A Precoding-based PAPR Reduction Technique for UF-OFDM and Filtered-OFDM Modulations in 5G Systems
Résumé
The universal filtered-orthogonal frequency division
multiplexing (UF-OFDM) (also called universal filtered multicar-
rier (UFMC)) and the filtered-OFDM (F-OFDM) are candidates
to be alternative to the OFDM modulation in the upcoming
5G systems thanks to their improved spectral occupation and
resistance to the carrier frequency offset. However, like the
majority of the multicarrier modulations, UF-OFDM and F-
OFDM have a high peak-to-average power ratio (PAPR). This
influences the operation mode of radio frequency components
such as the power amplifier and the digital-to-analog converter.
In this paper, a precoding-based PAPR reduction technique is
proposed for both the UF-OFDM and the F-OFDM cases. A
similar technique has been proposed in the literature for OFDM.
The principle of this method is to transform the UF-OFDM signal
to a lower order summation of single carrier signals and the
F-OFDM signal to single carrier signal. The relevance of the
proposed PAPR reduction technique is confirmed by simulation
results. The latter show a PAPR reduction of at least 2.5 dB.
Moreover, the proposed technique does not impact the bit error
rate performance and lowers down the power spectral density
tails at the power amplifier output.