Florida ranks first in the nation for estimated potential residential exposure to hurricane storm surge damage. Fundamental to pre-disaster planning and post-disaster recovery activities is the availability of integrated datasets that can help communities better understand the type and quantity of affordable housing stock at risk. However, oftentimes, even when available, these datasets may be outdated, incomplete, not shared across local departmental jurisdictions, or need significant processing to become more useful for planning and recovery activities. There is an urgent need for practitioners to be able to leverage each other’s information, skills, and experience to develop forward-looking strategies to create a more resilient affordable housing system. This Planning Grant project creates a Flood Hazard Management and Practitioner Information Network for Florida Coastal Communities to establish the foundation for future pre- and post-disaster management as well as strengthening technological and social/planning issues related to coastal communities. This project will focus on co-producing a more comprehensive description of the problem and the challenges to creating more resilient affordable housing, as well as co-producing a process to develop solutions that are both effective and useful to the community. To seed this new Practitioner Information Network, University of Florida will collaborate with a county and a Regional Planning Council in Florida which can be scaled across broader regions.
This Smart & Connected Communities Planning Grant project creates a Flood Hazard Management and Practitioner Information Network for Florida Coastal Communities to establish the foundation for future pre- and post-disaster management as well as strengthening technological and social/planning issues related to coastal communities. This project answers integrative research challenges under three Research Trusts: (1) Data and Information: Creating a Neighborhood Flood Hazard typologies; (2) Increasing Information Access - Smart and Connected Information Infrastructure; and (3) Connecting Communities - Flood Hazard Management and Practitioner Information Network. Among others, this project develops and tests novel scalable methods to seamlessly acquire, validate, and transfer data related to three pilot communities in a county’s residential structures’ Lowest Floor Elevation and other pertinent characteristics that determines flood hazard to a Housing Information System. Scalable methods include image-based processing via publicly available street views and data gathered via crowd source. Through two community-based participatory workshops, this project co-produces a more comprehensive description of the problem and the challenges to creating more resilient affordable housing as well as a process to develop solutions that are both effective and useful to the community.
Abstract
Ravi Srinivasan
Dr. Ravi Shankar Srinivasan, Rinker School Holland Professor and UF Full Professor, holds M.S. degree in Civil Engineering from University of Florida; and M.S. and Ph.D. degrees in Architecture (Building Technology) from the University of Pennsylvania. He is an external faculty collaborator at the Center for Environmental Building & Design, School of Design, University of Pennsylvania. He is a Certified Energy Manager, LEED Accredited Professional, Green Globes Professional, and FAA Drone Pilot. He is the Director of UrbSys (Urban Building Energy, Sensing, Controls, Big Data Analysis, and Visualization) Lab; http://urbsys.org/.
Dr. Srinivasan has published one book as a lead author titled, “The Hierarchy of Energy in Architecture: Emergy Analysis,” Routledge and co-edited a book titled, “Smart Cities: Foundations, Principles, and Applications,” John Wiley & Sons Inc. His research has been disseminated as high-quality technical articles that has gained several citations globally. He also has two provisional patents in the U.S. Patent and Trademark Office. He has graduated five Ph.D. and six M.S. graduates.
Dr. Srinivasan teaches undergraduate and graduate courses including Building Energy Modeling; International Sustainable Development; Foundations, Principle and Applications of Sustainable Development; and Doctoral Core II. More information is available at https://built-ecologist.com/.
Performance Period: 07/15/2020 - 06/30/2021
Institution: University of Florida
Award Number: 1951997
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