DocumentCode
778531
Title
Adaptive link layer strategies for asymmetric high-speed wireless communications
Author
Badra, Renny E. ; Daneshrad, Babak
Author_Institution
Electron. & Circuits Dept., Univ. Simon Bolivar, Caracas, Venezuela
Volume
1
Issue
3
fYear
2002
fDate
7/1/2002 12:00:00 AM
Firstpage
429
Lastpage
438
Abstract
A forward error correction (FEC) strategy and a medium access control (MAC) protocol that are thoroughly tailored to complement and support a high-speed asymmetric physical layer design based on equalization and precoding is presented and fully discussed. Both proposals exhibit a high degree of adaptability and flexibility, which allows for increased data throughput while providing a wide range of quality-of-service requirements. Fast link layer adaptation is made possible through the joint design of link and physical layers. The adaptive FEC algorithm is based on the use of variable-rate trellis coded modulation with fast channel estimation, while the MAC protocol employs a centralized, dynamic slot allocation technique. The overall system design is shown to achieve high spectral efficiency, while minimizing energy consumption at the portable unit
Keywords
access protocols; adaptive codes; cellular radio; decision feedback equalisers; forward error correction; interference suppression; intersymbol interference; radio links; trellis coded modulation; variable rate codes; DFE; ISI mitigation; MAC protocol; TCM; adaptive FEC algorithm; adaptive link layer strategies; asymmetric high-speed wireless communications; cellular radio; centralized slot allocation; channel estimation; data throughput; dynamic slot allocation; energy consumption; equalization; fast link layer adaptation; forward error correction; high spectral efficiency; high-speed asymmetric physical layer design; intersymbol interference; medium access control protocol; physical layer design; portable unit; precoding; quality-of-service; variable-rate trellis coded modulation; Access protocols; Channel estimation; Energy consumption; Forward error correction; Media Access Protocol; Modulation coding; Physical layer; Proposals; Quality of service; Throughput;
fLanguage
English
Journal_Title
Wireless Communications, IEEE Transactions on
Publisher
ieee
ISSN
1536-1276
Type
jour
DOI
10.1109/TWC.2002.800541
Filename
1017517
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