Testing of a Novel Tone Reservation technique for reduced PAPR of Zero Tail DFT-s-OFDM Signals Using TR Clipping

  IJETT-book-cover  International Journal of Engineering Trends and Technology (IJETT)          
  
© 2020 by IJETT Journal
Volume-68 Issue-11
Year of Publication : 2020
Authors : Pathuri Lavanya, Penke Satyanarayana, Mohammad Mohatram
DOI :  10.14445/22315381/IJETT-V68I11P201

Citation 

MLA Style: Pathuri Lavanya, Penke Satyanarayana, Mohammad Mohatram  "Testing of a Novel Tone Reservation technique for reduced PAPR of Zero Tail DFT-s-OFDM Signals Using TR Clipping" International Journal of Engineering Trends and Technology 68.11(2020):1-8. 

APA Style:Pathuri Lavanya, Penke Satyanarayana, Mohammad Mohatram. Testing of a Novel Tone Reservation technique for reduced PAPR of Zero Tail DFT-s-OFDM Signals Using TR Clipping  International Journal of Engineering Trends and Technology, 68(11),1-8.

Abstract
Contemporary investigation on ZT DFT spread orthogonal frequency division multiplexing, an extension to standard DFT spread orthogonal division frequency multiplexing deprived of external guard band but with an internal guard band. Its trailing tail that is of low power is designed with the nature of inertness to the delay spread in the path of the communication channel. This notable useful characteristics of Zero tail DFT Spread OFDM has attracted academics and scholars for extending this single carrier waveform on par with its 5G candidates to be deployed for Fifth Generation (5G) standards. Nevertheless, inadequacies that arises due to sharp peaks that hinders the working of high power amplifiers at the transmitter side, which causes erogenous peak powers must mitigate. Consequently, this work, a hybrid PAPR scheme is recommended, which incorporates an optimized Tone Reservation (TR) clipping technique. This recommended design decreased a significant correlation amongst the candidate signals. The specific goal in this paper for reducing PAPR in the Zero Tail Discrete Fourier spread OFDM signal is frequency optimization. Firstly, zero tailing introduced in this technique substitutes conventional IFFT with IDFT for reserved tones. Secondly, the TR is executed in a single iteration. The projected technique generates exceptional reduction in PAR values way ahead of similar research results.

Reference

[1] Tani, K., Medjahdi, Y., Shaiek, H., Zayani, R., & Roviras, D. PAPR reduction of post-OFDM waveforms contenders for 5G & beyond using SLM and TR algorithms. 2018 25th International Conference on Telecommunications (ICT) (2018).
[2] A.K. Bashir, R. Arul, S. Basheer,G. Raja,R. Jayaraman, N,M,F Qureshi, An optimal multitier resource allocation of cloud RAN in 5G using machine learning, Transactions On Emerging Telecommunications Technologies, 30(8) (2019).
[3] M. V.Rao, B.T.P. Madhav, J.K.Y. Usha Devi, T. Anilkumar, B. P. Nadh, CSRR-loaded T-shaped MIMO antenna for 5G cellular networks and vehicular communications. 29(8) (2019).
[4] Wang, Y., Chen, W., & Tellambura, C. Genetic algorithm based nearly optimal peak reduction tone set selection for adaptive amplitude clipping PAPR reduction. IEEE Transactions on Broadcasting, 58(3) (2012) 462-471.
[5] Tellado, J., & Cioffi, J. (n.d.). Efficient algorithms for reducing PAR in multicarrier systems. Proceedings. 1998 IEEE Int’ Symposium on Information Theory
[6] Krongold, B., & Jones, D. An active-set approach for OFDM PAR reduction via tone reservation. IEEE Transactions on Signal Processing, 52(2) (2004) 495-509.
[7] Luqing W, Tellambura, C. Analysis of clipping noise and tone-reservation algorithms for peak reduction in OFDM systems. IEEE Trans. on Vehicular Tech. 57(3) (2008) 1675-1694.
[8] Wang, Y., Chen, W., & Tellambura, C. Genetic algorithm based nearly optimal peak reduction tone set selection for adaptive amplitude clipping PAPR reduction. IEEE Transactions on Broadcasting, 58(3) (2012) 462-471.
[9] Hu, S., Wu, G., Wen, Q., Xiao, Y., & Li, S., Nonlinearity reduction by tone reservation with null subcarriers for WiMAX system. Wireless Personal Communications, 54(2) (2009) 289-305.
[10] Guel, D., Palicot, J., & Loue?t, Y. Tone reservation technique based on geometric method for orthogonal frequency division multiplexing peak-to-average power ratio reduction. IET Communications, 4(17) (2010) 2065.
[11] Deumal, M., Behravan, A., & Pijoan, J. L. On cubic metric reduction in OFDM systems by tone reservation. IEEE Transactions on Communications, 59(6) (2011) 1612-1620.
[12] Wang, J., Lv, X., & Wu, W. SCR-based tone reservation schemes with fast convergence for PAPR reduction in OFDM system. IEEE Wireless Communications Letters, 8(2) (2019) 624-627.
[13] Hou, J., Ge, J., & Gong, F. Tone reservation technique based on peak-windowing residual noise for PAPR reduction in OFDM systems. IEEE Trans. on Vehicular Tech., 64(11) (2015) 5373-5378.
[14] Hou, J., Tellambura, C., & Ge, J. Tone injection for PAPR reduction using parallel tabu search algorithm in OFDM systems. IEEE Global Communications Conf (2012).
[15] Wang, B., Si, Q., & Jin, M. A novel tone reservation scheme based on deep learning for PAPR reduction in OFDM systems. IEEE Communications Letters, 24(6) (2020) 1271-1274.
[16] Hossain, M. S., & Shimamura, T. Spectrum efficient DSI-based OFDM PAPR reduction by subcarrier group modulation. IEEE Trasn. on Broadcasting, 64(3) (2018) 771-777.
[17] Sohtsinda, H., Perrine, C., Bachir, S., & Duvanaud, C. Using guard interval signal to improve tone reservation method for peak-to-average power ratio reduction in orthogonal frequency division multiplexing systems. IET Signal Processing, 9(6) (2015) 476-483.
[18] Seungsoo Yoo, Seokho Yoon, Sun Yong Kim, & Iickho Song. A novel papr reduction scheme for OFDM systems: Selective mapping of partial tones (SMOPT). IEEE Transactions on Consumer Electronics, 52(1) (2006) 40-43.
[19] Hong, E., Park, Y., Lim, S., & Har, D. Adaptive phase rotation of OFDM signals for PAPR reduction. IEEE Transactions on Consumer Electronics, 57(4) (2011) 1491-1495.
[20] Gatherer, A., & Polley, M. (n.d.). Controlling clipping probability in DMT transmission. Conference Record of the Thirty-First Asilomar Conference on Signals, Systems and Computers (Cat. No.97CB36136).
[21] Dae-Woon Lim, Hyung-Suk Noh, Jong-Seon No, & Dong-Joon Shin. Near optimal PRT set selection algorithm for tone reservation in OFDM systems. IEEE Transactions on Broadcasting, 54(3) (2008) 454-460.
[22] Jiang, T., Ni, C., Xu, C., & Qi, Q. Curve Fitting based tone reservation method with low complexity for PAPR reduction in OFDM systems. IEEE Comm. Letters, 18(5) (2014) 805-808.
[23] Jiao, Y. Z., Liu, X. J., & Wang, X. A.. A novel tone reservation scheme with fast convergence for PAPR reduction in OFDM systems. 2008 5th IEEE Consumer Comm. and Networking Conference.
[24] Tosato, F., Sandell, M., & Tanahashi, M. Tone reservation for PAPR reduction: An optimal approach through sphere encoding. IEEE Int’ Conf. on Communications (ICC) (2016).
[25] Lv, X., & Wan, Y. Efficient tone reservation peak-to-average power ratio reduction system with optimal clipping for orthogonal frequency division multiplexing systems. IET Communications, 9(17) (2015) 2070-2076.
[26] Mroué, M., Nafkha, A., Palicot, J., Gavalda, B., & Dagorne, N. Performance and implementation evaluation of TR PAPR reduction methods for DVB-T2. International Journal of Digital Multimedia Broadcasting, (2010) 1-10.
[27] Li, H., Wei, J., & Jin, N. Low-complexity tone reservation scheme using pre-generated peak-canceling signals. IEEE Communications Letters, 23(9) (2019) 1586-1589.
[28] Bulusu, S. S., Crussiere, M., Helard, J., Mounzer, R., Nasser, Y., Rousset, O., & Untersee, A. Quasi-optimal tone reservation PAPR reduction algorithm for next generation broadcasting systems: A performance/Complexity/Latency tradeoff with Testbed implementation. IEEE Transactions on Broadcasting, 64(4) (2018) 883-899.
[29] Aggarwal, A., & Meng, T. (n.d.). Minimizing the peak-to-average power ratio of OFDM signals via convex optimization. GLOBECOM `03. IEEE Global Telecommunications Conference (IEEE Cat. No.03CH37489).
[30] Jung-Chieh Chen, & Chih-Peng Li. Tone reservation using near-optimal peak reduction tone set selection algorithm for PAPR reduction in OFDM systems. IEEE Signal Processing Letters, 17(11) (2010) 933-936.
[31] Lim, D., Noh, H., Heo, S., No, J., & Shin, D. Construction of the near optimal PRT set using the cyclic difference set in TR scheme. IEEE 18th International Symposium on Personal, Indoor and Mobile Radio Communications (2007).
[32] Zabre, S., Palicot, J., Louet, Y., & Lereau, C. SOCP approach for OFDM peak-to-Average power ratio reduction in the signal adding context. IEEE International Symposium on Signal Processing and Information Technology (2006).
[33] Lu, S., Qu, D., & He, Y. Sliding window tone reservation technique for the peak-to-Average power ratio reduction of FBMC-OQAM signals. IEEE Wireless Comm. Letters, 1(4) 268-271.
[34] Wang, H. A hybrid PAPR reduction method based on SLM and multi-data block PTS for FBMC/OQAM systems. Information, 9(10) (2018) 246.
[35] Gang Yang, Zhengjie Yang, & Jianhua Xu. PAPR reduction in the OFDM system employing tone reservation based on FFT/IFFT. International Symposium on Communications and Information Technologies (2007).
[36] Ni, C., Ma, Y., & Jiang, T. A novel adaptive tone reservation scheme for PAPR reduction in large-scale multi-user MIMO-OFDM systems. IEEE Wireless Comm. Letters, 5(5) (2016) 480-483.
[37] Dae-Woon Lim, Hyung-Suk Noh, Hyun-Bae Jeon, Jong-Seon No, & Dong-Joon Shin. Multi-stage TR scheme for PAPR reduction in OFDM signals. IEEE Transactions on Broadcasting, 55(2) (2009) 300-304.
[38] Wang, Y., Xie, S., & Xie, Z. FISTA-based PAPR reduction method for tone reservation’s OFDM system. IEEE Wireless Communications Letters, 7(3) (2018) 300-303.
[39] Rosati, S., Candreva, E. A., & Corazza, G. E. Rotation invariant subcarrier mapping over DVB-T2 reserved tones. IEEE 77th Vehicular Technology Conference (VTC Spring) (2013).

Keywords
Zero-tail Discrete Fourier Transform-spread OFDM, Tone Reservation Peak to Average Power Ration, Iterative Clipping