一种改进的数字信道化DRFM系统设计研究

根据当前电子对抗(ECM)系统所处战场电磁环境的特点,提出一种将数字信道化技术与调制滤波器组技术相结合的DRFM系统设计方法。该方法针对数字信道化DRFM常用设计方法存在的不足,对数字信道化接收机和发射机结构进行了改进,构造出一种无"盲区"的信道划分形式,并将调制滤波器组技术引入到系统设计中。改进的DRFM系统具有大带宽、全概率接收和处理同时到达信号的能力,便于硬件实现的优点。仿真实验结果和理论分析相一致,验证了设计的正确性,为普适性DRFM系统设计提供了新的思路。

高效的无盲区非均匀信道化滤波结构的设计与分析

加权重叠相加(WOLA)滤波器组是实现信道化滤波的一种高效结构。在其设计过程中需要知道子带信号的数量、位置、带宽等先验信息,故其设计灵活性差,不可重置,不能实现信号的非均匀信道化接收。该文在WOLA法的基础上通过邻近信道合并提出了一种无盲区非均匀信道化滤波结构。仿真结果证明该方法实现了任意位置、任意带宽、任意数量子带信号的无盲区非均匀信道化滤波。该方法在实现过程中参数设计简单、计算复杂度低、硬件实现效率高。不需要知道子带信号的任何先验信息,设计灵活性较高、可重置性强。同时通过改变抽取因子还可以控制输出子带信号的采样率,增强了信号的输出灵活性。

过采样滤波器组作为纠错码的阈值新算法

考虑量化噪声和信道噪声,搭建基于过采样滤波器组OFBS(Oversampled Filter Banks)的联合信源信道编码系统,研究系统的传输检错纠错性能。提出新的阈值选取方法,该方法是基于贝叶斯假设检验为理论依据的,能根据实际信号和噪声统计特性做实时分析,得出适当的阈值。通过Matlab对系统进行仿真,结果表明信道在不同的转移概率条件,OFBS作为纠错码的阈值新算法的计算复杂度低,并且有很好的检错纠错性能。通过对一维信号的纠错,信号的峰值信噪比平均提高1到2 db。

重叠特征策略与参数优化的运动想象脑电模式识别

针对运动想象脑电信号的非线性、非平稳特性,提出重叠特征策略与参数优化方法.通过重叠频带滤波(OFB)进行预处理,在滤波后的信号上提取共同空间模式特征(CSP).将OFB-CSP特征输入鲁棒支持矩阵机,完成模式识别,在模式识别中通过校正粒子群算法(CPSO)动态调整被试个体最优参数.在两个公开数据集上进行实验,分别验证OFB预处理可提升CSP特征区分度,CPSO可为个体寻找最优的鲁棒支持矩阵机分类参数.文中方法提升运动想象识别率,样本和计算资源需求较小,适合脑机接口的实际应用.

A correlation OPTS algorithm for reducing peak to average power ratio of FBMC-OQAM systems

A correlation overlapping partial transmit sequence(C-OPTS) algorithm is proposed to solve the issue of high complexity of overlapping partial transmit sequence(OPTS) algorithm in suppressing the peak to average power ratio(PAPR) of filter bank multicarrier-offset quadrature amplitude modulation(FBMC-OQAM) signals.The V subblocks in partial transmit sequence(PTS) are regrouped into U combinations according to the correlation coefficient p,and overlapping subblocks are allowed between adjacent groups.The search starts from the first group and sets the phase factors of the subsequent groups to 1.When the phase factors of the non-overlapping subblocks in the first group are determined,the subsequent groups are searched in turn to determine their respective phase factors.Starting from the second data block,the data overlapped with it should be taken into account when determining its optimal phase factor vector.Theoretical analysis and simulation results indicate that compared with the OPTS algorithm,the proposed algorithm can significantly reduce the computational complexity at the cost of slight deterioration of PAPR performance.Meanwhile,compared with the even-odd iterative double-layers OPTS(ID-OPTS) algorithm,it can further reduce the complexity and obtain a better PAPR suppression effect.