Evaluation of Chaotic Demodulator for EBPSK Signals

Based on the theory of Duffing oscillator weak signal detection and the technology of extended binary phase shift keying （EBPSK） modulation, the chaotic demodulator using the Duffing oscillator for EBPSK signals was proposed. The proposed demodulator could avoid the problem of demodulation filters design, and shows the excellent anti-noise capability of chaotic oscillator detection. Numerical and experimental tests were taken to investigate the impact of modulation parameters T and 0 on bit error performance of the proposed method, and the performance limits were gotten. The results show that the proposed chaotic demodulator works well under a very low signal-to-noise ratio （SNR） conditions, and gets SNR gains about 20 dB to 30 dB from the impulse filter.

BPSK-QPSK和QPSK-16QAM的光调制格式转换

信号在调制方式不同的系统之间传输时,需要对信号调制格式进行转换,而调制格式转换通常在电信号上进行,要将光信号恢复成电信号。在电信号上进行调制格式转换后,再经电光调制器变换成光信号发射。频繁的光电或电光转换通常会增加系统成本,针对该问题,提出了利用相干叠加在光域上实现二进制相移键控(BPSK)到正交相移键控(QPSK)以及QPSK到正交幅度调制(16QAM)的调制格式转换的方法。实验通过Optisystem软件对转换模型进行仿真,采用10 Gpbs伪随机信号作为测试信源,通过星座图观测出信号成功转换为QPSK和16QAM;并在不同光信噪比、光源线宽和信号功率下对转换模型与直接QPSK、16QAM传输模型进行误码分析对比,在相同条件下转换模型和直接传输的误码率高度保持一致,表明这种调制格式转换方法具有较高的稳定性和准确性,能够适用于不同系统间的信号传输。

Numerical modeling of DPSK pressure signals and their transmission characteristics in mud channels

A numerical model and transmission characteristic analysis of DPSK （differential phase shift keying） pressure signals in mud channels is introduced. With the control logic analysis of the rotary valve mud telemetry, a logical control signal is built from a Gate function sequence according to the binary symbols of transmitted data and a phase-shift function is obtained by integrating the logical control signal. A mathematical model of the DPSK pressure signal is built based on principles of communications by modulating carrier phase with the phase-shift function and a numerical simulation of the pressure wave is implemented with the mathematical model by MATLAB programming. Considering drillpipe pressure and drilling fluid temperature profile along drillpipes, the drillpipe of a vertical well is divided into a number of sections. With water-based drilling fluids, the impacts of travel distance, carrier frequency, drillpipe size, and drilling fluids on the signal transmission were studied by signal transmission characteristic analysis for all the sections. Numerical calculation results indicate that the influences of the viscosity of drilling fluids and volume fraction of gas in drilling fluids on the DPSK signal transmission are more notable than the others and the signal will distort in waveform with differential attenuations of the signal frequent component.

An innovative detection method of high frequency BPSK signal with low signal-to-noise ratio

Based on chaotic oscillator system, this paper proposes a novel method on high frequency low signal- to-noise ratio BPSK（ Binary Phase Shift Keying） signal detection. Chaotic oscillator system is a typical non-lin- ear system which is sensitive to periodic signals and immune to noise at the same time. Those properties make it possible to detect low signal-to-noise ratio signals. The BPSK signal is a common signal type which is widely used in modern communication. Starting from the analysis of advantages of chaotic, os~.illator system and signal features of the BPSK signal, we put forward a unique method that can detect low signar-to-noise ratio BPSK sig- nals with high frequency. The simulation results show that the novel method can dclct.t low signal-to-noise ratio BPSK signals with frequency in an order of magnitude of l0s Hz, and the input Signal-to-Noise Ratio threshold can be -20 dB.

ZigBee Signal Phase Tracking Using a Discrete Kalman Filter Estimator under AWGN Channel

The objective of this research is to track the phase changes in Binary Phase Shift Keying (BPSK) modulated signal in ZigBee communication systems using discrete Kalman Filter (KF). Therefore, Kalman Filtering is used to estimate and optimize the carrier phase of BPSK modulated signal, in the presence of Additive White Gaussian Noise (AWGN) channel, by minimizing the phase deviation error. Therefore, a simulation model, using MATLAB, will be created to demonstrate ZigBee transmission system with the impact of the integrated filter. The expected results will show that Kalman Filter tracks the phase of BPSK modulated signal correctly and the performance of tracking will be measured by Mean Square Error (MSE) with respect to Signal to Noise Ratio (SNR). This study proposes a new method of phase tracking in ZigBee receivers in the presence of AWGN channel which can be extended to Internet of Things (IoT) applications.

基于功率控制环扰动的DC-DC变换器能量信息一体化研究

针对实现DC-DC变换器之间的信息交互较为复杂的问题,提出了一种基于功率控制环扰动实现其能量信息一体化的方法。通过在DC-DC变换器的传统功率控制环中叠加二进制频移键控(binary frequency shift keying,2FSK)信号作为扰动,将数据信息叠加到传统脉冲宽度调制(pulse-width modulation,PWM)信号中,使得该PWM信号同时包含数据信息,实现能量信息一体化。首先,给出基于2FSK的功率/数据双载波调制以及实时的滑动离散傅里叶变换(sliding discrete Fourier transform,SDFT)解调方案。然后,通过对Buck变换器的能量信息一体化模型进行小信号建模与分析可知,降低输入阻抗可提升通信的信噪比。最后搭建一个由两个Buck变换器并联的实验装置进行验证。实验结果表明在稳态和负载突变的工况下均可实现3 kb/s的稳定通信,验证了所提方法的可行性。该方法使得DC-DC变换器能同时进行功率变换和数据传输,提升数字化和智能化水平。

基于二阶循环统计量的BPSK参数估计

针对复值二进制相移键控(binary phase shift keying,BPSK)信号,推导了其无共轭项和带共轭项的二阶循环累积量表达式,分别研究了时延对其循环频率特性的影响,得出了独立的载频和码片时宽估计算法,即可以利用无共轭项二阶循环累积量时延零切片估计载频,可以利用带共轭项二阶循环累积量时延非零切片估计码片时宽,并推导了最优时延的选取,进而提出了一种更优良的码片时宽估计算法。仿真实验表明,提出的载频估计算法与循环谱算法比较,虽有2 dB的损耗,但是计算复杂度减小;码片时宽估计算法性能比利用循环谱的估计算法提高5 dB以上。

FSK/BPSK复合调制信号识别与参数估计

该文提出了一种有效的频率键控-二相编码(FSK/BPSK)复合调制信号的识别和参数估计算法。首先给出FSK/BPSK复合调制信号的模型,并分析了其相位特征。然后采用二叉树方法,基于相位展开和瞬时频率特征实现FSK/BPSK复合调制信号,BPSK信号和FSK信号的识别,并详细讨论了基于Neyman-Pearson准则的识别门限选定原则。最后采用Haar小波法和正弦波频率估计算法实现FSK/BPSK复合调制信号的参数估计。仿真结果表明,该算法在较低信噪比下仍具有较好的识别性能和参数估计精度。

Analysis and optimization of power spectrum on EBPSK modulation in throughput-efficient wireless system

In order to satisfy increasingly greater demand for the performance of communication systems, a throughput efficient wireless system based on the extended binary phase shift keying （EBPSK） modulation is presented. Simultaneously, corresponding analysis of power spectra is also given with a brief process. The optimal waveform is proposed without useful information loss, by removing linear spectra presenting periodic components. On this basis, the reasonable definition of bandwidth is discussed, which indicates that the EBPSK belongs to the category of the ultra narrow band （UNB） throughput-efficient communication. Meanwhile, the modulation parameters＇ effects on bandwidth, transmission rate and transmission performance are analyzed. Results illustrate the validity of theoretical analysis and spectrum optimization. Results also prove that this UNB system can obtain good bit error rate （BER） performance with high spectra efficiency.

基于单PD直接检测Twin-SSB-QPSK信号的光纤通信系统

针对孪生单边带正交相移键控(Twin-SSB-QPSK)信号在光传输过程中的高成本问题,提出了一种在接收端采用单光电探测器(PD)直接检测Twin-SSB-QPSK信号的光纤通信系统。在接收端不需要采用光带通滤波器(OBPF)对Twin-SSB-QPSK信号的两路光单边带信号进行分离,而是利用直接检测的拍频效应,通过单PD直接检测孪生的两路光单边带QPSK信号产生相干叠加的单路16阶正交幅度调制(16QAM)信号。仿真演示了两路56 Gbit/s的QPSK信号叠加为一路112 Gbit/s的16QAM信号,并与传统的单路16QAM信号传输方案进行了仿真对比。仿真结果表明,该方案在降低系统器件要求和部署成本的同时并没有带来额外的功率代价。

二阶锁相环的EBPSK信号解调分析

高效的调制和解调技术对数据传输具有重要的意义。该文在已有的EBPSK传输系统基础上,详细讨论了EBPSK信号采用二阶锁相环解调时鉴相器的输出信号结构。首先通过建立锁相环的线性化模型,对比分析了不同阻尼系数的相位阶跃误差响应和矩形相位误差响应,推导了理想状态下鉴相器输出的波形表达式。其次在包含窄带高斯噪声的条件下研究了EBPSK信号解调的最佳积分限取值,给出了相应的仿真结果。分析表明,在一定的信噪比条件下,只要锁相环能由捕获状态恢复到跟踪状态,就能保证EBPSK信号的有效解调。

一种基于时分的EBPSK多载波实现方式

为了实现扩展的二元相移键控(EBPSK)调制的多载波传输,提出了一种基于时分的EBPSK多载波实现方式.首先,利用叠加原理,通过观察冲击滤波器的输出波形,分析了多路EBPSK信号间干扰的原因;然后,给出了消除信号间干扰的具体思路,即将临道信号相对延迟,使各路载波的判决区域在时间上区分开,避免判决区域的碰撞;最后,通过仿真,对比了不同时间保护间隔下基于时分的EBPSK多载波与单载波的误码率性能.仿真结果表明,时间保护间隔为0时干扰较大,多载波的误码率性能较差.在合适的时间保护间隔下,多载波的误码率性能几乎与单载波一致.基于时分的EBPSK多载波实现方式能够有效消除各路EBPSK信号间的干扰,使得多路EBPSK信号同时传输且误码率性能损失不明显.

基于模式的自制小波在EBPSK信号检测中的应用

为了改善基于小波的超窄带信号的检测率,提出了根据信号的模式构建小波的方法.以扩展二元相位键控的"1"信号为例,采用常数正交函数空间投影法构建了对应的unb1小波,并与经典的Haar,db系列、Symlet系列、Coiflet系列、Biorspline系列、逆Biorspline系列、离散美尔、高斯系列、墨西哥帽和Morlet小波进行比较.分析结果发现,所提出的unb1小波性能较好,能够检测出信号的位置和尺度,且在噪声强度大于信号强度的情况下亦可工作.因此,基于模式的自制小波用于超窄带信号检测是可行的.

基于循环谱的改进BPSK直扩信号检测算法

在有限数据长度条件下,针对低信噪比下的二相相移键控(BPSK)直接序列扩频(DS-SS)信号,提出一种基于数据分段和重叠保留处理的改进检测算法。该算法无需信号的先验知识,通过在非零循环频率上的一维搜索实现信号检测。实验结果表明,该算法能有效抑制噪声,在低信噪比下对于DS-SS信号具有较好的检测性能。

基于功率谱FFT的BPSK信号参数估计

针对低信噪比环境下二相编码(BPSK)信号参数估计的问题,该文提出一种基于功率谱FFT的信号参数估计算法。该算法根据信号功率谱傅里叶变换得到的幅度谱和相位谱与各参数之间的关系,实现BPSK信号的码元宽度、载频和码长估计。该算法对功率谱继续做傅里叶变换可以进一步消除噪声对估值的影响,更适合在低信噪比环境下实现参数的估计,且计算简单易于实现。仿真试验证明了该算法的准确性和抗噪性,在信噪比为-10 dB时BPSK信号的载频和码元宽度估计正确率分别比循环谱算法提高了9.9%和190.9%。

一种随机极性MCP-EBPSK调制解调器

为改善随机极性的连续相应的扩展二元相移键控(CP-EBPSK)调制信号的频谱结构,该文提出一种带功率谱形状调节系数的随机极性修正CP-EBPSK(Modified CP-EBPSK,MCP-EBPSK)调制解调器。阐述了随机极性MCP-EBPSK调制的基本原理,给出了无随机极性的MCP-EBPSK调制理论功率谱表达式。同时,设计了合适的数字冲击滤波器用于解调,给出了无编码的随机极性MCP-EBPSK通信系统框图,分析和验证了该类调制信号的功率谱特性和解调性能,并对多径信道上的解调性能进行了仿真。仿真结果表明:新的调制方式通过对功率谱形状的调节,不仅频谱利用率更高,解调性能也更好;现阶段,该系统不适合在无线信道传输,有望在有线信道上率先获得应用。

EBPSK调制的波形优化

为使调制波形适应不同信道条件,利用扩展的二元相移键控(EBPSK)功率谱结构及特性对其基本波形进行优化,得到带宽更窄、边带抑制水平更好的EBPSK调制波形.通过修改基本调制波形表达式,控制已调信号功率谱中线谱的分布.在波形结构表达式中引入波控参数α,通过调节该参数,可以自由控制边带抑制水平及载波强度,以适应不同信道干扰条件,实现自适应调制.选择合适的调制指数及波控参数α,可以使边带低于-60dB,因而,可利用现有的频谱间隙实现混合调制,共享频谱,提高频谱效率.

伪随机调制序列的CP-EBPSK通信系统

为了紧缩通信系统的信号频谱,减少其线谱能量,引入了一种伪随机序列调制方法.该方法通过对连续相位扩展的二元相移键控(CP-EBPSK)通信系统进行改进,使发射端键控调制时段的相位变化受控于伪随机序列,从而使CP-EBPSK调制指数的符号随机化,同时保持CP-EB-PSK通信系统其他组成部分不变.仿真结果表明,该方法可使调制信号占用的带宽仅为CP-EB-PSK通信系统带宽的一半,显著提高了频谱的利用率.即使在-60 dB带宽的苛刻要求下,当信号载频分别为30 MHz和2.4 GHz时,伪随机序列调制的CP-EBPSK通信系统以约35 dB的信噪比为代价,获得超过200 bit/(s.Hz)的频谱利用率,大幅度紧缩了频谱,提高了系统整体性能.同时,接收机冲击滤波器的特殊滤波效果导致解调器可不受调制符号随机化的影响,从而使得解调器的解调性能基本不变.

基于SVM分类的EBPSK信号解调判决

为了改善扩展的二元相移键控(EBPSK)系统在低信噪比下的误码率性能,针对解调端冲击滤波器输出信号的特点,引入支持向量机(SVM)分类方法.在滤波器输出的中频信号中选取少量采样点进行判决,仿真显示,可以得到较高的信噪比增益.误码率在10-4时,比积分判决方法获得1.8 dB的信噪比增益.不同核函数产生不同的支持向量机算法,进而对线性和径向基核函数作了分析,同时,对不同的特征点提取以及不同的训练码元个数对判决结果的影响作了较为详细的分析.通过仿真发现,用少量特征点和训练码元便可以获得较好的性能,因此,在EBPSK系统中采用SVM分类判决法降低误码率是一种较有效的方式.

EBPSK载波同步中的相位误差分析

载波同步是通信中的重要环节。该文分析了EBPSK载波同步中的相位误差。首先在包含窄带高斯噪声的条件下,通过建立锁相环线性化模型,推导了EBPSK载波恢复中的输出相位噪声方差;其次在相同的参数条件下,与BPSK的平方环和Costas环输出相位噪声方差进行对比,给出了不同输入信噪比和环路带宽下的仿真结果。研究表明,在EBPSK占空比1:9,相位跳变π/4,输入信噪比小于6 dB时,恢复出的载波要比BPSK更加精确。