10.3390/en16072959
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Design and Implementation of a Particulate Matter Measurement System for Energy-Efficient Searching of Air Pollution Sources Using a Multirotor Robot

Abstract: Analyzing air pollutants is of key importance for the environmental protection goals. High concentrations of particulate matter (PM) have a particularly negative impact on human life and health. The use of an autonomous multirotor flying robot (drone) for the purposes of locating PM sources requires the design of a dedicated measurement system from scratch. The aim of this study was to make the most important design decision, which is the correct localization of the inlet of the measurement system, taking into… Show more

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Cited by 4 publications
(1 citation statement)
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“…Although a few publications have addressed the numerical simulation of flow around multicopters, their focus is mostly on demonstrating modelling capabilities and flight performance [28,29]. Notable studies by Ghirardelli et al [30] and Suchanik et al [31] simulated the flow around quadcopters to optimally place an ultrasonic anemometer for wind speed measurements [30] and for placement of a particulate matter sensor [31]. While these studies are a promising step towards proper sensor placement on multicopter platforms for atmospheric measurements, they both lack a detailed validation with experimental data and used simplified geometries for the simulations, e.g., actuator disks for the propellers or a neglected drone body.…”
Section: Introductionmentioning
confidence: 99%
“…Although a few publications have addressed the numerical simulation of flow around multicopters, their focus is mostly on demonstrating modelling capabilities and flight performance [28,29]. Notable studies by Ghirardelli et al [30] and Suchanik et al [31] simulated the flow around quadcopters to optimally place an ultrasonic anemometer for wind speed measurements [30] and for placement of a particulate matter sensor [31]. While these studies are a promising step towards proper sensor placement on multicopter platforms for atmospheric measurements, they both lack a detailed validation with experimental data and used simplified geometries for the simulations, e.g., actuator disks for the propellers or a neglected drone body.…”
Section: Introductionmentioning
confidence: 99%