A methodology for acquisition and processing of thermal data acquired by UAVs: a test about subfluvial springs’ investigations

A M Lingua,F Noardo,M Piras,I Aicardi,B Vigna,F Chiabrando

doi:10.1080/19475705.2016.1225229

A M Lingua, F Noardo + Show 4 more

Open Access

https://doi.org/10.1080/19475705.2016.1225229

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Abstract

ABSTRACTAn accurate description of watercourses helps to easily understand their behaviour both for routine hydrological investigations and in disasters cases. Knowing the position and the dimension of the supply sources of the river is crucial, since they have a direct influence on its behaviour; however, they are not often easily identified, and almost always completely unknown. Aerial thermal data can be critical in order to rapidly reveal and map the river supply source points for extensive areas. Using unmanned aerial vehicles (UAVs) to collect very easily and quickly high-resolution information is thus very interesting. UAVs can house many sensors for performing investigations in different bands of the spectrum, including thermal data. This work explains how UAVs can be used to collect this kind of data (through RGB and thermal devices) and presents a strategy to easily integrate the information from these different sensors. Integration procedures, also applicable in emergency situations, were developed. These methods do not require points on the ground and can be performed using commercial devices.

Highlights

The significant increase over the last few decades in hydrological disasters (Guha-Sapir 2011), due to climate changes, has necessitated the wide-scale monitoring of watercourses (Dabove et al 2015)
This work explains how unmanned aerial vehicles (UAVs) can be used to collect this kind of data and presents a strategy to integrate the information from these different sensors
An important issue in identifying the hydric network is to detect subfluvial springs, that is, the supply source points, in the stream or a river, which are located in the riverbed, and are not visible with an initial, superficial analysis

Summary

Introduction

The significant increase over the last few decades in hydrological disasters (Guha-Sapir 2011), due to climate changes, has necessitated the wide-scale monitoring of watercourses (Dabove et al 2015). The knowledge of water springs (Vigna 2014) is fundamental in preventing disasters, evaluating risks, and managing post-disaster activities. This includes the dynamic knowledge of physical (e.g. flow rates) and chemical parameters of the rivers and streams, plus the characteristics of subterranean water resources and the entire hydric network. To use these data effectively to prevent risks of disaster, georeferencing activities and geomatics skills have become essential for both territorialscale interpretation and modelling, and local, detailed analyses. An important issue in identifying the hydric network is to detect subfluvial springs, that is, the supply source points, in the stream or a river, which are located in the riverbed, and are not visible with an initial, superficial analysis

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