Water level prediction from social media images with a multi-task ranking approach

P Chaudhary,S D’Aronco,J.P Leitão,K Schindler,J.D Wegner

doi:10.1016/j.isprsjprs.2020.07.003

P Chaudhary, S D’Aronco + Show 3 more

Open Access

https://doi.org/10.1016/j.isprsjprs.2020.07.003

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Abstract

Floods are among the most frequent and catastrophic natural disasters and affect millions of people worldwide. It is important to create accurate flood maps to plan (offline) and conduct (real-time) flood mitigation and flood rescue operations. Arguably, images collected from social media can provide useful information for that task, which would otherwise be unavailable. We introduce a computer vision system that estimates water depth from social media images taken during flooding events, in order to build flood maps in (near) real-time. We propose a multi-task (deep) learning approach, where a model is trained using both a regression and a pairwise ranking loss. Our approach is motivated by the observation that a main bottleneck for image-based flood level estimation is training data: it is difficult and requires a lot of effort to annotate uncontrolled images with the correct water depth. We demonstrate how to efficiently learn a predictor from a small set of annotated water levels and a larger set of weaker annotations that only indicate in which of two images the water level is higher, and are much easier to obtain. Moreover, we provide a new dataset, named DeepFlood, with 8145 annotated ground-level images, and show that the proposed multi-task approach can predict the water level from a single, crowd-sourced image with ≈11 cm root mean square error.

Highlights

The frequency of weather-related disasters is increasing rapidly: During the period of 1995–2015, floods have accounted for 47% of all weather related disasters and have affected over 2 billion people [1]
To mitigate the damage caused by such flood events and for effective disaster response and emergency plans, the rapid analysis of data collected from the affected area is essential [2]
In earlier work [10] we have presented a model to predict flood height from images gathered from social media platforms in a fully automated way using a deep learning framework

Summary

Introduction

The frequency of weather-related disasters is increasing rapidly: During the period of 1995–2015, floods have accounted for 47% of all weather related disasters and have affected over 2 billion people [1]. To mitigate the damage caused by such flood events and for effective disaster response and emergency plans, the rapid analysis of data collected from the affected area is essential [2]. The field data collection approach consists of sending people to the affected areas to survey and document data after the flood event. The information collected can be used to prepare flood-inundation maps [7]. Implementing this approach in real-time is expensive, labour intensive and difficult to obtain from flooded areas during, or immediately after, the flood event [8]

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