DocumentCode
3225200
Title
Doppler shift robust receiver for digital parallel signaling in fading channels
Author
Nunes, Fernando D. ; Leitao, José M N
Author_Institution
Dept. de Engenharia Electrotecnica e de Comput., Inst. Superior Tecnico, Lisbon, Portugal
Volume
3
fYear
1997
fDate
3-8 Nov 1997
Firstpage
1225
Abstract
This paper proposes a new scheme suited to parallel (simultaneous) transmission of phase-modulated waveforms in fading multipath channels. The waveforms are quasi-orthogonal in the symbol interval and have good correlation characteristics making detection quite insensitive to large delay spreads. Besides, the spectral efficiency of the modulation increases with the number of simultaneous signals. A pilot signal is jointly transmitted conveying information about the carrier phase and the symbol timing. Coherent detection is accomplished by a bank of correlators driven by a stochastic nonlinear filter that estimates the phase of the pilot carrier and derives the symbol epochs from those estimates. Simulations show that the proposed open-loop digital receiver is robust to fast fading and large phase drifts caused by Doppler effect and/or oscillators instabilities
Keywords
Doppler shift; correlators; digital radio; fading; filtering theory; land mobile radio; modulation; multipath channels; nonlinear filters; phase estimation; radio receivers; signal detection; stochastic processes; telecommunication signalling; timing; Doppler effect; Doppler shift robust receiver; carrier phase; coherent detection; correlation characteristics; correlators; delay spreads; digital parallel signaling; fading multipath channels; fast fading; mobile communications; modulation; open-loop digital receiver; oscillators instabilities; phase drifts; phase estimation; phase-modulated waveforms; pilot signal; quasi-orthogonal waveforms; signal detection; simulations; simultaneous signals; spectral efficiency; stochastic nonlinear filter; symbol epochs; symbol interval; symbol timing; Correlators; Doppler shift; Fading; Multipath channels; Phase detection; Phase estimation; Propagation delay; Robustness; Stochastic processes; Timing;
fLanguage
English
Publisher
ieee
Conference_Titel
Global Telecommunications Conference, 1997. GLOBECOM '97., IEEE
Conference_Location
Phoenix, AZ
Print_ISBN
0-7803-4198-8
Type
conf
DOI
10.1109/GLOCOM.1997.644330
Filename
644330
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