6533b86cfe1ef96bd12c88ef

RESEARCH PRODUCT

An improved method for estimating the frequency correlation function

Matthias PatzoldAli Chelli

subject

Mathematical optimizationSuperposition principleInterleavingComputer scienceBandwidth (signal processing)AutocorrelationCorrelation function (quantum field theory)Transfer functionAlgorithmCoherence bandwidth

description

For time-invariant frequency-selective channels, the transfer function is a superposition of waves having different propagation delays and path gains. In order to estimate the frequency correlation function (FCF) of such channels, the frequency averaging technique can be utilized. The obtained FCF can be expressed as a sum of auto-terms (ATs) and cross-terms (CTs). The ATs are caused by the autocorrelation of individual path components. The CTs are due to the cross-correlation of different path components. These CTs have no physical meaning and leads to an estimation error. We propose a new estimation method aiming to improve the estimation accuracy of the FCF of a band-limited transfer function. The basic idea behind the proposed method is to introduce a kernel function aiming to reduce the CT effect, while preserving the ATs. In this way, we can improve the estimation of the FCF. The performance of the proposed method and the frequency averaging technique is analyzed using a synthetically generated transfer function. We show that the proposed method is more accurate than the frequency averaging technique. The accurate estimation of the FCF is crucial for the system design. In fact, we can determine the coherence bandwidth from the FCF. The exact knowledge of the coherence bandwidth is beneficial in both the design as well as optimization of frequency interleaving and pilot arrangement schemes.

yearjournalcountryeditionlanguage
2012-04-012012 IEEE Wireless Communications and Networking Conference (WCNC)
https://doi.org/10.1109/wcnc.2012.6213930