DocumentCode
2929084
Title
Noncoherent equalization algorithms based on sequence estimation
Author
Gerstacker, Wolfgang H. ; Schober, Robert ; Huber, Johonnes B.
Author_Institution
Lehrstuhl fur Nachrichtentech., Erlangen-Nurnberg Univ., Germany
Volume
6
fYear
1998
fDate
1998
Firstpage
3485
Abstract
Two noncoherent equalization algorithms are derived, which are based on sequence estimation. Better performance can be obtained than for noncoherent symbol-by-symbol equalizers known in literature. In the first scheme, the current received signal sample is multiplied by the previous complex-conjugated one like in a conventional differential detector prior to sequence estimation. Although this results in nonlinear intersymbol interference, the Viterbi algorithm (VA) can be employed for reconstruction of the data. The second algorithm is derived by modifying the optimum noncoherent sequence estimator, which is too complex for an implementation. The resulting scheme, which again applies the VA, can be interpreted as a generalization of multiple-symbol differential detection for the AWGN channel
Keywords
AWGN channels; Viterbi detection; differential detection; differential phase shift keying; equalisers; fading channels; intersymbol interference; sequential estimation; signal reconstruction; AWGN channel; Viterbi algorithm; complex-conjugated signal sample; data reconstruction; differential detector; flat fading channel; multiple-symbol differential detection; noncoherent equalization algorithms; noncoherent symbol-by-symbol equalizers; nonlinear intersymbol interference; optimum noncoherent sequence estimator; performance; received signal sample; sequence estimation; AWGN channels; Additive white noise; Baseband; Detectors; Equalizers; Fading; Frequency; Interference; Phase estimation; Viterbi algorithm;
fLanguage
English
Publisher
ieee
Conference_Titel
Global Telecommunications Conference, 1998. GLOBECOM 1998. The Bridge to Global Integration. IEEE
Conference_Location
Sydney,NSW
Print_ISBN
0-7803-4984-9
Type
conf
DOI
10.1109/GLOCOM.1998.775848
Filename
775848
Link To Document