Das 21. Jahrhundert wird ein Meilenstein der
Kommunikationstechnologie werden, aufbauend auf der drahtlosen
Kommunikationstechnik, dem Übergang zu optischen Netzwerken und der
Ausweitung des Internets. In diesem Band erläutern Experten
aktuelle und zukünftige Entwicklungen der drahtlosen
Kommunikationstechnik. Dazu wurden die besten Artikel aus den
IEEE-Veröffentlichungen zusammengefasst.
Mansoor Shafi is Principal Advisor on Wireless in Telecom New
Zealand. He has been employed by Telecom NZ for over 20 years and
has extensively published on many subjects relating to the physical
layer of communication systems. He is Fellow of the IEEE and was
awarded the Comsoc Public Service Award in 1992.
Shigeaki Ogose joined NTT in 1977. Since then, he was engaged in
the research and development of the digital mobile communication
systems including PHS. He has been with the Faculty of Engineering,
Kagawa University, since 1998. He received his B.S.E.E. and
M.S.E.E. degrees from Hiroshima University, Japan, in 1975 and
1977, respectively. He received Ph.D. degree from Kyoto University,
Japan, in 1986. Dr. Ogose is a member of the IEICE.
Takeshi Hattori joined NTT in 1974. Since then, he was engaged in
the research and development of cellular systems, paging systems,
maritime system, and advanced cordless systems. He has been with
the Faculty of Science and Technolo gy, Sophia University, since
1997. He received his B.S.E.E., M.S.E.E. and Ph.D. degrees from the
University of Tokyo, Japan, in 1969 , 1971, and 1974, respectively.
He received Ph.D. degree from Kyoto University, Japan, in 1986.
Professor Hattori is a member of the IEICE.
Mansoor Shafi is Principal Advisor on Wireless in Telecom New Zealand. He has been employed by Telecom NZ for over 20 years and has extensively published on many subjects relating to the physical layer of communication systems. He is Fellow of the IEEE and was awarded the Comsoc Public Service Award in 1992.
Inhaltsangabe
- Preface
1 Introduction (Mansoor Shafi, Shigeaki Ogose, and Keith Butterworth)
PART 1: VISIONS OF WIRELESS COMMUNICATIONS APPLICATIONS IN THE 21ST CENTURY
2 Vision of Wireless Communications in the 21st Century (Raymond Steele)
3 Wireless Migration to Packet Network: U.S. Viewpoint (Chung Liu and Wayne Strom)
4 Vision of Wireless Communications Applications in the 21 st Century: A View from Japan (Mitsutoshi Hatori)
PART 2: DEVELOPMENTS IN INTERNATIONAL STANDARDS
5 Developments in International Standards (Jane Brownley, Fran O'Brien, Maria Palamara, Derek Richards, and Lynne Sinclair)
6 Standardization on Broadband Wireless Access: Wireless ATM and IP (Masahiro Umehira)
PART 3: PROPAGATION ISSUES
7 Multipath Effects Observed for the Radio Channel (Henry L. Bertoni)
8 Indoor Propagation Modeling (Homayoun Hashemi)
9 Propagation Loss Prediction Models (Masaharu Hata)
10 Path-Loss Measurements for Wireless Mobile Systems (Dongsoo Har and Howard H. Xia)
PART 4: TECHNOLOGIES
11 Coding and Modulation for Power-Constrained Wireless Channels (Ezio Biglieri, Giuseppe Caire, and Giorgio Taricco)
12 Modulation and Demodulation Techniques for Wireless Communication Systems (Seiichi Sampei)
13 Fundamentals of Multiple Access Techniques (Fumiyuki Adachi)
14 Spatial-Temporal Signal Processing for Broadband Wireless Systems (David Falconer)
15 Interference Cancellation and Multiuser Detection (Ryuji Kohno)
PART 5: WIRELESS SYSTEMS AND APPLICATIONS
16 EDGE: Enhanced Data Rates for GSM and TDMA/136 Evolution (Stefan Javerbring)
17 Continuing Evolution of CDMA into New and Improved Services (Andrew J. Viterbi)
18 WCDMA Radio Access Technology for Third-Generation Mobile Communication (Erik Dahlman, Fredrik Ovesjo¨ , Per Beming, Christiaan Roobol, Magnus Persson, Jens Knutsson, and Joakim Sorelius)
19 New Systems for Personal Communications via Satellite (J. V. Evans)
PART 6: WIRELESS ATM NETWORKS
20 Wireless ATM Networks (D. Raychaudhuri, P. Narasimhan, B. Rajagopalan, and D. Reininger)
