TEES Assistant Research Engineer Department of Electrical & Computer Engineering Texas A&M University
Many modern and future applications of wireless networks require a strict per-packet delay bound. Such applications include VoIP, video streaming, real-time monitoring, and network control. Using wireless networks to serve such applications is particularly challenging, as wireless transmissions are inherently unreliable due to shadowing, fading, and interference. Therefore, most current mechanisms, which only provide “best-effort” service, are not suitable for such applications.
In this talk, I propose a rich analytical model that jointly addresses the application specifications and the unreliable nature of wireless transmissions. Based on this model, I provide solutions to three important problems: admission control, scheduling, and utility maximization. I propose an admission control policy that characterizes precisely when the demands of clients are feasible under the specified wireless limitations. Then I exhibit an on-line scheduling policy that fulfills the demands of all feasible systems. I next present a policy that maximizes a utility when the timely-throughput requirements are elastic. Finally, I show hot to employ rate adaptation, which enhances transmission reliability by using an appropriate transmission rate.
I-Hong Hou is an Assistant Research Engineer in the Department of Electrical and Computer Engineering at Texas A&M University. He received his Ph.D. in Computer Science from the University of Illinois at Urbana-Champaign. His research interests include wireless networks, wireless sensor networks, real- time systems, distributed systems, and vehicular ad hoc networks. He received the C.W. Gear Outstanding Graduate Student Award from the University of Illinois at Urbana-Champaign, and the Silver Prize in the Asian Pacific Mathematics Olympiad.