DocumentCode
762732
Title
Continuous Phase Modulation--Part II: Partial Response Signaling
Author
Aulin, Tor ; Rydbeck, Nils ; Sundberg, Carl-Erik W.
Author_Institution
Dept. of Telecommunication Theory, Univ. of Lund, Fack, Lund, Sweden
Volume
29
Issue
3
fYear
1981
fDate
3/1/1981 12:00:00 AM
Firstpage
210
Lastpage
225
Abstract
An analysis of constant envelope digital partial response continuous Phase modulation (CPM) systems is reported. Coherent detection is assumed and the channel is Gaussian. The receiver observes the received signal over more than one symbol interval to make use of the correlative properties of the transmitted signal. The Systems are
-ary, and baseband pulse shaping over several symbol intervals is considered. An optimum receiver based on the Viterbi algorithm is presented. Constant envelope digital modulation schemes with excellent spectral tail properties are given. The spectra have extremely low sidelobes. It is concluded that partial response CPM systems have spectrum compaction properties. Furthermore, at equal or even smaller bandwidth than minimum shift keying (MSK), a considerable gain in transmitter power can be obtained. This gain increases with
. Receiver and transmitter configurations are presented.
-ary, and baseband pulse shaping over several symbol intervals is considered. An optimum receiver based on the Viterbi algorithm is presented. Constant envelope digital modulation schemes with excellent spectral tail properties are given. The spectra have extremely low sidelobes. It is concluded that partial response CPM systems have spectrum compaction properties. Furthermore, at equal or even smaller bandwidth than minimum shift keying (MSK), a considerable gain in transmitter power can be obtained. This gain increases with
. Receiver and transmitter configurations are presented.Keywords
MSK modulation/demodulation; PM modulation/demodulation; Partial-response coding; Baseband; Compaction; Continuous phase modulation; Digital modulation; Partial response signaling; Phase modulation; Pulse shaping methods; Tail; Transmitters; Viterbi algorithm;
fLanguage
English
Journal_Title
Communications, IEEE Transactions on
Publisher
ieee
ISSN
0090-6778
Type
jour
DOI
10.1109/TCOM.1981.1094985
Filename
1094985
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