Paper Info
Title
Block interleaved frequency division multiple access for power efficiency, robustness, flexibility, and scalability
Abstract
The multiple access solution in an IMT-Advanced mobile radio system has to meet challenging requirements such as high throughput, low delays, high flexibility, good robustness, low computational complexity, and a high power efficiency, especially in the uplink. In this paper, a novel multiple access scheme for uplinks denoted as B-IFDMA is presented. We show that this scheme is able to provide equal or better error rate performance than the Single-Carrier Frequency Division Multiple Access (SCFDMA) schemes IFDMA and LFDMA, when considering realistic channel estimation performance at the receiver and no reliable channel state information at the transmitter. We also show that B-IFDMA provides better amplifier efficiency than OFDMA and can provide better end-to-end energy efficiency than IFDMA and LFDMA.Moreover, the scheme shows a promisingly high robustness to frequency-offsets and Doppler spread. Thus, this scheme can be regarded as a promising solution for the uplink of future mobile radio systems.
Year
DOI
Venue
2009
10.1155/2009/720973
EURASIP J. Wireless Comm. and Networking
Keywords
Field
DocType
novel multiple access scheme,imt-advanced mobile radio system,high throughput,better error rate performance,end-to-end energy efficiency,better amplifier efficiency,high flexibility,promisingly high robustness,future mobile radio system,high power efficiency,interleaved frequency division,error rate,power efficiency,frequency offset,signal processing,energy efficient,computational complexity
Transmitter,Mobile radio,IMT Advanced,Computer science,Orthogonal frequency-division multiple access,Real-time computing,Robustness (computer science),Frequency-division multiple access,Channel state information,Telecommunications link
Journal
Volume
Issue
ISSN
2009,
1
1687-1499
Citations 
PageRank 
References 
9
0.76
20
Authors
6
Name
Order
Citations
PageRank
Tommy Svensson1104876.22
Tobias Frank2736.41
Thomas Eriksson3567.70
Daniel Aronsson4283.29
Mikael Sternad542735.76
Anja Klein623218.18