基于分段处理的线性频率调制信号检测方法

针对现有匹配技术和互相关技术对长时间序列线性频率调制(LFM)信号调频率参数估计时间长的问题,提出了基于分段处理的LFM信号检测方法。该方法首先对信号进行分段FFT处理,然后在段间利用同一位置处相位近似不变的原则进行解线调处理,最后根据峰值位置完成信号的调频率参数估计。仿真结果表明,该方法在检测性能不变的前提下,可快速完成信号的参数估计,运算量小于传统方法,适用于对大数据量的LFM信号进行处理。

频率调制信号调制方式识别方法

为完成对FM,2FSK,4FSK,8FSK,MSK等频率调制信号的识别,在瞬时频率直方图统计图、信号功率谱、信号平方谱等提取特征,这些特征提取简单,计算量小.给出了频率调制信号识别算法,并利用实测数据验证算法的性能及算法对脉冲成形滤波器形状,频偏等因素的鲁棒性。

调制信号工作频率对谐振式光纤陀螺影响的研究

在谐振式光纤陀螺中,为了解决模拟调制中对锯齿波的回扫时间和线性度的苛刻要求,提高陀螺的检测精度和标度因数的线性度,往往采用数字调制,即采用阶梯波替代锯齿波作为相位调制器的控制信号.从理论上推导了数字调制信号的工作频率与探测器输出光强之间的关系,并利用Simulinking软件仿真了调制信号工作频率对陀螺输出信号的动态范围、陀螺的检测灵敏度和谐振腔输出信号的影响,指出在陀螺系统的实际设计时,应综合考虑以上三方面的影响,合理选取调制频率的大小.

BOC调制打通共用载频的坦途——GNSS导航信号的收发问题之一

在着力培育北斗卫星导航国内民用市场之际.研发高精度.广用途、价格适度的GNSS导航信号接收机已成为当务之急。为此,我们需要深入了解GNSS导航信号所涉及的多学科知识.破解GNSS导航信号接收机研制难题。本讲座拟对此做一些解题探索.而对GNSS导航信号共用载波频率,所用伪随机噪声码特性.GNSS卫星所用的测距码多样性及其跟踪测量.卫星导航电文及其编码纠错法.GNSS导航信号接收天线的适应性.以及GNSS导航信号接收机的研制难点及其对策分别予以较深入的论述。本文主要论述BOC调制的作用与影响。

基于STFT的相干宽带调频信号2-D到达角估计

宽带调频信号(FM)作为具有宽频带和时变方向向量的非平稳信号,其到达角的估计具有较大的难度。该文利用短时傅里叶变换(STFT)和宽带调频信号的时频聚焦性建立了新颖的空间时频分布方程,并利用矩形平面阵数据的分维结构和基于矩形平面子阵堆栈的奇异值分解法估计了相干宽带FM 信号的2-D 到达角。理论分析和仿真实验表明了算法的可行性。

超声调制声频定向传播性能研究

通过实验,对基于超声调制的声频定向传播性能进行研究。利用调幅技术将音频信号调制成超声波载波信号并发出,由于空气中的非线性作用,可产生具有强指向性的可听声音。该文构建了一超声调制模拟声频信号定向传播系统,并设计了指向性实验测试装置。应用该系统,对不同频率、不同距离的解调可听声频信号在传输过程中的变化特征及其指向性进行了实验和分析。结果表明,随着声频信号的频率提高指向性增强,距离增加指向性变差。

调制域分析技术

调制域反映信号的频率一时间关系,本文介绍了调制域分析技术在设备计量、测试和对电子战信号分析参数测量方面的应用.

基于超声调制的声频定向传播实验

利用超声波在空气中传播的非线性交互作用,可以产生高指向性的可听声音。构建了基于超声调制的模拟声频信号定向传播系统,设计了超声换能器阵列及其实验测试装置。利用该系统对不同频率声频信号在传输过程中的变化特征及其指向性进行了实验研究和对比分析。

阵列调制随机共振在微弱信号特征提取方面的应用

论述了阵列调制随机共振方法在强噪声背景下多频微弱信号特征提取中的工作原理和实现步骤;采用预先设定系统参数的多个并联非耦合随机共振单元形成阵列,将被测强噪声背景下的多频微弱信号分别与不同频率的载波进行调制,生成多个差频均为0.01Hz的信号作为各对应随机共振单元的激励信号,采用龙格-库塔算法求取各单元输出并进行频谱分析,根据0.01Hz处的信噪比判断在微弱信号中是否存在载波频率与差频值之和大小的频率分量,最后综合各个随机共振单元的检测结果生成微弱信号的频率特征向量;仿真结果表明,阵列调制随机共振在微弱信号特征提取方面效果明显,具有很好的应用前景。

可变时宽宽带LFM信号压缩接收技术研究

研制了一种可变时宽宽带线性频率调制(LFM)信号数字脉冲压缩组件。该组件由A/D模块、数字下变频器(DDC)模块和脉冲压缩模块组成,着重介绍了时域实时数字脉压的方法和实现。对组件进行了试验验证,其中心频率为70 MHz,带宽25 MHz,时宽10～25μs,脉压主旁瓣比可达40 dB。

汽车故障诊断——汽车工程师认证培训教材连载之二十

(接第6期)2.4.5.3.传感器波形的分类汽车传感器波形主要包括直流模拟信号、直流频率调制信号、交流频率调制信号三种。(1)直流模拟信号直流模拟信号主要指输出信号电压在0～1V或0～5V的连续变化的直流电压信号传感器电路波形,通常包括:空气流量计。

汽车示波器的应用(三)——传感器波形

(4)数字式空气流量计种类很多,它们的外观和内部结构也不同。但从大多数数字式空气流量计传递的"电子通讯"波形都是相同的,几乎所有都是产生变化的频率信号,频率调制信号是很容易被示波器测试到的。几乎所有的数字式空气流量计,随着空气流量的增加,输出信号的频率也增加,由于频率相对于空气流量的规范资料很难找到,当测试空气流量计(MAF)时,一个参考波形就非常有帮助。有三种主要的数字式空气流量计。

A new method of demodulating the digital frequency modulation signals

A new method of estimating the frequency-known signals from the strong background noise was presented first. Then the new method was used in the demodulation of the digital frequency modulation (FSK) signals. The new demodulation method can complete the demodulation of the FSK signals only with the carrier frequency and without any carrier phase information. The simulation results show that the performance of anti-noise of the new method is better than that of the incoherent demodulation method and the fluctuation of the carrier phase has little effect on the new method. So the new demodulation method has a fine prospect in the practical applications.

ALGORITHM FOR THE DETECTION AND PARAMETER ESTIMATION OF MULTICOMPONENT LFM SIGNALS

A novel algorithm based on Radon-Ambiguity Transform (RAT) and Adaptive Signal Decomposition (ASD) is presented for the detection and parameter estimation of multicompo-nent Linear Frequency Modulated (LFM) signals. The key problem lies in the chirplet estimation. Genetic algorithm is employed to search for the optimization parameter of chirplet. High estimation accuracy can be obtained even at low Signal-to-Noisc Ratio(SNR). Finally simulation results are provided to demonstrate the performance of the proposed algorithm.

HIGH RESOLUTION RANGE PROFILE FORMATION BASED ON LFM SIGNAL FUSION OF MULTIPLE RADARS

This paper presents a new method of High Resolution Range (HRR) profile formation based on Linear Frequency Modulation (LFM) signal fusion of multiple radars with multiple frequency bands. The principle of the multiple radars signal fusion improving the range resolution is analyzed. With the analysis of return signals received by two radars,it is derived that the phase difference between the echoes varies almost linearly with respect to the frequency if the distance between two radars is neg-ligible compared with the radar observation distance. To compensate the phase difference,an en-tropy-minimization principle based compensation algorithm is proposed. During the fusion process,the B-splines interpolation method is applied to resample the signals for Fourier transform imaging. The theoretical analysis and simulations results show the proposed method can effectively increase signal bandwidth and provide a high resolution range profile.

A HIGH PERFORMANCE UWB LFM WAVEFORM GENERATOR

In this paper, the design and implementation of a high performance Ultra-WideBand (UWB) Linear Frequency Modulation (LFM) waveform generator at Very High Frequency/Ultra High Frequency (VHF/UHF) band are introduced. Firstly, the design ideas for a high performance UWB LFM waveform generator are described. Then, a generation scheme for UWB LFM waveforms is presented according to the baseband digital generation method combining with the bandwidth ex-tension method via frequency doubling. An experimental system has been implemented and tested. The results show that the UWB LFM waveform generator achieves very high performance.

ANALYSIS AND PROCESSING OF LMF-COSTAS STEPPED FREQUENCY RADAR SIGNAL

Linear Modulated Frequency (LMF) Costas Stepped Frequency Radar (SFR) signal is introduced. Its ambiguity function is derived and analyzed in detail and its feasibility is validated in theory. The scheme of the proposed signal processing is also presented. The results of theoretic analysis and simulation show that, by using the proposed signal and increasing the bandwidth of the total stepped frequency, the ambiguity sidelobe is well suppressed and the range-velocity coupling in the stepped frequency radar is also greatly weakened.

电声学与立体声技术

N2000-06467 0009891电子情报通信学会技术研究报告:工程声学 EA99-4～10(信学技报,Vol.99,No.59)〔汇,日〕/日本电子情报通信学会.—1999.05.—53P.(L)本文集收录7篇论文。内容主要涉及:基于指数平滑的声音音调变化的逐次计算方法。