Poster
in
Workshop: Tackling Climate Change with Machine Learning
Disaster Risk Monitoring Using Satellite Imagery
Kevin Lee · Siddha Ganju
Natural disasters such as flood, wildfire, drought, and severe storms wreak havoc throughout the world, causing billions of dollars in damages, and uprooting communities, ecosystems, and economies. Unfortunately, flooding events are on the rise due to climate change and sea level rise. The ability to detect and quantify them can help us minimize their adverse impacts on the economy and human lives. Using satellites to study flood is advantageous since physical access to flooded areas is limited and deploying instruments in potential flood zones can be dangerous. We are proposing a hands-on tutorial to highlight the use of satellite imagery and computer vision to study natural disasters. Specifically, we aim to demonstrate the development and deployment of a flood detection model using Sentinel-1 satellite data. The tutorial will cover relevant fundamental concepts as well as the full development workflow of a deep learning-based application. We will include important considerations such as common pitfalls, data scarcity, augmentation, transfer learning, fine-tuning, and details of each step in the workflow. Importantly, the tutorial will also include a case study on how the application was used by authorities in response to a flood event. We believe this tutorial will enable machine learning practitioners of all levels to develop new technologies that tackle the risks posed by climate change. We expect to deliver the below learning outcomes:•Develop various deep learning-based computer vision solutions using hardware-accelerated open-source tools that are optimized for real-time deployment•Create an optimized pipeline for the machine learning development workflow•Understand different performance metrics for model evaluation that are relevant for real world datasets and data imbalances•Understand the public sector’s efforts to support climate action initiatives and point out where the audience can contribute