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Joint Compensation of OFDM Frequency-Selective Transmitter and Receiver IQ Imbalance
EURASIP Journal on Wireless Communications and Networking volume 2007, Article number: 068563 (2007)
Abstract
Direct-conversion architectures are recently receiving a lot of interest in OFDM-based wireless transmission systems. However, due to component imperfections in the front-end analog processing, such systems are very sensitive to in-phase/quadrature-phase (IQ) imbalances. The IQ imbalance results in intercarrier interference (ICI) from the mirror carrier of the OFDM symbol. The resulting distortion can limit the achievable data rate and hence the performance of the system. In this paper, the joint effect of frequency-selective IQ imbalance at both the transmitter and receiver ends is studied. We consider OFDM transmission over a time-invariant frequency-selective channel. When the cyclic prefix is long enough to accommodate the channel impulse response combined with the transmitter and receiver filters, we propose a low-complexity two-tap equalizer with LMS-based adaptation to compensate for IQ imbalances along with channel distortions. When the cyclic prefix is not sufficiently long, then in addition to ICI there also exists interblock interference (IBI) between the adjacent OFDM symbols. In this case, we propose a frequency domain per-tone equalizer (PTEQ) obtained by transferring a time-domain equalizer (TEQ) to the frequency domain. The PTEQ is initialized by a training-based RLS scheme. Both algorithms provide a very efficient post-FFT adaptive equalization and their performance is shown to be close to the ideal case.
References
IEEE standard 802.11a-1999: wireless LAN medium access control (MAC) & physical layer (PHY) specifications, highspeed physical layer in 5 GHz band 1999.
Koffman I, Roman V: Broadband wireless access solutions based on OFDM access in IEEE 802.16. IEEE Communications Magazine 2002,40(4):96-103. 10.1109/35.995857
ETSI Digital Video Broadcasting; Framing structure, Channel Coding & Modulation for Digital TV 2004.
Baier A: Quadrature mixer imbalances in digital TDMA mobile radio receivers. Proceedings of the International Zurich Seminar on Digital Communications. Electronic Circuits and Systems for Communications, March 1990, Zurich, Switzerland 147-162.
Liu C-L: Impacts of I/Q imbalance on QPSK-OFDM-QAM detection. IEEE Transactions on Consumer Electronics 1998,44(3):984-989. 10.1109/30.713223
Schuchert A, Hasholzner R, Antoine P: A novel IQ imbalance compensation scheme for the reception of OFDM signals. IEEE Transactions on Consumer Electronics 2001,47(3):313-318. 10.1109/30.964115
Tubbax J, Côme B, Van Der Perre L, Donnay S, Moonen M, De Man H: Compensation of transmitter IQ imbalance for OFDM systems. Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP '04), May 2004, Montreal, Canada 2: 325-328.
Valkama M, Renfors M, Koivunen V: Compensation of frequency-selective I/Q imbalances in wideband receivers: models and algorithms. Proceedings of the 3rd IEEE Workshop on Signal Processing Advances in Wireless Communications (SPAWC '01), March 2001, Taiwan, China 42-45.
Tarighat A, Bagheri R, Sayed AH: Compensation schemes and performance analysis of IQ imbalances in OFDM receivers. IEEE Transactions on Signal Processing 2005,53(8):3257-3268.
Tarighat A, Sayed AH: OFDM systems with both transmitter and receiver IQ imbalances. Proceedings of the 6th IEEE Workshop on Signal Processing Advances in Wireless Communications (SPAWC '05), June 2005, New York, NY, USA 735-739.
Tsui E, Lin J: Adaptive IQ imbalance correction for OFDM systems with frequency and timing offsets. Proceedings of IEEE Global Telecommunications Conference (GLOBECOM '04), November 2004, Dallas, Tex, USA 6: 4004-4010.
van Acker K, Leus G, Moonen M, van de Wiel O, Pollet T: Per tone equalization for DMT-based systems. IEEE Transactions on Communications 2001,49(1):109-119. 10.1109/26.898255
Tandur D, Moonen M: Joint compensation of OFDM transmitter and receiver IQ imbalance in the presence of carrier frequency offset. Proccedings of European Signal Processing Conference (EUSIPCO '06), September 2006, Florence, Italy
Tandur D, Moonen M: Joint adaptive compensation of transmitter and receiver IQ imbalance under carrier frequency offset in OFDM based systems. to appear in IEEE Transactions on Signal Processing, 2007.
Côme B, Hauspie D, Albasini G, et al.: Single-package direct-conversion receiver for 802.1 la wireless LAN enhanced with fast converging digital compensation techniques. Proceedings of IEEE MITT-S International Microwave Symposium Digest, June 2004, Fort Worth, Tex, USA 2: 555-558.
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Tandur, D., Moonen, M. Joint Compensation of OFDM Frequency-Selective Transmitter and Receiver IQ Imbalance. J Wireless Com Network 2007, 068563 (2007). https://doi.org/10.1155/2007/68563
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DOI: https://doi.org/10.1155/2007/68563