Radio Resource Management for Wireless Networks
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BeschreibungProviding a unified approach to radio resource management, this work offers a comprehensive understanding of the interrelationship between important RRM factors such as power control, channel allocation and link performance to aid in the design of more efficient wireless systems.
InhaltsverzeichnisIntroduction - Historical Perspective on Radio Resource Management. Fundamental Problems in Wireless Networks. Link Performance in Interference Channels - A Review of Multi-User Access in Mobile Communication Systems. Link Performance Models. Wireless Network Models - The Resource Management Problem. Quality-of-Service Models and User Behavior. Principles of Cellular Systems - Frequency Reuse. Static Channel Allocation and Simple Capacity Analysis. Traffic Based Capacity Analysis. Outage Based Capacity Analysis. Directional Antennas and Sectorization. Handover and Mobility - Mobility Management Fundamentals. Handover Decision Algorithms. Handover Resource Management. Transmitter Power Control - Introduction. SIR Balancing. Distributed Power Control. Transmitter Removal. Dynamic Behavior of Power Control. Multi-Rate Power Control. Dynamic Channel Allocation - Introduction. Traffic Adaptive Channel Allocation. Reuse Partitioning. Interference Based DCA Schemes. Orthogonal Frequency Hopping - Random Channel Allocation. Slow Frequency Hopping System Design. DS-CDMA in Wireless Networks - DS-CDMA Random Resource Allocation. Simple Capacity Estimation of DS-CDMA. Refined Capacity Estimation of DS-CDMA Systems. Erlang Capacity of DS-CDMA Systems. Capacity of Multi-Service DS-CDMA Systems. Power Control in DS-CDMA Systems. Soft Handoff in DS-CDMA Systems. Resource Management in Packet Access Systems - Data Traffic and Performance Models. Packet Multiple Access. Some Packet Access Applications. Cell Planning - The Cellular Concept. Cell-Planning Based on Regular Hexagon Geometry. Hierarchical Cell Structures. Automatic Cell-Planning. Some Fundamentals of Wireless Infrastructure Economics - Telecommunications Infrastructures. Wireless Access Systems. Cost Models for Wideband Wireless Infrastructures. Problems. Appendices.
PortraitJens Zander is a professor and head of the Radio Communication Systems Laboratory at the Royal Institute of Technology (KTH) in Stockholm, Sweden. Dr. Zander has published numerous papers on the resource management aspects of personal communication systems. He holds an M.S. and Ph.D. in electrical engineering from Link?ping University, Link?ping, Sweden. Seong-Lyun Kim is an assistant professor at the Royal Institute of Technology (KTH) in Stockholm, Sweden. Dr. Kim's main research field includes power control, rate control/scheduling, and economic models for wireless infrastructure. He holds a B.S. degree in economics from Seoul National University, and M.S. and Ph.D. degrees in operations research from Korea Advanced Institute of Science and Technology (KAIST). Magnus Almgren is a Senior Specialist in Radio Resource Allocation at Ericsson. He holds several patents and has published several papers in the field. The field of work has been in both GSM, TDMA as in 3G. He holds an M.S. degree in Electrical Engineering. Olav Queseth is currently pursuing a Ph.D. degree at the Royal Institute of Technology in Stockholm. Previously he worked as a system engineer designing systems for operation and maintenance of telecommunication equipment. He received his M.S. in computer engineering from Chalmers University, Gothenburg, Sweden in 1994.
Untertitel: Sprache: Englisch.
Verlag: ARTECH HOUSE INC
Erscheinungsdatum: März 2001
Seitenanzahl: 396 Seiten