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E-grāmata: TV White Space Spectrum Technologies: Regulations, Standards, and Applications

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Edited by (Qualcomm, San Diego, California, USA), Edited by
  • Formāts: 509 pages
  • Izdošanas datums: 19-Apr-2016
  • Izdevniecība: CRC Press Inc
  • Valoda: eng
  • ISBN-13: 9781439848807
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TV White Space Spectrum Technologies: Regulations, Standards, and ApplicationsPalielināt
  • Formāts: 509 pages
  • Izdošanas datums: 19-Apr-2016
  • Izdevniecība: CRC Press Inc
  • Valoda: eng
  • ISBN-13: 9781439848807
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Although sophisticated wireless radio technologies make it possible for unlicensed wireless devices to take advantage of un-used broadcast TV spectra, those looking to advance the field have lacked a book that covers cognitive radio in TV white spaces (TVWS). Filling this need, TV White Space Spectrum Technologies: Regulations, Standards and Applications explains how white space technology can be used to enable the additional spectrum access that is so badly needed.

Providing a comprehensive overview and analysis of the topics related to TVWS, this forward-looking reference contains contributions from key industry players, standards developers, and researchers from around the world in TV white space, dynamic spectrum access, and cognitive radio fields. It supplies an extensive survey of new technologies, applications, regulations, and open research areas in TVWS. The book is organized in four parts:











Regulations and ProfilesCovers regulations, spectrum policies, channelization, and system requirements StandardsExamines TVWS standards efforts in different standard-developing organizations, with emphasis on the IEEE 802.22 wireless network standard CoexistencePresents coexistence techniques between all potential TVWS standards, technologies, devices, and service providers, with emphasis on the Federal Communications Commissions (FCC) recent regulations and policies, and IEEE 802.19 coexistence study group efforts Important AspectsConsiders spectrum allocation, use cases, and security issues in the TVWS network

This complete reference includes coverage of system requirements, collaborative sensing, spectrum sharing, privacy, and interoperability. Suggesting a number of applications that can be deployed to provide new services to users, including broadband Internet applications, the book highlights potential business opportunities and addresses the deployment challenges that are likely to arise.
About the Editors ix
Contributors xi
Introduction xv
SECTION I REGULATIONS AND PROFILES
1 TV White Space Regulations
3(40)
Stephen J. Shellhammer
Cong Shen
Ahmed K. Sadek
Wenyi Zhang
2 Projecting Regulatory Requirements for TV White Space Devices
43(26)
Benoit Pierre Freyens
Mark Loney
3 TVWS System Requirements
69(18)
Randy L. Ekl
David P. Gurney
Bruce D. Oberlies
4 White Space Availability in the United States
87(26)
Ahmed K. Sadek
Stephen J. Shellhammer
Cong Shen
Wenyi Zhang
5 TV White Spaces in Europe
113(22)
Heikki Kokkinen
Jukka Henriksson
Risto Wichman
SECTION II STANDARDS
6 Standardization Activities Related to TV White Space: PHY/MAC Standards
135(38)
Tuncer Baykas
Jianfeng Wang
M. Azizur Rahman
Zhou Lan
7 Standardization Activities Related to TV White Space: Coexistence and Dynamic Spectrum Access Standards
173(36)
Tuncer Baykas
Markus Muck
Stanislav Filin
Mika Kasslin
Paivi Ruuska
Junyi Wang
8 System Level Analysis of OFDMA-Based Networks in TV White Spaces: IEEE 802.22 Case Study
209(30)
Przemyslaw Pawelczak
Jihoon Park
Danijela Cabric
Pal Grønsund
9 Inter-Network Spectrum Sharing and Communications in Cognitive Radio Networks Using On-Demand Spectrum Contention and Beacon Period Framing
239(44)
Wendong Hu
Gregory J. Pottie
Mario Gerla
SECTION III COEXISTENCE
10 Spectrum Sensing in TV White Space
283(20)
Rania A. Mokhtar
Rashid A. Saeed
Borhanuddin M. Ali
11 Distributed Spectrum Sensing
303(50)
Yohannes D. Alemseged
Chen Sun
Ha Nguyen Tran
Hiroshi Harada
12 Leveraging Sensing and Geo-Location Database in TVWS Incumbent Protection
353(24)
Rashid A. Saeed
Rania A. Mokhtar
SECTION IV OTHER ASPECTS
13 Elements of Efficient TV White Space Allocation Part I: Acquisition Principles
377(24)
Joseph W. Mwangoka
Paulo Marques
Jonathan Rodriguez
14 Elements of Efficient TV White Space Allocation Part II: Business Models
401(20)
Joseph W. Mwangoka
Paulo Marques
Jonathan Rodriguez
15 TV White Space Use Cases
421(36)
Chin-Sean Sum
Gabriel Porto Villardi
Richard Paine
Alex Reznik
Mark Cummings
16 TV White Space Privacy and Security
457(20)
Mark Cummings
Preston Marshall
Index 477
Rashid A. Saeed received his BSc in Electronics Engineering from Sudan University of Science and Technology (SUST) and his PhD in Communication Engineering from Universiti Putra Malaysia (UPM). He served as a senior researcher at MIMOS Berhad and then at Telekom Malaysia R&D, where he was awarded the Platinum Badge for Outstanding Research Achievement Award. Dr. Saeed is currently with the Sudan University for Science and Technology (SUST).

Rashid has published and is responsible for over 70 research papers, tutorials, talks, and book chapters on the topic of UWB, cognitive radio, and radio resources management. He was awarded two US patents and has filed for eight more. Rashid is a certified WiMAX engineer (RF and core network) and is a Six Sigmacertified Black Belt, based on DMAIC++ from Motorola University. He is one of the contributors of IEEE-WCET wireless certification in its earlier stages, and is a senior member of the IEEE, IEM Malaysia, and Sigma Xi.

Stephen J. Shellhammer leads a cognitive radio project within the Qualcomm Corporate Research and Development Department. He is currently the chair of the IEEE 802.19 working group on wireless coexistence, leading a project on TV white space coexistence. He was also the technical lead on spectrum sensing within the IEEE 802.22 working group. He is currently a member of the IEEE 802 executive committee and was also the chair of the IEEE 802.15.2 task group on wireless coexistence. Before joining Qualcomm, he was the Director of the Advanced Development Department at Symbol Technologies, and later worked at Intel in its wireless local area network division. Stephen has a BS in Physics from the University of California, San Diego; an MSEE from San Jose State University; and a PhD in Electrical Engineering from the University of California, Santa Barbara. He was an adjunct professor at SUNY Stony Brook, where he taught graduate courses in electrical engineering. He is a senior member of the IEEE.
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