Synopses & Reviews
Wireless Personal Communications: Channel Modeling and Systems Engineering presents a broad range of topics in wireless communications, including perspectives from both industry and academia. This book serves as a reflection of emerging technologies in wireless communications and features papers from world-renowned authors on the subject.
Wireless Personal Communications: Channel Modeling and Systems Engineering is divided into six sections. The first five of these cover the following topics: Propagation and Channel Modeling (4 papers); Antennas (6 papers); Multiuser Detection (3 papers); Radio Systems and Technology (4 papers); and Wireless Data (3 papers). The last section contains invited papers on areas of significant interest.
Wireless Personal Communications: Channel Modeling and Systems Engineering serves as an excellent reference source and may be used as a text for advanced courses on the subject. It is an essential tool for graduate students, postgraduate researchers, academics, and anyone working in the research aspect of the wireless communications industry.
Synopsis
Wireless Personal Communications: Channel Modeling and Systems Engineering presents a broad range of topics in wireless communications, including perspectives from both industry and academia. This book serves as a reflection of emerging technologies in wireless communications and features papers from world-renowned authors on the subject. Wireless Personal Communications: Channel Modeling and Systems Engineering is divided into six sections. The first five of these cover the following topics: Propagation and Channel Modeling (4 papers); Antennas (6 papers); Multiuser Detection (3 papers); Radio Systems and Technology (4 papers); and Wireless Data (3 papers). The last section contains invited papers on areas of significant interest. Wireless Personal Communications: Channel Modeling and Systems Engineering serves as an excellent reference source and may be used as a text for advanced courses on the subject. It is an essential tool for graduate students, postgraduate researchers, academics, and anyone working in the research aspect of the wireless communications industry.
Synopsis
Wireless Personal Communications: Channel Modeling and Systems Engineering presents a broad range of topics in wireless communications, including perspectives from both industry and academia. This book serves as a reflection of emerging technologies in wireless communications and features papers from world-renowned authors on the subject. Wireless Personal Communications: Channel Modeling and Systems Engineering is divided into six sections. The first five of these cover the following topics: Propagation and Channel Modeling (4 papers); Antennas (6 papers); Multiuser Detection (3 papers); Radio Systems and Technology (4 papers); and Wireless Data (3 papers). The last section contains invited papers on areas of significant interest. Wireless Personal Communications: Channel Modeling and Systems Engineering serves as an excellent reference source and may be used as a text for advanced courses on the subject. It is an essential tool for graduate students, postgraduate researchers, academics, and anyone working in the research aspect of the wireless communications industry.
Table of Contents
Preface.
I: Propagation and Channel Modeling. 1. Very Near Ground RF Propagation Measurements and Analysis;
T.B. Welch, et al. 2. Identification of Time-Variant Directional Mobile Radio Channels;
R.S. Thomä, et al. 3. Propagation Measurements and Simulation for Wirless Communication Systems in the ISM band;
B.L. Johnson, Jr., et al. 4. A Theoretical Analysis of Multiple Diffraction in Urban Environments for Wirless Local Loop Systems;
D. Crosby, et al. II: Antennas. 5. Active Microstrip Antenna for Personal Communication System;
M. Wnuk, et al. 6. Co-located, Dual-band, Multi-function Antenna System for the GloMo Universal Modular Packaging System;
J.S. McLean, et al. 7. Self-Calibration Scheme for Antenna Arrays Using the Combined Array Signal;
M. Wiegmann. 8. Switched Beam Adaptive Antenna Demonstrator for UMTS Data Rates;
H. Novak. 9. UMTS Radio Network Simulation with Smart Antennas;
B.O. Adrian, S.G. Häggman. 10. Methods for Measuring and Optimizing Capacity in CDMA Networks Using Smart Antennas;
S.D. Gordon, et al. III: Multi-User Detection. 11. Adaptive Radio Resource Control via Cascaded Neural Networks for Sequenced Propagation Estimation and Multi-user Detection in Third-Generation Wireless Networks;
W.S. Hortos. 12. Successive Interference Cancellation for Interception of the Forward Channel of Cellular CDMA Communications;
M. Golanbari, G.E. Ford. 13. A New Multiuser Detector for Synchronous CDMA Systems in AWGN Channels;
A. Boariu, R.E. Ziemer. IV: Radio Systems and Technology. 14. Modeling Study to Determine the Realistic Constraints of the Wireless Land Mobile Radio Narrowband CAI Interface Specified in the TIA-102 Standard;
S.E. Bartlett, K.M. Syed. 15. Over-The-Air Subscriber Device Management Using CDMA Data and WAP;
N.L. Marran. 16. Hyperactive Chipmunk Radio;
G.H. McGibney, S.T. Nichols. 17. Turbo Code Implementations on Fixed PointDSP's;
E. Cress, W.J. Ebel. V: Wireless Data. 18. TCP with Adaptive Radio Link;
D. Huang, J.J. Shi. 19. Reducing Location Update and Paging Cost in a PCS Network;
P.G. Escalle, et al. 20. Performance Enhancement for TCP/IP on Wireless Links;
J.S. Stadler, et al. VI: Invited Posters Presented at the 1999 Symposium. 21. Development and Implementation of an Adaptive Error Correction Coding Scheme for a Full Duplex Communications Channel;
J.W. Waterston, et al. 22. Simulink Simulation of a Direct Sequence Spread Spectrum Differential Phase Shift Keying SAW Correlator;
S.M. Nabritt, et al. Index.