Litcius/Paper detail

Thermal Remote Sensing from UAVs: A Review on Methods in Coastal Cliffs Prone to Landslides

Maria Teresa Melis, Stefania Da Pelo, Ivan Erbì, Marco Loche, Giacomo Deiana, Valentino Demurtas, Mattia Meloni, Francesco Dessì, Antonio Luca Funedda, Marco Scaioni, Gianvito Scaringi

2020Remote Sensing63 citationsDOIOpen Access PDF

Abstract

Coastal retreat is a non-recoverable phenomenon that—together with a relevant proneness to landslides—has economic, social and environmental impacts. Quantitative data on geological and geomorphologic features of such areas can help to predict and quantify the phenomena and to propose mitigation measures to reduce their impact. Coastal areas are often inaccessible for sampling and in situ surveys, in particular where steeply sloping cliffs are present. Uses and capability of infrared thermography (IRT) were reviewed, highlighting its suitability in geological and landslides hazard applications. Thanks to the high resolution of the cameras on the market, unmanned aerial vehicle-based IRT allows to acquire large amounts of data from inaccessible steep cliffs. Coupled structure-from-motion photogrammetry and coregistration of data can improve accuracy of IRT data. According to the strengths recognized in the reviewed literature, a three-step methodological approach to produce IRTs was proposed.

Topics & Concepts

LandslideRemote sensingNatural hazardPhotogrammetryGeologyHazardComputer scienceEnvironmental resource managementEnvironmental scienceGeomorphologyOceanographyOrganic chemistryChemistry3D Surveying and Cultural HeritageLandslides and related hazardsRemote Sensing and LiDAR Applications