Meeting Date: Wednesday, November 9, 2016
Time: 6:00 PM Networking; 6:30 Dinner; 7:15 PM Presentation
Speaker: Prof. Rose Qingyang Hu, Utah State University
Location: The Doubletree Club Orange County Airport
Cost: Free with no dinner; With dinner: First 10 early-birds (first-come-first-serve) are free! After that, $20 for non-members, $10 for IEEE members, $5 for student-members
Event Details: http://oc-comsig.eventbrite.com/
Summary: Device-to-Device (D2D) communication, MU-MIMO and mmWave are among the key technologies in the next generation (5G) cellular network as they can significantly improve the system performance on connectivity, spectrum efficiency and energy efficiency. In this talk, we will address how to exploit these technology advantages and tackle the key technical challenges to achieve high system performance gains. In particular, we will present D2D, MU-MIMO, NOMA and mmWave based schemes and their related performance study in 5G/IoT settings. These schemes include power control in D2D underlaid cellular networks, beamforming and NOMA based MU-MIMO in a downlink cellular network with underlay D2D users, and relay-assisted Millimeter Wave cellular networks. The talk will present detailed 5G system model, technology background, mathematical approaches and performance results based on both analysis and simulations. Key technical insights from these studies will be provided.
Bio: Dr. Rose Qingyang Hu [S’95, M’98, SM’06] (firstname.lastname@example.org) is an Associate Professor of Electrical and Computer Engineering Department at Utah State University. She received her B.S. degree from University of Science and Technology of China, her M.S. degree from New York University, and her Ph.D. degree from the University of Kansas. She has more than 10 years of R&D experience with Nortel, Blackberry and Intel as a technical manager, a senior wireless system architect, and a senior research scientist, actively participating in industrial 3G/4G technology development, standardization, system level simulation and performance evaluation.