Title :
ICI self cancellation - Golay complementary Reed-Muller code scheme for OFDM systems
Author :
Park, Jae-Hyun ; Lee, Jae-Yup ; Lee, Sang-Won ; Hong, Song-Nam ; Shin, Dong-Joon
Author_Institution :
Mobile Commun. Res. Lab., LG Electon. Inc., Anyang-shi, South Korea
fDate :
27 June-2 July 2004
Abstract :
The block coding scheme for OFDM, which is combining Golay complementary sequence with Reed-Muller code (GCRM) that limits PAPR up to 3 dB with error-correcting capability, has been introduced recently [J. A. Davis et al. (1999)]. However, the coding gain of GCRM cannot overcome ICI caused by frequency error in OFDM. In this paper, a new combined scheme of ICI self-cancellation [Y. Zhao et al. (2001)] [Y. Fu et al. (2002)] and GCRM code is proposed. This scheme is analyzed to show that it limits PAPR up to 6 dB and can compensate the nonlinear distortion by TWTA. It is also verified that for the low back-off value of TWTA, our scheme shows better performance than GCRM.
Keywords :
Golay codes; OFDM modulation; Reed-Muller codes; block codes; error correction codes; interference suppression; nonlinear distortion; radiofrequency interference; travelling wave amplifiers; GCRM; Golay complementary Reed-Muller code; ICI self cancellation; OFDM system; PAPR; TWTA; block coding scheme; error-correction code; intercarrier interference; nonlinear distortion; orthogonal frequency division multiplexing; peak-to-average power ratio; traveling wave tube amplifier; Bandwidth; Bit error rate; Block codes; Interference; Mobile communication; Neural networks; Noise robustness; Nonlinear distortion; OFDM; Peak to average power ratio;
Conference_Titel :
Information Theory, 2004. ISIT 2004. Proceedings. International Symposium on
Print_ISBN :
0-7803-8280-3
DOI :
10.1109/ISIT.2004.1365462
