DocumentCode
1245372
Title
An adaptive truncated MLSE receiver for Japanese personal digital cellular
Author
Hamied, JShalid A. ; Stüber, Gordon L.
Author_Institution
Motorola Inc., Arlington Heights, IL, USA
Volume
45
Issue
1
fYear
1996
fDate
2/1/1996 12:00:00 AM
Firstpage
41
Lastpage
50
Abstract
This paper describes a dual-mode Japanese personal digital cellular receiver that uses an adaptive truncated symbol-spaced maximum-likelihood sequence-estimation (MLSE) equalizer in one mode and a tangent type differential detector in the other. The receiver employs a channel estimation and symbol synchronization procedure that uses the known phase shifts between successive symbols in the synchronization word. Per-survivor processing is used to track the channel variations and carrier frequency offset. Simulation results are presented for multipath Rayleigh fading channels having various delay profiles. Comparisons between the regular symbol-spaced truncated MLSE equalizer and a fractionally spaced truncated MLSE equalizer are also furnished
Keywords
Rayleigh channels; adaptive equalisers; cellular radio; delays; demodulation; digital radio; estimation theory; fading; maximum likelihood estimation; multipath channels; radio receivers; synchronisation; Japanese personal digital cellular; adaptive truncated MLSE receiver; carrier frequency offset; channel estimation; channel variations; delay profiles; digital cellular receiver; fractionally spaced truncated MLSE equalizer; maximum likelihood sequence estimation; multipath Rayleigh fading channels; per-survivor processing; phase shifts; simulation results; symbol synchronization; symbol-spaced truncated MLSE equalizer; synchronization word; tangent type differential detector; Channel estimation; Delay; Detectors; Equalizers; Fading; Frequency synchronization; Intersymbol interference; Maximum likelihood detection; Maximum likelihood estimation; Phase detection;
fLanguage
English
Journal_Title
Vehicular Technology, IEEE Transactions on
Publisher
ieee
ISSN
0018-9545
Type
jour
DOI
10.1109/25.481819
Filename
481819
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