Future Mobile Communications LTE Optimization and Mobile Network Virtualization / [electronic resource] :
by Yasir Zaki.
- XXVI, 173 p. 95 illus. online resource.
- Advanced Studies Mobile Research Center Bremen ; 1 .
- Advanced Studies Mobile Research Center Bremen ; 1 .
Long Term Evolution (LTE) -- LTE Radio Scheduler -- Wireless Network Virtualization -- Continuous Time Markov Chain (CTMC) -- Radio Scheduler Analytical Models -- LTE Network Simulator.
The key to a successful future mobile communication system lies in the design of its radio scheduler. One of the key challenges of the radio scheduler is how to provide the right balance between Quality of Service (QoS) guarantees and the overall system performance. Yasir Zaki proposes innovative solutions for the design of the Long Term Evolution (LTE) radio scheduler and presents several LTE radio scheduler analytical models that can be used as efficient tools for radio dimensioning. The author also introduces a novel wireless network virtualization framework and highlights the potential gains of using this framework for the future network operators. This framework enables the operators to share their resources and reduce their cost, thus achieving a better overall system performance and radio resource utilization. Contents - Long Term Evolution (LTE) - LTE Radio Scheduler - Wireless Network Virtualization - Continuous Time Markov Chain (CTMC) - Radio Scheduler Analytical Models - LTE Network Simulator Target Groups Researchers and students in the field of mobile communication networks, especially with a focus on radio access network design, wireless network virtualization, and radio access analytical modeling. Author Dr. Yasir Zaki completed his doctoral degree at the Communication Networks Group of TZI (Center for Communication and Information Technology), University of Bremen, Germany. He is a senior researcher and a lecturer at the Communication Networks Group, working in the field of future mobile communications and wireless network virtualization.
9783658008086
10.1007/978-3-658-00808-6 doi
Computer science. Computers. Computer Science. Information Systems and Communication Service.