Authors: Wang Xue, Liu Dan, Liu Ying, Wang Molin, Qian Zhihong

Abstract:

A low-complexity, high-accurate frequency offset estimation for multi-band orthogonal frequency division multiplexing (MB-OFDM) based ultra-wide band systems is presented regarding different carrier frequency offsets, different channel frequency responses, different preamble patterns in different bands. Utilizing a half-cycle Constant Amplitude Zero Auto Correlation (CAZAC) sequence as the preamble sequence, the estimator with a semi-cross contrast scheme between two successive OFDM symbols is proposed. The CRLB and complexity of the proposed algorithm are derived. Compared to the reference estimators, the proposed method achieves significantly less complexity (about 50%) for all preamble patterns of the MB-OFDM systems. The CRLBs turn out to be of well performance.

Keywords: CAZAC, Frequency Offset, Semi-cross Contrast, MB-OFDM, UWB

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1083551

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1607

References:

[1] IEEE P802.15 Wireless Personal Area Networks (WPANs) Group 3a, "Multi-band OFDM physical layer proposal for IEEE 802.15 task group 3a," Mar. 2004.
[2] Standard ECMA-368, "High rate ultra wideband PHY and MAC standard. 1st Edition," Dec. 2005.
[3] D.Dardari, V.Tralli, and A.Vaccari, "A theoretical characterization of nonlinear distortion effects in OFDM systems," IEEE Trans Commun. vol. 48, no.10, pp.1755-1764, Oct.2000.
[4] H.Steendam and M.Moeneclaey, "Synchronization sensitivity of multi-carrier systems," European Commun. ETT special issue on multi-carrier spread spectrum, vol.52, no.5, pp.834-844, May.2004.
[5] P.H.Moose, "A technique for orthogonal frequency division multiplexing frequency offset correction," IEEE Trans. Commun. vol.42, no.10, pp.2908-2914, Oct.1994.
[6] T.M.Schmidl, D.C.Cox, "Robust frequency and timing synchronization for OFDM," IEEE Trans. Commun. vol.45, no.9, pp.1800-1805, Sep. 1997.
[7] M.Morelli and U.Mengali, "An improved frequency offset estimator for OFDM applications," IEEE Commun. Lett. pp.75-77, Mar. 1999.
[8] C.W.Yak, Z.Lei, T.T.Tjhung, "Maximum likelihood frequency offset estimation and Cramer Rao Bound for ultra-wideband (UWB) multi-Band OFDM systems," IEEE Vehicular Technology Conference. VTC 2006.
[9] Sen.D., Chakrabarti.S,.Kumar.R.V. , "A new frequency offset estimation scheme for ultra-wideband MB-OFDM Systems," IEEE. ICACT.vol.3, no.2, pp.1929-1934, Feb. 2008.
[10] Yinghui Li, Jacobs T, Minn H, "Frequency offset estimation for MB-OFDM-based UWB systems," IEEE ICC, vol.10, pp.4729-4734, June 2006.
[11] Yinghui Li, Hlaing Minn, Jacobs T, Win M, "Frequency offset estimation for MB-OFDM-based UWB systems," IEEE Trans. Commun. vol. 56, no.6. June. 2008.
[12] A.F.Molisch, J.R.Foerster, M.Pendergrass, "Channel models for ultrawideband personal area networks," IEEE Wireless Commun. Mag. Vol.10, no.6, pp.14-21.2003.
[13] L.Bommer, M.Antweiler, "Perfect N-phase sequences and arrays," IEEE Jounal. Commun. vol.10, no.4, pp.782-789. April. 1992