Litcius/Paper detail

Unmanned Aerial Vehicles for Air Pollution Monitoring: A Survey

Naser Hossein Motlagh, Pranvera Kortoçi, Xiang Su, Lauri Lovén, Hans Kristian Hoel, Sindre Bjerkestrand Haugsvær, Varun Srivastava, Casper Fabian Gulbrandsen, Petteri Nurmi, Sasu Tarkoma

2023IEEE Internet of Things Journal80 citationsDOIOpen Access PDF

Abstract

Unmanned Aerial Vehicles (UAVs) equipped with air quality sensors offer a powerful solution for increasing the spatial and temporal resolution of air quality data, searching and detecting emission sources, and monitoring emissions from fixed and mobile sources. Despite the numerous advantages of using UAVs, their use, however, presents several challenges that limit their broader adoption. For example, UAVs require efficient algorithms and components to minimize power consumption, the overall payload used on UAVs needs to be small to ensure optimal portability which poses limitations on the sensors that can be integrated with UAVs, and there is a need for specialized algorithms, e.g., for identifying and locating air pollution sources. Currently, most solutions for UAV-based air quality monitoring focus on specific challenges or demonstrating the potential of using UAVs, and there is a lack of comprehensive overview of the research field and its open challenges. In this paper, we contribute a systematic review of UAV-based air quality monitoring, highlighting and analyzing technical solutions and challenges, and identifying open challenges with the aim of providing a research roadmap for the path forward.

Topics & Concepts

Software portabilityComputer sciencePayload (computing)Air quality indexDroneField (mathematics)Systems engineeringOpen researchRisk analysis (engineering)Real-time computingComputer securityEngineeringMathematicsNetwork packetMeteorologyPhysicsPure mathematicsProgramming languageWorld Wide WebGeneticsBiologyMedicineAir Quality Monitoring and ForecastingUAV Applications and OptimizationImpact of Light on Environment and Health