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AEG Chicago January 2022 business meeting
Tuesday, January 18, 2022, 6:45 PM CST
Category: Chapters

AEG Chicago January 2022 business meeting

Jan 18, 2022 06:45 PM in Central Time (US and Canada)

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Listening to Singapore:

Harvesting urban noise for space, water, and hazard mitigation

 Dr. Yunyue Elita Li joined the Department of Earth, Atmospheric, and Planetary Science at Purdue University as a Mary J. Elmore New Frontiers Associate Professor in Data Science since August 2021. Prior to that, she worked in the Department of Civil and Environmental Engineering at the National University of Singapore as an assistant professor since 2016. Elita did her postdoctoral research at Massachusetts Institute of Technology, holding a joint position in the Earth Resources Laboratory and the Department of Mathematics. She received her Ph.D. and M.S. degrees in Geophysics from Stanford University in 2014 and 2010, respectively. She obtained her B.S. degree in Information and Computational Science from China University of Petroleum, Beijing in 2008. Elita’s research group works on geophysical applications in urban environments for smart cities and sustainable developments. By integrating geophysical inversion techniques, ambient noise data analysis, and distributed sensor networks, her group focuses their research efforts on the development of noninvasive, high-resolution, and real-time systems to solve pressing challenges in space, water, security, and sustainability. Elita was the recipient of the J. Clarence Karcher Award from SEG in 2018 and nominated as the SEG South & East Asia Honorary Lecturer for 2022.    Website: http://sgpnus.org/

YouTube Channel: https://www.youtube.com/channel/UC0-95XLac_hQmvR5yMDJO6A

Bilibili Channel: https://space.bilibili.com/590514476


Today, over half of the world's population lives in urban areas, with a projected growth to over two-thirds in 2050. The city-state of Singapore faces the challenges of supporting a sustainable urban system with growing population in a limited land, sea, and air space. The only direction to develop is towards the subsurface. Conventional geophysical methods are not applicable because of their disruptions to urban activities, deteriorated performance due to strong anthropogenic interference, and unsatisfying spatial and temporal resolution. In this seminar, we present recent advances in passive sensing to harvest the urban noise from traffic, construction, and ocean waves with small, dense arrays. We design novel signal processing techniques that turn urban hum to rich information of the urban system, both above and below surface. The resulting meter-scale spatial resolution and minute-scale temporal resolution are the cornerstones to meeting engineering demands in urban environments. We present newly developed fiber sensing technology using existing dark fiber infrastructure that has the potential to enable a million-sensor system underneath each major city around the globe. Applications of these techniques in shallow bedrock mapping, deep aquifer identification, and near-surface monitoring for geohazards provide the opportunity for geophysicists to contribute directly to urban society in planning, managing, and monitoring its space, water, infrastructure and other resources.