![]() Wu, “The design and implementation of a remote UAV-based mobile health monitoring system”, in Proceedings of SPIE Nondestructive Characterization and Monitoring of Advanced Materials, Aerospace, and Civil Infrastructure, Portland, Oregon, March 2017. Lu, “Received Signal Strength Indicator based Decentralized Control for Robust Long-distance Aerial Networks using Directional Antennas”, IET Control Theory and Applications, vol. Lu, “Long-Range and Broadband Aerial Networking using Directional Antenna (ANDA): Design and Implementation”, IEEE Transactions on Vehicular Technology, Vol. The project also provides exciting interdisciplinary training opportunities for students and the community to learn CPS technologies and the Global City Teams Challenge efforts. The project team includes an academic institution, technology companies and government planners, each of whom provides complementary expertise and perspectives that are crucial to the success of the project. This interdisciplinary project addresses the following technology issues: 1) development of cyber-physical systems (CPS) technology that enables robust long-range drone-to-drone communication infrastructure 2) practical drone system design and performance evaluation for WiFi provision and 3) a systematic investigation of its capability to address smart-city emergency response needs, through both analysis and participation in fire-fighting exercises, as a case study. This communication infrastructure expands the capability of individual drones and enables broad new multi-drone applications for smart cities and has the potential to create new businesses and job markets. ![]() This project will have an immediate impact in firefighting and other smart-city emergency response applications by quickly deploying a broadband communication infrastructure, thus improving the efficiency of first responders and saving lives. This effort is to support the Smart Emergency Response System (SERS) cluster to participate in the Global City Teams Challenge. ![]() This project exploits an early concept of a flexible, low-cost, and drone-carried broadband long-distance communication infrastructure and investigates its capability for immediate smart-city application in emergency response. About the Project EAGER: Aerial Communication Infrastructure for Smart Emergency Response NSF Project Numbers and Links: 1522458 ![]()
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