2 research outputs found
Constrained RS coding for Low Peak to Average Power Ratio in FBMC -- OQAM Systems
Multi-carrier modulation techniques have now become a standard in many
communication protocols. Filter bank based multi-carrier (FBMC) generation
techniques have been discussed in the literature as a means for overcoming the
shortcomings of IFFT/FFT based OFDM system. The Peak to Average Power Ratio
(PAPR) is a problem faced by all multi-carrier techniques. This paper discusses
the methods for reducing PAPR in a FBMC system while maintaining acceptable Bit
Error Rate (BER). A new PAPR minimizing scheme called Constrained Reed Solomon
(CRS) coding is proposed. The hybrid techniques using coding and companding are
tested for different channel models and is found to yield promising results.Comment: 6 pages,6 Figures, Journal of Electrical and Electronics Engineerin
A Novel PAPR Reduction in Filter Bank Multi-Carrier (FBMC) with Offset Quadrature Amplitude Modulation (OQAM) Based VLC Systems
The peak to average power ratio (PAPR) is one of the major problem with multicarrier-based systems. Due to its improved spectral efficiency and decreased PAPR, Filter Bank Multicarrier (FBMC) has recently become an effective alternative to the orthogonal multiplexing division (OFDM). For filter bank multicarrier communication/offset quadrature amplitude modulation-Visible light communication (FBMC/OQAM-VLC) systems is proposed a PAPR reduction technique. The suggested approach overlaps the proposed FBMC/OQAM-based VLC data signal with the existing signals. Non-redundant signals and data signals do not overlap in the frequency domain because data signals are scattered on odd subcarriers whereas built signals use even subcarriers. To reduce the effects of large-amplitude signal reduction, the suggested technique converts negative signals into positive signals rather than clipping them off as in conventional FBMC-based VLC systems. The PAPR reduction and bit error rate (BER) are realized using a scaling factor in the transformed signals. Complementary cumulative distribution function(CCDF) and BER are used to calculate the performance of the proposed approach. The presented study found that FBMC/OQAM-VLC systems to achieve a good trade-off between PAPR reduction and BER