Initial Timing Acquisition for Binary Phase‐Shift Keying Direct Sequence Ultra‐wideband Transmission

This paper presents a parallel processing searcher structure for the initial synchronization of a direct sequence ultra-wideband (DS-UWB) system, which is suitable for the digital implementation of baseband functionalities with a 1.32 Gsample/s chip rate analog-todigital converter. An initial timing acquisition algorithm and a data demodulation method are also studied. The proposed searcher effectively acquires initial symbol and frame timing during the preamble transmission period. A hardware efficient receiver structure using 24 parallel digital correlators for binary phase-shift keying DS-UWB transmission is presented. The proposed correlator structure operating at 55 MHz is shared for correlation operations in a searcher, a channel estimator, and the demodulator of a RAKE receiver. We also present a pseudo-random noise sequence generated with a primitive polynomial, 1+ x 2 +x 5 , for packet detection, automatic gain control, and initial timing acquisition. Simulation results show that the performance of the proposed parallel processing searcher employing the presented pseudorandom noise sequence outperforms that employing a preamble sequence in the IEEE 802.15.3a DS-UWB proposal.

[1]  Tomoaki Ohtsuki,et al.  Frequency domain channel estimation and equalisation for direct sequence ultra wideband (DS-UWB) system , 2006 .

[2]  Sang-Sung Choi,et al.  FIR Filter of DS-CDMA UWB Modem Transmitter , 2008, IEICE Trans. Commun..

[3]  Tan F. Wong,et al.  Acquisition of direct-sequence transmitted reference ultra-wideband signals , 2006, IEEE Journal on Selected Areas in Communications.

[4]  Laurence B. Milstein,et al.  Optimal decision strategies for acquisition of spread-spectrum signals in frequency-selective fading channels , 1998, IEEE Trans. Commun..

[5]  Songcheol Hong,et al.  A 3.1 to 5 GHz CMOS Transceiver for DS‐UWB Systems , 2007 .

[6]  KyungHi Chang,et al.  Double-Dwell Hybrid Acquisition in DS-UWB System , 2006 .

[7]  A.A.M. Saleh,et al.  A Statistical Model for Indoor Multipath Propagation , 1987, IEEE J. Sel. Areas Commun..

[8]  Someshwar C. Gupta,et al.  Direct-Sequence Spread-Spectrum Parallel Acquisition in Nonselective and Frequency-Selective Rician Fading Channels , 1992, IEEE J. Sel. Areas Commun..

[9]  Roberto Rinaldo,et al.  A time-frequency domain approach to synchronization, channel estimation, and detection for DS-CDMA impulse-radio systems , 2005, IEEE Transactions on Wireless Communications.

[10]  L. B. Milstein,et al.  Optimal decision strategies for acquisition of spread spectrum signals in frequency selective fading channels , 1996, Proceedings of ISSSTA'95 International Symposium on Spread Spectrum Techniques and Applications.

[11]  Kevin J. Gartz Generation of uniform amplitude complex code sets with low correlation sidelobes , 1992, IEEE Trans. Signal Process..

[12]  Arumugam Nallanathan,et al.  Performance of DS-UWB multiple-access systems with diversity reception in dense multipath environments , 2006, IEEE Transactions on Vehicular Technology.

[13]  Gi-Hong Im,et al.  Performance of a hybrid decision feedback equalizer structure for CAP-based DSL systems , 2001, IEEE Trans. Signal Process..

[14]  J. Foerster,et al.  Channel modeling sub-committee report final , 2002 .