Wang B, Wang K, Lu Z, Xie T, Quan J. Comparison study of non-orthogonal multiple access schemes for 5G Int Symp IEEE Broadband Multimed Syst Broadcast. BMSB 2015; pp. 1-5.
Dai L, Wang Z, Yang Z. Next-generation digital television terrestrial broadcasting systems: key technologies and research trends. IEEE Commun Mag 2012; 50: 150-8.
Berardinelli G, Pajukoski K, Lahetkangas E, Wichman R, Tirkkonen O, Mogensen P. On the potential of OFDM enhancements as 5G wave forms. In Vehicular Tech Conf (VTC Spring), IEEE 2014; 1-5.
Zhang H. Filter Bank based MultiCarrier (FBMC) for cognitive radio systems. Netw Internet Architect 2011; pp. 1-151. [https://tel.archives-ouvertes.fr/tel-00628956/document]
Chang RW. Synthesis of band-limited orthogonal signals for multichannel data transmission. The Bell Syst Tech J 1966; 1775-96.
Sezginer S, Sari H. OFDM peak power reduction with simple amplitude pre-distortion. IEEE Commun Lett 2006; 10: 65-7.
Gokkul A, Kumar A, Kumar H, et al. Performance improvement of OFDM using hybrid PAPR reduction technique. Proc 4th Int Conf Comput, Commun Netw Tech (ICCCNT’13) 2013; 4-6.
Abbas A, Gasser S, Aziz A, et al. A new approach for PAPR reduction of OFDM signal based on SLM and PTS. Proc 3rd Int Conf e-Tech Netw Develop (ICeND’14) 2014; 58-63.
Kumar A, Gupta M. A novel modulation technique for 5G mobile communication system. Am J Appl Sci 2015; 12: 601-5.
Zhou Y, Jiang T, Huang C, et al. Peak-to-average power ratio reduction for OFDM/OQAM signals via alternative-signal method. IEEE Trans Vehicular Technol 2014; 63: 494-9.
Lu SX, Qu DM, He YJ. Sliding window tone reservation technique for the peak-to-average power ratio reduction of FBMC-OQAM signals. IEEE Wirel Commun Lett 2012; 1: 268-73.
Varghese N, Chunkath J, Sheeba VS. Peak-to-average power ratio reduction in FBMC-OQAM system. Proc 4th Int Conf Adv Comput Commun (ICACC’14) 2014; 286-90.
Skrzypczak A, Javaudin JP, Siohan P. Reduction of the peak-toaverage power ratio for the OFDM/OQAM modulation. Proc 63rd Vehicular Tech Conf (VTC-Spring’06). 2006; 4:: 7-10.
Bulusu K, Shaiek H, Roviras D, et al. Reduction of PAPR for FBMC-OQAM systems using dispersive SLM technique. Proc 11th Int Conf Wireless Commun Syst (ISWCS’14) 2014; 568-72.
Ye C, Li ZJ, Jiang T, et al. PAPR reduction of OQAM-OFDM signals using segmental PTS scheme with low complexity. IEEE Trans Broadcast 2014; 60: 141-7.
Le Floch B, Alard M, Berrou C. Coded orthogonal frequency division multiplex. Proc IEEE 1995; 83: 982-96.
Ochiai H, Imai H. On the distribution of the peak-to-average power ratio in OFDM signals. IEEE Trans Commun 2001; 49: 282-9.
Al-Dalakta E, Al-Dweik A, Hazmi A, et al. Efficient BER reduction technique for nonlinear OFDM transmission using distortion prediction. IEEE Trans Vehicular Technol 2012; 61: 2330-6.
Kumar A, Gupta M. Reduction of PAPR by using clipping and filtering for different modulation schemes. Am J Appl Sci 2015; 13: 131-4.
Sahin A, Guvenc I, Arslan H. A survey on multicarrier communications: prototype filters, lattice structures, and implementation aspects. IEEE Comm Surv Tutor 2014; 16: 1312-38.
Krongold BS, Jones DL. PAPR reduction in OFDM via active constellation extension. IEEE Trans Broadcast 2003; 49: 258-68.
Lekouaghet B, Himeur Y, Boukabou A, Senouci A. A novel clipping based μ-law companding scheme for PAPR reduction over power line communication Seminar Detect Sys Architect Technol. DAT 2017; pp. 1-7.
Lekouaghet B, Himeur Y, Boukabou A, Senouci A. A novel clipping based μ-law companding scheme for PAPR reduction over power line communication Seminar Detect Syst Architect Tech. DAT 2017; pp. 1-7.
Shaheen I, Zekry A, Newagy F, Ibrahim R. PAPR reduction for FBMC/OQAM using hybrid scheme of different Precoding transform and mu-law companding. Int J Engr Tech 2017; 6: 154-62.
Fukumizu K, Bach FR, Jordan MI. Kernel dimension reduction in regression. The Annals Statistics 2009; 37: 1871-905.
Armstrong J. Peak-to-average power reduction for OFDM by repeated clipping and frequency domain filtering. IEEE Electr Lett 2002; 38: 246-7.
Bulusu SKC, Shaiek H, Roviras D. Reducing the PAPR in FBMC-OQAM systems with low-latency trellis-based SLM technique. EURASIP J Adv Signal Process 2016; 1: 132-7.
Lim DW, Heo SJ, No JS, Chung H. A new PTS OFDM scheme with low complexity for PAPR reduction. IEEE Trans Broadcast 2006; 52: 77-82.
Kim H, Rautio T. Weighted selective mapping algorithm for FBMC-OQAM systems IEEE Int Conf Info Commun Tech Converg. ICTC 2016; pp. 214-9.
Liu K, Hou J, Zhang P, Liu Y. PAPR reduction for FBMC-OQAM systems using P-PTS scheme. The J China Universities Posts TeleCommun 2015; 22: 78-85.
Moeko Y, Hiromichi N, Teruyuki M. PTS Based PAPR reduction by iterative P-Norm minimization without side information in OFDM systems. IEICE Trans Commun 2018; 101: 856-64.
Harris K, Nasser Y, El Mokdad H, Kabalan KY, Jaffal Y. Are side-band tones beneficial for PAPR reduction in FBMC. 16th IEEE Int Workshop Signal Process Adv Wireless Commun (SPAWC) 2015; 111-5.