Flood Detection Based on Unmanned Aerial Vehicle System and Deep Learning

, , &
Complexity 2022:1-9 (2022)
  Copy   BIBTEX

Abstract

Floods are one of the main natural disasters, which cause huge damage to property, infrastructure, and economic losses every year. There is a need to develop an approach that could instantly detect flooded extent. Satellite remote sensing has been useful in emergency responses; however, with significant weakness due to long revisit period and unavailability during rainy/cloudy weather conditions. In recent years, unmanned aerial vehicle systems have been widely used, especially in the fields of disaster monitoring and complex environments. This study employs deep learning models to develop an automated detection of flooded buildings with UAV aerial images. The method was explored in a case study for the Kangshan levee of Poyang Lake. Experimental results show that the inundation for the focal buildings and vegetation can be detected from the images with 88% and 85% accuracy, respectively. And further, we can estimate the buildings’ inundation area according to the UAV images and flight parameters. The result of this study shows promising value of the accuracy and timely visualization of the spatial distribution of inundation at the object level for the end users from flood emergency response sector.

Categories

Keywords

Reprint years

DOI

10.1155/2022/6155300

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 91,349

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Power Control Algorithm Based on a Cooperative Game in User-Centric Unmanned Aerial Vehicle Group.Yuexia Zhang & Pengfei Zhang - 2021 - Complexity 2021:1-6.
Multiscale Feature Filtering Network for Image Recognition System in Unmanned Aerial Vehicle.Xianghua Ma, Zhenkun Yang & Shining Chen - 2021 - Complexity 2021:1-11.
Is It Morally Right to Use Unmanned Aerial Vehicles (UAVs) in War?Linda Johansson - 2011 - Philosophy and Technology 24 (3):279-291.
Intelligence system of artificial vision for unmanned aerial vehicle.Shkuropat O. A., Shelehov I. V. & Myronenko M. A. - 2020 - Artificial Intelligence Scientific Journal 25 (4):53-58.
Theory and Realization of Secondary Task Assignment for Multi-UAV Pickup Based on Green Scheduling.Shunqi Liu, Xi Fang, Yi Guo, Chenwei Liu & Jian Yang - 2021 - Complexity 2021:1-12.
Secure UAV-Based System to Detect Small Boats Using Neural Networks.Moisés Lodeiro-Santiago, Pino Caballero-Gil, Ricardo Aguasca-Colomo & Cándido Caballero-Gil - 2019 - Complexity 2019:1-11.
Diagnosis of Pneumonia Using Deep Learning.Alaa M. A. Barhoom & Samy S. Abu-Naser - 2022 - International Journal of Academic Engineering Research (IJAER) 6 (2):48-68.
A Fast Internal Wave Detection Method Based on PCANet for Ocean Monitoring.Shengke Wang, Qinghong Dong, Lianghua Duan, Yujuan Sun, Muwei Jian, Jianzhong Li & Junyu Dong - 2019 - Journal of Intelligent Systems 28 (1):103-113.
Deep Reinforcement Learning for UAV Intelligent Mission Planning.Longfei Yue, Rennong Yang, Ying Zhang, Lixin Yu & Zhuangzhuang Wang - 2022 - Complexity 2022:1-13.
Trust in Intrusion Detection Systems: An Investigation of Performance Analysis for Machine Learning and Deep Learning Models.Basim Mahbooba, Radhya Sahal, Martin Serrano & Wael Alosaimi - 2021 - Complexity 2021:1-23.
Multidirection Object Detection in Aerial View of Traffic Target under Complex Scenes.Zeqing Zhang, Weiwei Lin & Yuqiang Zheng - 2021 - Complexity 2021:1-9.
Responsible governance of civilian unmanned aerial vehicle (UAV) innovations for Indian crop insurance applications.Anjan Chamuah & Rajbeer Singh - 2022 - Journal of Responsible Technology 9 (C):100025.
Detection of Brain Tumor Using Deep Learning.Hamza Rafiq Almadhoun & Samy S. Abu-Naser - 2022 - International Journal of Academic Engineering Research (IJAER) 6 (3):29-47.
A Backstepping Controller with the RBF Neural Network for Folding-Boom Aerial Work Platform.Haidong Hu, Yandong Song, Pu Fan, Chen Diao & Ning Cai - 2022 - Complexity 2022:1-9.
A Moving Object Detection Method Using Deep Learning-Based Wireless Sensor Networks.Linghua Zhao & Zhihua Huang - 2021 - Complexity 2021:1-12.

Analytics

Added to PP
2022-05-07

Downloads
11 (#1,110,001)

6 months
7 (#411,886)

Historical graph of downloads
How can I increase my downloads?

Author's Profile

Nancy Wu
University of Toronto, St. George Campus

Citations of this work

No citations found.

Add more citations

References found in this work

No references found.

Add more references