噪声信号源超磁致伸缩换能器设计方法研究

针对以往噪声信号发射换能器在实际工作中,存在着诸多影响正常科研试验的问题,并根据噪声信号的技术要求,以及探测方式的技术特征,我们对噪声发射换能器进行了重新设计,从选用超磁致伸缩材料作为换能器的材料入手,结合国内外一些新的设计理念,从材料性能分析,到理论设计,最后到可靠性实施方法,都进行了周密细致的研究,并完成了设计全过程。测试结果和使用性能表明,达到了预期的目的,这也是该材料在国内首次应用于单只宽频水声换能器中,开创了稀土超磁致伸缩材料应用的又一个先列。

低压电力线载波通信模拟实验系统的硬件设计

结合低压电力线载波通信传输特性的分析,设计了包含净化电源、载波信号源、噪声信号源、负载网络等部分的低压电力线载波通信模拟实验系统.给出了各部分的硬件电路图或原理图.该系统可通过改变电网模拟环境的给定参量,如载波信号波形、噪声信号波形、负载拓扑、负载值来模拟电网在不同地区、不同时段、不同负载、不同干扰情况下的传输环境.从而为研究低压电力线载波通信技术提供了一个良好的实验平台.

含噪ICA模型的一种时频算法

实际ICA(Independent Component Analysis)模型中,观测信号常常被各种噪声干扰,致使ICA的源估计相当困难.针对信号源噪声污染情形,分析了ICA模型的估计难点;并假设信号和噪声的时频特性不同,以一种高性能的双线性时频分布计算混合信号的时频特性,辅之Hough空间变换思想,将噪声能量扩展到整个参数空间,只选择信号能量占主导的自项点进行最小二乘对角化估计源信号,提出了一种时频抗噪ICA方法;最后,详细分析了该方法的抗噪性能.该方法扩展了ICA模型的应用限制条件,能有效分离各种非平稳信号.

含噪BSS模型的BJD-Hough算法

针对信号源噪声污染情形,假设信号和噪声的时频谱不同,提出了一种时频去噪盲源分离方法。该方法以Born-Jordan分布计算混合信号的时频矩阵并将信号的时频分布看做图像,利用广义Hough变换将信号检测转换为在参数空间寻找局部极大值的问题,再运用自项点理论选择合适的时频阵进行对角化,进而估计源信号和混合阵。该方法扩展了盲源分离的限制条件,能有效分离各种非平稳源信号、非独立源信号,且通过把噪声能量扩展到整个时频面而只选择信号能量占主导的时频点,对噪声具有一定的抑制能力。

Study of engine noise based on independent component analysis

Independent component analysis was applied to analyze the acoustic signals from diesel engine. First the basic prin-ciple of independent component analysis (ICA) was reviewed. Diesel engine acoustic signal was decomposed into several inde-pendent components (ICs); Fourier transform and continuous wavelet transform (CWT) were applied to analyze the independent components. Different noise sources of the diesel engine were separated, based on the characteristics of different component in time-frequency domain.

MAXIMUM LIKELIHOOD SOURCE SEPARATION FOR FINITE IMPULSE RESPONSE MULTIPLE INPUT-MULTIPLE OUTPUT CHANNELS IN THE PRESENCE OF ADDITIVE NOISE

Blind identification-blind equalization for Finite Impulse Response (FIR) Multiple Input-Multiple Output (MIMO) channels can be reformulated as the problem of blind sources separation. It has been shown that blind identification via decorrelating sub-channels method could recover the input sources. The Blind Identification via Decorrelating Sub-channels(BIDS)algorithm first constructs a set of decorrelators, which decorrelate the output signals of subchannels, and then estimates the channel matrix using the transfer functions of the decorrelators and finally recovers the input signal using the estimated channel matrix. In this paper, a new approximation of the input source for FIR-MIMO channels based on the maximum likelihood source separation method is proposed. The proposed method outperforms BIDS in the presence of additive white Gaussian noise.