Efficient robust adaptive beamforming for cyclostationary signals

This paper deals with the problem of robust adaptive array beamforming for cyclostationary signals. By exploiting the signal cyclostationarity, the LS -SCORE algorithm presented in a paper by Agee et al. has been shown to be e ffective in performing adaptive beamforming without requiring the direction vector of the desired signal. However, this algorithm suffers from severe performance degradation even if there is a small mismatch in the cycle freq uency of the desired signal. In this paper, we first evaluate the performan ce of the LS-SCORE algorithm in the presence of cycle frequency error (CFE) . An analytical formula is derived to show the behavior of the performance degradation due to CFE. An efficient method is then developed based on the fact that the array output power approaches its maximum as the CFE is reduc ed. We formulate the problem as an optimization problem for reducing the CF E iteratively to achieve robust adaptive beamforming against the CFE, Simul ation examples for confirming the theoretical analysis and showing the effe ctiveness of the proposed method are provided.