DocumentCode
1558404
Title
Equalization concepts for EDGE
Author
Gerstacker, Wolfgang H. ; Schober, Robert
Author_Institution
Lehrstuhl fur Nachrichtentech., Erlangen-Nurnberg Univ., Erlangen, Germany
Volume
1
Issue
1
fYear
2002
fDate
1/1/2002 12:00:00 AM
Firstpage
190
Lastpage
199
Abstract
An equalization concept for the novel radio access scheme Enhanced Data rates for GSM Evolution (EDGE) is proposed by which high performance can be obtained at moderate computational complexity. Because high-level modulation is employed in EDGE, optimum equalization as usually performed in Global System for Mobile Communications (GSM) receivers is too complex and suboptimum schemes have to be considered. It is shown that delayed decision-feedback sequence estimation (DDFSE) and reduced-state sequence estimation (RSSE) are promising candidates. For various channel profiles, approximations for the bit error rate of these suboptimum equalization techniques are given and compared with simulation results for DDFSE. It turns out that a discrete-time prefilter creating a minimum-phase overall impulse response is indispensable for a favorable tradeoff between performance and complexity. Additionally, the influence of channel estimation and of the receiver input filter is investigated and the reasons for performance degradation compared to the additive white Gaussian noise channel are indicated. Finally, the overall system performance attainable with the proposed equalization concept is determined for transmission with channel coding
Keywords
AWGN channels; cellular radio; channel coding; decision feedback equalisers; discrete time filters; error statistics; radio access networks; radio receivers; sequential estimation; transient response; AWGN channel; BER approximations; DDFSE; EDGE; Enhanced Data rates for GSM Evolution; GSM receivers; Global System for Mobile Communications; RSSE; additive white Gaussian noise channel; bit error rate; channel coding; channel estimation; channel profiles; computational complexity; delayed decision-feedback sequence estimation; discrete-time prefilter; equalization concepts; high-level modulation; performance degradation; radio access scheme; receiver input filter; reduced-state sequence estimation; simulation results; suboptimum equalization; system performance; Additive white noise; Bit error rate; Channel estimation; Computational complexity; Degradation; Delay estimation; Filters; GSM; Receivers; System performance;
fLanguage
English
Journal_Title
Wireless Communications, IEEE Transactions on
Publisher
ieee
ISSN
1536-1276
Type
jour
DOI
10.1109/7693.975457
Filename
975457
Link To Document