Dual-Use Signal Design for Radar and Communication via Joint Orthogonal Signal and Phase Modulation

This paper proposes a new information modulation resorting to orthogonal signal and its phase for dual-function radar communication(DFRC)systems.Focusing on the standardized linear frequency modulation(LFM)signal by additional phase,a bank of signals enjoying satisfactory autocorrelation and cross-correlation characteristics,are generated.Then,these signals map the different information as well as their phases are also modulated to increase the communication bit rate,thus yielding a series of dual-use signals.Finally,the radar detection and communication performance of dual-use signals are also provided through numerical simulation and half-physical platform verification,confirming the effectiveness of the designed signals compared with the existing design strategy.

Research of Hybrid Modulation Radar Signal

Based on the advantage of phase coded signal and stepped frequency signal,a new hybrid modulation signal is introduced in this paper. It combines phase code modulation during the pulse with stepped frequency modulation between the pulses, which is named as phase-coded stepped-frequency ( PCSF ) signal. By analyzing its waveform and ambiguity function,the comparison between Stepped-Frequency ( SF) signal and PCSF signal is given,which shows that the PCSF signal is better than SF signal. Finally,the signal processing method with two stage compressed processing is presented. The simulation results show that this new hybrid modulation radar signal can get a higher stepped frequency than ordinary SF signal,realize the same equivalent bandwidth with less pulse number,and solve the conflict among the stepped frequency,the number of pulse, and transmit average power. Under the premises of a certain range resolution,this new hybrid modulation radar signal not only raises the data rate of radar system,but also reduces Doppler sensitivity with a good prospect, and the effect of one-dimensional range profile is much better than that of traditional SF signal. Therefore,this new hybrid modulation radar signal can be widely used in application.

Four-Dimensional Signal Constellations Based on Binary Frequency-Shift Keying and <i>M</i>-ary Amplitude-Phase-Shift Keying

In this article, we give the construction of new four-dimensional signal constellations in the Euclidean space, which represent a certain combination of binary frequency-shift keying (BFSK) and M-ary amplitude-phase-shift keying (MAPSK). Description of such signals and the formulas for calculating the minimum squared Euclidean distance are presented. We have developed an analytic building method for even and odd values of M. Hence, no computer search and no heuristic methods are required. The new optimized BFSK-MAPSK (M = 5,6,···,16) signal constructions are built for the values of modulation indexes h =0.1,0.15,···,0.5 and their parameters are given. The results of computer simulations are also provided. Based on the obtained results we can conclude, that BFSK-MAPSK systems outperform similar four-dimensional systems both in terms of minimum squared Euclidean distance and simulated symbol error rate.

基于PM的多功能超宽带调制技术的研究

基于相位调制器(PM)级联高斯带通滤波器,提出了一种超宽带(UWB)多功能调制方案,可以实现通断键控(OOK)、脉冲极性调制(PBM)和脉冲形状调制(PSM)。该方案结构简单,只需单个光源,利用率较高,仅改变比特序列发生器(BSG)的编码就可实现三种UWB调制格式间的灵活切换;产生的三种信号只包含一个波长,在光纤中传输时无需复杂的非线性控制和色散管理。使用光通信软件Optisystem进行模拟,研究了光源功率、调制速率以及两支路PM和滤波器系统误差的影响,对OOK、PBM和PSM信号的传输性能进行了分析。结果表明,光源功率和调制速率在一定范围内变化时,可以获得性能最佳的UWB调制信号。

伪码调相与伪随机PPM复合引信的抗噪声性能分析

该文在介绍伪码调相与伪随机脉冲位置调制(PPM)复合引信工作原理的基础上,推导了在多普勒频率影响下接收机的总调制制度增益。对推导结果的分析和计算机仿真表明:随多普勒频率的增大,伪码序列周期越大或高频脉冲宽度越宽,其抗噪声性能下降越迅速,对其伪码序列周期、高频脉冲宽度和引信工作频率的设计,能够保证该体制引信良好的抗噪声性能。

一种CPM信号频率成形脉冲盲估计算法

频率成形脉冲是连续相位调制(CPM)信号解调所必需的调制参数,由脉冲形状和脉冲长度两个参数共同决定。该文利用CPM信号的自相关特性,深入分析了CPM信号调制参数与自相关函数之间的内在联系,并在此基础上提出了一种频率成形脉冲的盲估计算法。该算法首先实现脉冲形状的盲识别,然后将CPM信号的调制指数调整为整数,最后通过自相关函数中非零值的个数来实现脉冲长度的盲估计。计算机仿真结果与分析表明,该算法实现简单,能够在任意调制阶数和调制指数下有效估计出频率成形脉冲。

基于数据辅助的CPM信号捕获与频偏估计算法

针对连续相位调制(Continuous phase modulation,CPM)信号同步问题,提出了一种基于给定导频符号的信号捕获和频偏估计算法。首先对由扩频码字组成的导频信号进行复数匹配滤波,将输出值取模,通过搜索峰值实现信号捕获。然后根据相关值对应的辅角利用最小二乘法实现频偏和初相估计,并分析推导了该算法在较低信噪比条件下的频偏估计范围和估计精度。仿真实验结果表明,频偏估计范围可达±0.25倍的符号速率,与传统伪码相关估计频偏算法相比,该算法估计精度高,在SNR为3.3dB时频偏估计精度接近克拉美罗下界。

一种CPM信号检测与定时同步算法

针对传统连续相位调制(CPM)接收机检测复杂度高和定时同步困难的问题,提出一种CPM信号联合检测与定时同步算法。基于低维Walsh信号空间分解CPM信号,在低通滤波器中采用子区间采样器代替大量匹配滤波器,利用面向判决的方式进行定时同步。仿真实验表明,该算法的复杂度较低,适用于多数CPM调制方案。

Turbo-CPM系统在窄带低信噪比条件下的性能研究

为克服窄带低信噪比系统传统接收机中解调器与译码器之间缺少信息共享的弊端,将迭代检测原理应用到连续相位调制(Turbo-CPM)系统中,提出了一种基于软输入软输出(SISO)算法的迭代检测方法,探讨了Turbo分量码结构、交织深度、迭代次数和连续相位调制(CPM)指数等主要参数对系统性能的影响,为实际应用中系统参数的选择提供了参考依据。加性高斯白噪声(AWGN)信道下的仿真结果表明:在窄带低信噪比特定条件下,基于Turbo码的八进制部分响应CPM(8M2RC)系统能够有效地改善系统的收敛性,降低地板效应出现的概率,提高系统的误比特率性能,同时兼顾了信息传输的有效性,提高了频带利用率。

基于Walsh信号空间分解的CPM序列检测算法

给出了基于Walsh信号空间分解的序列检测算法,将接收机前端大量的匹配滤波器替换为两个低通滤波器加子区间采样器,有效地降低了CPM解调器前端复杂度,并通过对最小投影距离损失的分析,得出了一个关于接收机使用Walsh信号空间维数所遵循的最低限准则,并通过仿真验证了这个准则是有效的。

PSK/PPM组合信号

从强探测、高分辨、低截获和抗干扰角度出发,探索了一种相移键控(PSK)信号和脉冲位置调制(PPM)信号组合而成一种新的雷达信号PSK/PPM,给出了波形构造,推导了它的模糊函数。理论分析和大量的计算模拟表明组合信号具有大时宽带宽积(BT),BT相对于单一单制信号PPM提高Q倍,相对于PSK提高M倍,信号更具复杂性,且易于产生。

一种低复杂度的CPM信号最大似然块检测算法

为了降低连续相位调制(Continuous Phase Modulation,CPM)信号多符号非相干检测的运算复杂度,提出了一种低复杂度的最大似然块检测算法。该算法充分利用已判决输出的符号对检测过程中的符号向量取值进行约束,有效减少判决统计量计算时的运算量,进而降低算法复杂度。另外,该算法引入判决长度变量,通过调整单次检测时判决符号数使算法能够在检测性能与运算量之间灵活折中。仿真结果表明,提出的低复杂度检测算法能够适用于全响应和部分响应CPM信号,相比原最大似然块检测算法能够在不损失检测性能的前提下降低算法运算量至少50%,并且能够通过选择不同的判决长度提高算法应用的灵活性。

基于非线性光学环镜中SOA的XPM效应生成UWB信号的研究

利用非线性光学环镜(NOLM),提出了一种基于半导体光放大器(SOA)的交叉相位调制(XPM)效应生成超宽带(UWB)信号的方法,设计了系统结构,并进行了仿真实验,得到了中心频率约为6.7GHz、相对带宽约为161%的UWB信号,该信号符合美国联邦通信委员会(FCC)标准,从而验证了该方法的可行性。另外,所生成的UWB信号的中心频率及带宽还具有可调性。

一种基于环的串行级联CPM方法

随着通信技术与航空事业的快速发展,实现旅客空中接入的诉求要求未来航空通信系统具备宽带传输能力和更广泛的互联互通能力,然而随着航班航线的增加,航空通信系统间互干扰日益严重,针对此问题,在串行级联连续性相位调制(serially concatenated continuous phase modulation,SCCPM)的基础上设计了一种基于环的串行级联CPM系统方案,此方案通过有效降低同距离通信所需的发射功率来降低航空通信系统间的干扰。分析了模p整数环的多进制卷积编码原理,将无反馈连续相位编码器(continuous phase encoder,CPE)与基于环的卷积码相结合,提出一种内外编码都采用基于环的卷积码的串行级联CPM方法。仿真结果表明,与二进制卷积编码SCCPM相比,该方案有1.25~1.75 d B的信噪比增益,在到达相同通信距离的情况下,系统的发射功率降低了约1/5。

一种NLFM-CPM雷达通信一体化信号设计

针对利用雷达信号调制通信信息提高雷达低占空比脉冲发射形式下的通信速率时,信号自相关旁瓣较高的问题,提出一种基于非线性调频(nonlinear frequency modulation,NLFM)信号的雷达通信一体化信号形式。首先,结合连续相位调制(continuous phase modulation,CPM)建立了NLFM-CPM一体化信号模型。然后,根据雷达自相关性能准则与分辨性能准则,在匹配滤波的处理方案下,分析了一体化信号的调制参数对雷达探测性能的影响。最后,分析了调制参数对通信性能的影响。仿真结果表明,该信号在不损失雷达主瓣能量、距离与速度分辨率以及兼顾通信可靠性的前提下,可实现低于-35dB的自相关旁瓣。

卫星回传链路CPM信号调制识别研究

文章解决了DVB-RCS2标准中规定的卫星回传链路上连续相位调制信号(CPM)调制识别问题。根据调制参数的不同,标准中的CPM信号有5种类型,且在TDMA突发模式下传输。短突发长度和低信噪比环境下信号调制识别是实现信号正确解调的前提。提出了一种基于改进后的广义检测后积分(GPDI)匹配准则的调制识别方法。该算法采用改进后的GPDI匹配准则获得接收信号与每类CPM的匹配值;并按最大值准则估计得到信号类型从而实现信号调制识别。通过该方法可实现单个突发帧内调制识别。仿真实验表明,该算法不需符号速率的先验信息,对大频偏和相偏具有较好的鲁棒性,具有较低的复杂度和优异的抗噪声性能。

并行PM生成的12倍频毫米波RoF系统研究

提出了一种利用4并行相位调制器(PM)结构调制生成12倍频毫米波的方法,详细介绍了该方法的原理,并通过公式推导证明了其可行性。采用软件搭建了相应的Ro F仿真系统,检测到12倍频后毫米波的频谱图和通过系统传输后的眼图。理论分析和仿真结果表明,10GHz的射频信号可产生120GHz的毫米波,5Gb/s的数据可在光纤中传输30km以上,功率代价小于0.9d B。

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.

一种基于UV-ESA自校准和高精度的PM电学测量方法

电光相位调制器(Phase Modulator,PM)因无需偏置,线性调制和插损小等优点,被广泛应用于相干光通信、微波信号产生、处理和测量等领域.调制指数和半波电压是评估PM性能的关键参数.传统基于(Optical Spectrum Analyzer,OSA)的方法面临测量分辨率低和存在测量盲区问题.为此,本文提出了一种基于电谱分析(Unequal Voltage based on Electrical Spectrum Analyzer,UV-ESA)的自校准、高精度的PM特性参数测量方法.该方法利用同频、不同驱动电压比的情况下,通过分析失谐光学载波和调制边带分别与载波拍音电谱,实现PM调制指数和半波电压的高频特性参数测量.该方法不需改变测量链路结构,无需辅助宽带微波源或电光调制器,验证了所提方法的有效性,并对比OSA方法对结果的准确性进行了验证.

卫星回传链路CPM信号符号速率估计

解决了DVB-RCS2标准定义的连续相位调制(CPM)信号符号速率估计问题。该信号存在于卫星回传链路上,且以TDMA突发模式传输。标准规定了CPM的调制指数、调制阶数和频率成型脉冲等参数,但未对符号速率进行规定。短突发长度、低信噪比环境下实现CPM符号速率估计是信号解调的关键。文中提出了一种基于改进后的广义检测后积分(GPDI)匹配准则的符号速率估计方法。算法首先通过对信号带宽的粗估,获得信号符号速率范围;然后利用不同过采样倍数下的独特码调制波形作为特征,采用改进后的GPDI匹配准则实现信号符号速率估计。通过该方法可在单个突发帧下实现符号速率估计。仿真实验表明,该算法对频偏具有较好的鲁棒性和优异的抗噪声性能。