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Collaborative Adaptive Sensing of the Atmosphere (CASA)

Release Date:
9/4/2013 12:00 AM
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Architecture, Design, Implementation, and Operation of Sensor/Actuator Networks for Severe Weather Observations

Michael Zink, features Michael Zink, Ph.D

WHAT:

The Alvine Engineering Professional Effectiveness and Enrichment Program will present a lecture by Michael Zink on an overview of CASA’s DCAS system architecture. This includes the sensing nodes, the communication infrastructure, and the central node, which hosts the Meteorological Command & Control (MC&C) architecture. In addition to the system architecture, he will give an overview on two CASA testbeds that are an instantiation of this architecture. Dr. Zink will conclude his presentation with an overview on new topics they are currently investigating in CASA. These topics include the tracking of low-flying aircraft in addition to weather, the integration of infrasound sensors, the application of cloud computing for on demand execution of weather prediction algorithms, and the usage of ultra-high bandwidth links to transmit time-series radar data in real time.

CASA is a NSF funded Engineering Research Center that seeks to revolutionize our ability to observe, understand, predict, and respond to hazardous weather by creating distributed collaborative adaptive sensing (DCAS) networks that sample the atmosphere where and when end-user needs are greatest.

WHO:

Dr. Zink is currently an assistant professor in the Electrical and Computer Engineering Department at the University of Massachusetts in Amherst. As CASA's Deputy Director for Technical Integration, he manages an interdisciplinary team of meteorologists, electrical engineers, social scientists and computer scientists. He works in the fields of sensor networks and distribution networks for high bandwidth data. Further research interests are in wide-area multimedia distribution for wired and wireless environments and network measurements. His research interests also focus on advanced and next generation networks and he has been leading three projects within the NSF GENI initiative.

WHEN:

Sept. 11, from 12:15 p.m. – 1:30 p.m.               

WHERE:

The Schumann Auditorium in the Tagliatela College of Engineering, Room B120, University of New Haven

FOR MORE INFORMATION:  Contact Ismail Orabi at iorabi@newhaven.edu

The University of New Haven is a private, top-tier comprehensive institution recognized as a national leader in experiential education. Founded in 1920 on the campus of Yale University in cooperation with Northeastern University, UNH moved to its current West Haven campus in 1960. The University operates a satellite campus in Tuscany, Italy, and offers programs at several locations throughout Connecticut and in New Mexico and California. UNH provides its students with a unique combination of a solid liberal arts education and real-world, hands-on career and research opportunities. The University enrolls approximately 6,400 students, including nearly 1,800 graduate students and more than 4,600 undergraduates – the majority of whom reside in University housing. Through its College of Arts and Sciences, College of Business, Henry C. Lee College of Criminal Justice and Forensic Sciences, Tagliatela College of Engineering, and College of Lifelong & eLearning, UNH offers 75 undergraduate and graduate degree programs. UNH students have access to more than 50 study abroad programs worldwide and its student-athletes compete in 16 varsity sports in the NCAA Division II’s highly competitive Northeast-10 Conference.