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Home / Journals / Problems of risk management in the technosphere / Volume 2025 Issue 2 / ANALYSIS OF METHODS AND SELECTION OF MEASUREMENT INSTRUMENTS FOR MONITORING HARMFUL SUBSTANCES USING UNMANNED AERIAL VEHICLES
ANALYSIS OF METHODS AND SELECTION OF MEASUREMENT INSTRUMENTS FOR MONITORING HARMFUL SUBSTANCES USING UNMANNED AERIAL VEHICLES
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ANALYSIS OF METHODS AND SELECTION OF MEASUREMENT INSTRUMENTS FOR MONITORING HARMFUL SUBSTANCES USING UNMANNED AERIAL VEHICLES
Garelina Svetlana 1
Rybakov Anatoly 2
Zakharyan Robert 3
Authors:
1.  Civil defence academy of EMERCOM of Russia (department of mechanics and engineering graphics, professor)

Russian Federation
2.  Academy of civil protection of EMERCOM of Russia (research center, head of the center)

Russian Federation
3.  Nalbandyan institute of chemical physics of the National Academy of sciences of the Republic of Armenia

Russian Federation
Type:
Article
DOI:
https://doi.org/10.61260/1998-8990-2025-2-35-46
Pages:
from 35 to 46
Status:
Published
Received:
11.04.2025
Accepted:
14.05.2025
Published:
17.07.2025
Subject area:
UDC 614.72
UDC 504.064
Language:
Russian
Keywords:
harmful substances, air analysis, measuring instrument, hard-to-reach places, unmanned aircraft, air complex, gas analyzer, industrial facility, concentration, air environment monitoring
Abstract and keywords
Abstract (English):
The article explores modern approaches to monitoring harmful substances near industrial facilities using unmanned aerial vehicles. Traditional air pollution control methods – such as stationary gas analyzers, instrumental-analytical models, and ground inspections – are analyzed, with key limitations identified in hard-to-reach or hazardous areas. The relevance of employing mobile aerial complexes based on unmanned aerial vehicles is substantiated, as they improve safety, responsiveness, and measurement accuracy. A methodology for selecting measurement instruments to be mounted on unmanned aerial vehicles is proposed, considering constraints such as weight, power consumption, dimensions, operating temperature range, and metrological characteristics. Special attention is given to advanced sensor technologies and optico-physical measurement methods. Requirements for onboard measuring devices are formulated, and principles for their integration into unmanned aerial vehicles platforms are justified. The proposed solutions are aimed at enhancing the effectiveness of atmospheric air monitoring and reducing environmental and technogenic risks.

Keywords:
harmful substances, air analysis, measuring instrument, hard-to-reach places, unmanned aircraft, air complex, gas analyzer, industrial facility, concentration, air environment monitoring
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