Unmanned Aerial Vehicle Systems for Remote Estimation of Flooded Areas Based on Complex Image Processing

Unmanned Aerial Vehicle Systems for Remote Estimation of Flooded Areas Based on Complex Image Processing

Floods are natural disasters which cause the most economic damage at the global level. Therefore, flood monitoring and damage estimation are very important for the population, authorities and insurance companies. The paper proposes an original solution, based on a hybrid network and complex image pr...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Vol. 17; no. 3; p. 446
Main Authors: Popescu, Dan, Ichim, Loretta, Stoican, Florin
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 23-02-2017
MDPI
Subjects:
Damage assessment
feature selection
Flood damage
flood detection
Floods
Ground based control
Image acquisition
Image processing
image segmentation
Natural disasters
Neural networks
Nodes
path planning
Spatial data
texture analysis
unmanned aerial vehicle
Unmanned aerial vehicles
image processing
unmanned aerial vehicle
image segmentation
path planning
flood detection
feature selection
texture analysis
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Summary:Floods are natural disasters which cause the most economic damage at the global level. Therefore, flood monitoring and damage estimation are very important for the population, authorities and insurance companies. The paper proposes an original solution, based on a hybrid network and complex image processing, to this problem. As first novelty, a multilevel system, with two components, terrestrial and aerial, was proposed and designed by the authors as support for image acquisition from a delimited region. The terrestrial component contains a Ground Control Station, as a coordinator at distance, which communicates via the internet with more Ground Data Terminals, as a fixed nodes network for data acquisition and communication. The aerial component contains mobile nodes-fixed wing type UAVs. In order to evaluate flood damage, two tasks must be accomplished by the network: area coverage and image processing. The second novelty of the paper consists of texture analysis in a deep neural network, taking into account new criteria for feature selection and patch classification. Color and spatial information extracted from chromatic co-occurrence matrix and mass fractal dimension were used as well. Finally, the experimental results in a real mission demonstrate the validity of the proposed methodologies and the performances of the algorithms.
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ISSN:1424-8220
1424-8220
DOI:10.3390/s17030446