Frank Vernon

Research Geophysicist, Scripps Institution of Oceanography, University of California at San Diego

Dr. Vernon is a Research Geophysicist at the Institute of Geophysics and Planetary Physics, Scripps Institution of Oceanography, University of California at San Diego (http://scrippsscholars.ucsd.edu/flvernon). His current research interests are focused on developing distributed networked real-time sensor networks in terrestrial and marine environments. Currently, he is the Director for the USArray Array Network Facility for the NSF EarthScope program (http://anf.ucsd.edu). This network currently has over 500 stations using seismic, acoustic, and atmospheric pressure sensors delivering real-time data to UCSD, which are redistributed to multiple sites. The ANF is responsible for real-time state-of-health monitoring for the network in addition to the real-time data processing, archiving, and distribution. Data are acquired over multiple types of communication links including wireless, satellite, and wired networks.

Dr. Vernon is the PI on the ANZA broadband and strong motion seismic network that has operated since 1982 providing real-time seismic monitoring capability for southernmost California (http://eqinfo.ucsd.edu). Dr. Vernon is a PI on very dense seismic deployment around the San Jacinto fault zone, focusing on earthquake source physics, fault structure, and providing real-time seismic monitoring capability for southernmost California. In addition, Dr. Vernon is PI on the HPWREN program creating a large-scale wireless high-performance data network that is being used for interdisciplinary research and education applications, as well as a research testbed for wireless technology systems in general (http://hpwren.ucsd.edu).

HPWREN provides wide area wireless internet access throughout southernmost California including San Diego, Riverside, and Riverside counties and the offshore regions. Under UCSD’s HPWREN program, research being conducted on building “last kilometer” wireless links and developing networking infrastructure to capture real-time data from multiple types of sensors from seismic networks, hydrological sensors, oceanographic sensors, wildfire cameras, meteorological sensors, as well as data from coastal radar and GPS.

Wednesday, April 17
11:00 am - 12:15 pm • City Resilience: Preparing for and Responding to Extreme Weather Eventspressure cooker
Wildfires, extreme drought, flooding and other extreme weather events are now the norm. Sit in on this provoking debate among diverse stakeholders from cities, regional agencies, telecommunications providers and others as they debate a series of related issues.