Abstract
Multicarrier modulation (MCM) schemes provide resistance against fading in wireless environment, due to which these techniques have been extensively worked upon for use in 4G and 5G wireless communication. Filter Bank Multicarrier is among the desired candidate for physical layer implementation in 5G communications. Irrespective of several features it suffers from power inefficiency due to high peak to average power ratio (PAPR). In this research study, different PAPR reduction techniques for Filter Band Multi-Carrier with Offset Quadrature Amplitude symbol mapping called as FBMC-OQAM are presented, such as non-linear Companding Transform, improved hybrid techniques based on conventional partial transmit sequence (PTS), iterative clipping and filtering (ICF), and Tone Reservation method.
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Banelli, P.: Modulation formats and waveforms for 5G networks: who will be the heir of OFDM? An overview of alternative modulation schemes for improved spectral efficiency. IEEE Signal Process. Mag. 31(6), 8–93 (2014)
Ihalainen, T.: Channel equalization for multi-antenna FBMC/OQAM receivers. Trans. Veh. Technol. 60(5), 2070–2085 (2011)
Farhang-Boroujeny, B.: OFDM versus filter bank multicarrier. IEEE Signal Process. Mag. 28(3), 92–112 (2011)
Farhang-Boroujeny, B.: Cosine modulated and offset QAM filter bank multicarrier techniques: a continuous-time prospect. EURASIP J. Advant. Signal. Process. 20, 1–16 (2010)
Schellmann, M., et al.: FBMC-based air interface for 5G mobile: challenges and proposed solutions. In: Proceedings of 9th International Conference on Cognition Radio Oriented Wireless Networks and Communications (CROWNCOM), pp. 102–107 (2014)
Devlin, C.A., Zhu, A.: Gaussian pulse based tone reservation for reducing PAPR of OFDM signals. In: Proceedings of the IEEE 65th Vehicular Technology Conference, VTC, pp. 3096–3100 (2007)
Ku, S.-J.: A reduced-complexity PTS based PAPR reduction scheme for OFDM systems. IEEE Trans. Wireless Commun. 9(8), 2455–2460 (2010)
Li, C.-P.: Novel low-complexity SLM schemes for PAPR reduction in OFDM systems. IEEE Trans. Signal Process. 58(5), 2916–2921 (May 2010)
Imad, A.: Performance evaluation of PAPR reduction in FBMC system using nonlinear companding transform. ScienceDirect ICT Express 5, 41–46 (2019)
Zhao, J., et al.: PAPR reduction of FBMC/OQAM signal using a joint optimization scheme. Digital Object Identifier: https://doi.org/10.1109/access.2017.2700078
Wang, H., et al.: Hybrid PAPR reduction scheme for FBMC/OQAM systems based on multi data block PTS and TR methods. IEEE Access. 4, 4761–4768 (September 2016)
Moon J.-H. et al.: PAPR reduction in the FBMC-OQAM system via segment-based optimization. IEEE Access. 6, 4994–5002 (2018)
Shaheen, I.A.: Proposed new schemes to reduce PAPR for STBC MIMO FBMC systems. Commun. Appl. Electron. 6(9), 27–33 (2017)
Bellanger, M., et al.: FBMC physical layer: a primer, PHYDYAS FP7Project Document (2010)
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Agarwal, A., Sharma, R. (2020). Review of Different PAPR Reduction Techniques in FBMC-OQAM System. In: Balas, V., Solanki, V., Kumar, R. (eds) Internet of Things and Big Data Applications. Intelligent Systems Reference Library, vol 180. Springer, Cham. https://doi.org/10.1007/978-3-030-39119-5_14
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DOI: https://doi.org/10.1007/978-3-030-39119-5_14
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