【作者】 周鋆卿；

【导师】 刘乃安；

【作者基本信息】 西安电子科技大学 ， 通信与信息系统， 2010， 硕士

【摘要】 盲源分离是近二十年来发展起来的一门新型技术学科,在理论和实际应用上都取得了长足的发展,广泛的应用于各个学科领域,出现了许多热门方向,许多学者都致力于相应领域的理论和应用研究,也取得了很好的效果。为了机载阵列天线设备能在通信侦察中获取有价值的信息,本文主要研究了运动平台盲源分离的问题。建立了阵列接收通信信号的混合模型,研究发现天线阵列在运动时,通信信号混合模型相当于一个时变的线性瞬时混合模型。对经典的盲分离算法——自然梯度算法和EASI算法进行了研究,提出了几种改进算法并对其进行了仿真分析。同时针对盲源分离算法收敛速度和稳态性能这一矛盾性能指标,提出了改进的新算法——基于优选函数的峭度变步长EASI算法,该算法根据分离状态与峭度方差的关系,使步长随峭度方差的变化而变化,有效的减小稳态误差,同时优选函数在信号分离的初始阶段和稳态阶段使用不同的估计函数,具有收敛速度快的特点。新算法相对于固定步长EASI算法,经典变步长算法,稳定性和收敛速度都有一定的提高,适用于时变的线性瞬时混合模型,能成功的分离混合通信信号,具有广阔的应用前景。更多还原

【Abstract】 Blind source separation is a new type of technology,which is developed in the past two decades. BSS has made considerable development in theory and practical application,there are wide range of applications in various subject areas and many popular research directions. Many scholars are committed to the corresponding the field of theoretical and applied research, also they have achieved good results. In order to obtain valuable information in communication reconnaissance by array antenna equipment on board, blind source separation problem for the moving platform is mainly studied in this paper.An array to receive communication signals mixed model is established, the study found that the communication signal mixed model is equivalent to a time-varying linear instantaneous model,when the antenna array is moving. The classical blind source separation algorithm - the natural gradient algorithm and the EASI algorithm have been studied ,and then put forward several improved algorithms, make some simulation analysis. For the contradiction between convergence speed and steady-state performance in BSS, a new algorithm is proposed - kurtosis variable step-size EASI algorithm based on optimially selected function for blind source separation. According to the relationgship between the covariance of kurtosis and the state of separation ,the algorithm’s step-size is controlled with kurtosis covariance, it decreases the steady-state error efficiently.Meanwhile optimially selected function algorithm carrys on two different estimation functions, which are used between two phases of the signal separation, as the result of the convergence speed has increased. The proposed algorithm has faster convergence speed and smaller steady-state error than EASI and VS_EASI. It applies to the time-varying linear instantaneous mixed model and separates mixed communication signals successfully.The new algorithm has extensive application prospects.更多还原