This paper presents an accurate tool yielding a reliable prediction of the link quality for the down-link of a BICOFDM system featuring bandlimited pulse shaping to control spectral sidelobe emission, plus AMC, and operating over a nonlinear channel. The tool enables an effective design of the communication system, with special respect to the setting of the operating point of the transmitter’s power amplifier. First, an analytical characterization of the nonlinear distortion effects caused by the amplifier on bandlimited BIC-OFDM signals is carried out by resorting to the extended version of the Bussgang theorem. Then, the equivalent additive noise model provided by the Bussgang-based analysis is taken into account in the derivation of a novel link quality prediction method, named B??ESM. Finally, the novel B??ESM tool is employed in the link design phase for choosing the best amplifier setting, aimed at maximizing the layer-3 offered traffic over a realistic wireless channel, featuring both multipath propagation and nonlinear distortions.
A Performance Prediction Model for BIC-OFDM Transmissions with AMC over Nonlinear Fading Channels
GIANNETTI, FILIPPOCo-primo
Writing – Review & Editing
;LOTTICI, VINCENZO
Co-primo
Writing – Review & Editing
;ANDREOTTI, RICCARDOCo-primo
Writing – Review & Editing
;D'ANDREA, NUNZIO ALDOCo-primo
Writing – Review & Editing
;
2011-01-01
Abstract
This paper presents an accurate tool yielding a reliable prediction of the link quality for the down-link of a BICOFDM system featuring bandlimited pulse shaping to control spectral sidelobe emission, plus AMC, and operating over a nonlinear channel. The tool enables an effective design of the communication system, with special respect to the setting of the operating point of the transmitter’s power amplifier. First, an analytical characterization of the nonlinear distortion effects caused by the amplifier on bandlimited BIC-OFDM signals is carried out by resorting to the extended version of the Bussgang theorem. Then, the equivalent additive noise model provided by the Bussgang-based analysis is taken into account in the derivation of a novel link quality prediction method, named B??ESM. Finally, the novel B??ESM tool is employed in the link design phase for choosing the best amplifier setting, aimed at maximizing the layer-3 offered traffic over a realistic wireless channel, featuring both multipath propagation and nonlinear distortions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.