Computer Science ›› 2020, Vol. 47 ›› Issue (10): 263-268.doi: 10.11896/jsjkx.190800043
• Computer Network • Previous Articles Next Articles
ZHOU Hui-ting1, ZHOU Jie1,2
CLC Number:
[1]SINGH D,SARIN R K.Computationally efficient variational Bayesian method for PAPR reduction in multiuser MIMO OFDM systems[J].Etri Journal,2019,41(11):178-186. [2]JASIM A G.papr reduction in OFDM system using adaptive hybrid technique[J].IOP Conference Series:Materials Science and Engineering,2019,518:052021. [3]NIU X K,LIU G.OFDM system reduce peak than method research [J].Journal of Information and Communication,2019(1):59-60. [4]JAWHAR Y A,AUDAH L,TAHER M A,et al.A Review of Partial Transmit Sequence for PAPR Reduction in the OFDM Systems[J].IEEE Access,2019,7:18021-18041. [5]LULU A,ABU A M.Investigation of Non-Overlapping Time-Domain Windowing for OOB Radiation Reduction of OFDM System[C]//2019 IEEE 7th Palestinian International Conference on Electrical and Computer Engineering (PICECE).Gaza,Palestine,2019:1-6. [6]MAHMOUND H A,ARSLAN H.Sidelobe Suppression inOFDM-Based Spectrum Sharing Systems Using Adoptive Symbol Transition[J].IEEE Commun.Lett.,2008,12(2):133-135. [7]WU Y T,HE C C,ZHANG Q W,et al.Low-complexity recombined SLM scheme for PAPR reduction in IM/DD optical OFDM systems[J].Opt-Ics Express,2018,26(24):54-59. [8]AGHDAM M H,SHARIFI A A.Papr reduction in OFDM systems:An efficient PTS approach basedon particle swarm optimization[J].ICT Express,2019,5(3):178-181. [9]VANDEBEEK J,BERGGREN F.N-continuous OFDM[J].IEEE Commun.Lett.,2009,13(1):1-3. [10]WEI P,DAN L,XIAO Y,et al.A Low-Interference Time-Domain N-Continuous OFDM Scheme[J].China Communications,2016,13(S2):150-158. [11]EIP,DANL,XIAO Y,et al.A low-complexity time-domain signal processing algorithm for N-continuous OFDM[C]//Conmm- unications(ICC).2013 IEEE International Conference.Budapest,Hungary,2013:5754-5758. [12]KAMBOJ A,KAUSHIK G.Study & Simulation of OFDM System[J].International Journal of Modern Engineering Research (IJMER),2012,2(1):2249-6645. [13]KAUR S,MEHRA R.FPGA Implementation of OFDM Transceiver using FFT Algorithm[J].International Journal of Engineering Science & Technology,2012,4(4):91-108. [14]GARCIA J,CUMPLIDO R.On the design of and FPGA-Based OFDM modulator for IEEE 802.11a[C]//2nd IEEE International Conference on Electrical and Electronics Engineering.2005:114-117. [15]NEHRU G,DHAR P.A Detailed Look of Audio Steganography Techniques Using LSB and Genetic Algorithm Approach[J].International Journal of Computer Ence Issues,2012,9(1):402-406. [16]PROAKIS J G.Digital Communications 5/E[M].McGraw Hill,New York,2008. [17]CAO L M,ZHOU J,LUO H.N-continuous orthogonal frequency division multiplexing time domain algorithm simulation [J].Computer Simulation,2008,35(9):183-188,257. |
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