University of North Texas
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Submitted by Yan Wan on Tue, 01/09/2018 - 5:37pm
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Submitted by Yan Wan on Sun, 02/14/2016 - 11:10pm
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Abstract:
This new CPS Synergy project is concerned with Management-Coupled Cyber and Physical Infrastructures (MCCPIs), which are infrastructures whose cyber- and physical- components are coupled by their wide-area management functions. The main objective of the project is to develop a framework and tool set for threat assessment for MCCPIs which acknowledges their cyber, physical, and human elements, and to apply these tools and methods in a case study of the air traffic management system. Three broad types of threats are considered: en
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Abstract:
Airborne networking utilizes direct flight-to-to-flight communication for flexible information sharing, safe maneuvering, and coordination of time-critical missions. It is challenging because of the high mobility, stringent safety requirements, and uncertain airspace environment. This project uses a co-design approach that exploits the mutual benefits of networking and decentralized mobility control in an uncertain heterogeneous environment.
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Abstract:
The objective of this proposal is to exploit an early concept of a flexible, low-cost, and drone-carried broadband long-distance communication infrastructure and investigate its capability for immediate smart-city application in emergency response.
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Submitted by Yan Wan on Wed, 12/03/2014 - 6:48pm
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Abstract:
The objective of this research is to develop tools for comprehensive design and optimization of air traffic flow management capabilities at multiple spatial and temporal resolutions: at a national airspace-wide scale and one-day time horizon (strategic time- frame); and at a regional scale (of one or a few Centers) and a two-hour time horizon (tactical time-frame).
The following results were obtained in Year 4 of the project: