Abstract
A complete detection, channel estimation, synchronization, and equalization scheme for a transmitted reference (TR) ultra-wideband (UWB) system is proposed in this paper. The scheme is based on a data model which admits a moderate data rate and takes both the interframe interference (IFI) and the intersymbol interference (ISI) into consideration. Moreover, the bias caused by the interpulse interference (IPI) in one frame is also taken into account. Based on the analysis of the stochastic properties of the received signals, several detectors are studied and evaluated. Furthermore, a data-aided two-stage synchronization strategy is proposed, which obtains sample-level timing in the range of one symbol at the first stage and then pursues symbol-level synchronization by looking for the header at the second stage. Three channel estimators are derived to achieve joint channel and timing estimates for the first stage, namely, the linear minimum mean square error (LMMSE) estimator, the least squares (LS) estimator, and the matched filter (MF). We check the performance of different combinations of channel estimation and equalization schemes and try to find the best combination, that is, the one providing a good tradeoff between complexity and performance.
Highlights
Ultra-wideband (UWB) techniques can provide high speed, low cost, and low complexity wireless communications with the capability to overlay existing frequency allocations [1]
We evaluate the performance of different detectors and the performance of different combinations of channel estimation and equalization schemes for a single user and single delay transmitted reference (TR)-UWB system
We have proposed a complete solution for signal detection, channel estimation, synchronization, and equalization in a TR-UWB system
Summary
Ultra-wideband (UWB) techniques can provide high speed, low cost, and low complexity wireless communications with the capability to overlay existing frequency allocations [1]. The two-step procedure in [15] finds the block which contains the signal in the first step, and aligns with the signal at a finer resolution in the second step Both methods are based on the assumption that coarse acquisition has already been achieved to limit the search space to the range of one frame and that there are no interferences in the signal. A multiuser TR-UWB system that admits interpulse interference (IPI), and IFI and ISI was proposed in [21] The synchronization for such a system is at low-rate sample-level. We develop a complete detection, channel estimation, synchronization, and equalization scheme based on the data model modified from [21].
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