Description
Presenting the state-of-the-art in broadband wireless access technology, this unique resource shows you how to design OFDM transceivers and develop a novel wireless transceiver system architecture - one that streamlines wireless system development and deployment because of its reusability, scalability and flexibility. The book gives you a solid understanding of receonfigurable baseband transceiver architecture, fixed broadband access and 802.16 (WiMax) and 802.20 network design.
Table Of Contents
Introduction - Wireless Network Classifications. Range. Signaling. Infrastructure. WiMAX. Wireless Broadband (WiBro). Comparative Analysis of New High-Data Rate. Wireless Communication Technologies with WiMAX 22. Preview of the Book. References.; OFDM Systems and Issues -Introduction. OFDM Concept. OFDM Model. Time-Frequency Interpretation. Impairment Issues in OFDM Systems. Frequency Offset. Timing Offset. Carrier Phase Noise. Multipath Issues. ISI Issues. PAPR. OFDMA. Frequency-Hopping OFDMA. OFDMA System Description. References; Broadband Wireless Access Fundamentals -Introduction. Basics of BWA. BWA Considerations. Frequency Band Allocation for BWA. Will Fixed WiMAX Die?. Wireless Broadband Landscape. WWANs. Global Deployment and Interoperability. Air Interface and PHY Considerations. Coverage. QoS. Deployment Considerations. OFDM Towards Broadband Wireless Access. Issues. References; Fixed Broadband Wireless Access -Introduction. 10- to 66-GHz Licensed Band. Frequencies Below 11 GHz. License-Exempt Frequencies Below 11 GHz (Primarily 5 to 6 GHz). Reference Model. Driving Factors of FBWA. Needs. Advantages. Market Segments for FBWA. Applications. MAC. Service-Specific CS. MAC CPS. Security Sublayer. PHY Layer. WirelessMAN-SC PHY Specification. WirelessMAN-SCa PHY. WirelessMAN-OFDM PHY. WirelessMAN-OFDMA PHY. FBWA Deployment Issues. Conclusions. References.; Mobile Broadband Wireless Access -Introduction. IEEE 802.16e Standard. IEEE 802.16e Enhancements for Mobility. IEEE 802.16e MAC Enhancements. IEEE 802.16e MAC. PMP. MAC PDU Formats. Data Delivery Services for Mobile Networks. Sleep-Mode Support for Mobile Stations. MAC Layer Handover Procedures. Security Sublayer. Physical Layer Description. TDD Frame Structure. Conclusions. References;
Author
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Uma S. Jha
Uma Shanker Jha is the director of product management for the CDMA technologies division of Qualcomm Inc. Dr. Jha received a B.S.E.E. from BIT Sindri, India, an M.S.E.E. from California State University at Fullerton, an engineer degree (equivalent to a Ph.D. without a thesis) from the University of Southern California, Los Angeles, and a Ph.D. from Aalborg University, Denmark. He has 12 issued/filed patents and has published more than 20 papers in refereed journals and conference proceedings. Dr. Jha is a senior member of the IEEE and is a recognized authority in the wireless communication field. He serves on many organizing and technical program committees of IEEE and industry-sponsored conferences and symposia. He is a highly sought-after panelist, keynote speaker, and lecturer on a wide variety of wireless communication topics around the world.
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Ramjee Prasad
Ramjee Prasad is director of the Center for TeleInFrastruktur (CTIF), Aalborg University. He is the author of OFDM for Wireless Communications Systems (Artech House, 2004), coauthor of Applied Satellite Navigation Using GPS, GALILEO, and Augmentation Systems, Multicarrier Techniques for 4G Mobile Communications, and WLANs and WPANs towards 4G Wireless, (Artech House, 2005, 2003, 2003), co-editor of Wireless IP and Building the Mobile Internet (Artech House, 2003), and is the author/coauthor of several other books published by Artech House.