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Informationen zum Autor Dr. Guillaume de la Roche, University of Bedfordshire, UK Guillaume de la Roche received the Dipl.-Ing. in telecommunication from the School of Chemistry Physics and Electronics (CPE) Lyon, France, an M.S. degree in signal processing (2003) and a Ph.D. degree in wireless communication (2007) from the National Institute of Applied Sciences (INSA), Lyon, France. Dr. Andres Alayon-Glazunov, KTH - Royal Institute of Technology, Sweden Andres Alayon-Glazunov obtained the M.Sc. (Engineer-Researcher) degree in Physical Engineering from Saint Petersburg's State Polytechnical University, Russia, and the Ph.D. degree in Electrical Engineering from Lund University, Sweden, during 1988-1994 and 2006-2009, respectively. Prof. Ben Allen, University of Bedfordshire, UK Ben Allen received his PhD from the University of Bristol in 2001. In 2002 he joined Tait Electronics Ltd, Christchurch, New Zealand, before becoming a Research Fellow with the Centre for Telecommunications Research, King's College London. Klappentext LTE- A and Next Generation Wireless Networks: Channel Modeling and Performance describes recent advances in propagation and channel modeling necessary for simulating next generation wireless systems. Due to the radio spectrum scarcity, two fundamental changes are anticipated compared to the current status. Firstly, the strict reservation of a specific band for a unique standard could evolve toward a priority policy allowing the co-existence of secondary users in a band allocated to a primary system. Secondly, a huge increase of the number of cells is expected by combining outdoor base stations with smaller cells such as pico/femto cells and relays. This evolution is accompanied with the emergence of cognitive radio that becomes a reality in terminals together with the development of self-organization capabilities and distributed cooperative behaviors.The book is divided into three parts:* Part I addresses the fundamentals (e.g. technologies, channel modeling principles etc.)* Part II addresses propagation and modeling discussing topics such as indoor propagation, outdoor propagation, etc.* Part III explores system performance and applications (e.g. MIMO Over-the-air testing, electromagnetic safety, etc). Zusammenfassung LTE- A and Next Generation Wireless Networks: Channel Modeling and Performance describes recent advances in propagation and channel modeling necessary for simulating next generation wireless systems. Due to the radio spectrum scarcity, two fundamental changes are anticipated compared to the current status. Inhaltsverzeichnis About the Editors xv List of Contributors xvii Preface xix Acknowledgements xxiii List of Acronyms xxv Part I BACKGROUND 1 Enabling Technologies for 3GPP LTE-Advanced Networks 3 Narcis Cardona, Jose F. Monserrat and Jorge Cabrejas 1.1 Introduction 4 1.2 General IMT-Advanced Features and Requirements 5 1.3 Long Term Evolution Advanced Requirements 11 1.4 Long Term Evolution Advanced Enabling Technologies 15 1.5 Summary 33 2 Propagation and Channel Modeling Principles 35 Andreas F. Molisch 2.1 Propagation Principles 35 2.2 Deterministic Channel Descriptions 41 2.3 Stochastic Channel Description 46 2.4 Channel Modeling Methods 51 Part II RADIO CHANNELS 3 Indoor Channels 67 Jianhua Zhang and Guangyi Liu 3.1 Introduction 67 3.2 Indoor Large Scale Fading 69 3.3 Indoor Small Scale Fading 83 4 Outdoor Channels 97 Petros Karadimas 4.1 Introduction 97 4.2 Reference Channel Model 98 4.3 Small Scale Variations 103 4.4 Path Loss and Large Scale Variations 117 4.5 Summary 119 5 Outdoor-Indoor Channel 123...
