Beschreibung:
Optimizing Wireless Communication Systems presents the underlying technological breakthroughs that allowed the current state of wireless technology development to evolve. The focus is on the two lower layers of the ISO/OSI layered model, specifically the physical and data link layers including the link and media access control sublayers. These two layers are of particular importance to wireless systems due to the spectrum shortage, the broadcast nature of interference, and time variability in the wireless channel.
"This book is a comprehensive collection of advanced concepts divided into two main parts: resource allocation and adaptive transceivers for link optimization. These two research areas are at the core of the recent advances in wireless communication systems. Each chapter covers a relevant, timely, topic and is developed with two focuses. First there is a tutorial and survey that reviews the state of the art in that topic. This is followed by an in depth treatment of the topic including current research topics, case studies and performance results. The material is for a research-oriented audience, involved with cutting-edge research in wireless communications."
I Resource Allocation.- Power Control for Wireless Networks: Conventional and QoS-Flexible Approaches.- Radio Resource Management Performance for the GSM/EDGE Radio Acess Network.- Performance Optimization in Practical HSPA Networks for Wireless Broadband Access.- Congestion Control for Wireless Cellular Systems with Applications to UMTS.- Resource Allocation in Multiuser Multicarrier Wireless Systems with Applications to LTE.- Common Radio Resource Management for Multiaccess Wireless Networks.- II Transceiver Architectures.- Strategies for Link-Level Performance Assessment in the Simulation of Wireless Systems.- Channel Equalization Techniques for Wireless Communications Systems.- Channel Estimation for OFDM Systems: Techniques, Algorithms, and Performance.- Link Adaptation for MIMO-OFDM Systems.- Multiuser MIMO Systems Using Space#x2013;Time#x2013;Frequency Multiple-Access PARAFAC Tensor Modeling.- MIMO Transceiver Design for Enhanced Performance Under Limited Feedback.