基于匹配滤波域的PSK雷达信号有源干扰识别算法

针对复杂电磁环境下相位编码(Phase Shift Key,PSK)信号干扰识别问题,研究瞄准式干扰(Spot Jamming,SJ)、阻塞式干扰(Blocking Jamming,BJ)、线性扫频式干扰(Linear Sweep Jamming,LSJ)、灵巧噪声卷积干扰(Noise Convolution Jamming,NCJ)、灵巧噪声乘积干扰(Noise Product Jamming,NPJ)、间歇采样直接转发干扰(InterruptedSampling and Direct Repeater Jamming,ISDJ)、间歇采样重复转发干扰(Interrupted-Sampling and Periodic Repeater Jamming,ISPJ)及间歇采样循环转发式干扰(Interrupted-Sampling and Cyclic Repeater Jamming,ISCJ)的匹配滤波序列,人工提取16维特征组成特征向量放入支持向量机(Support Vector Machine,SVM)进行分类识别。仿真实验表明:干噪比(Jamming Noise Ratio,JNR)为-20~30 dB至16~30 dB时,识别率随JNR的增加而提高;JNR为-2~30 dB时,识别率为94.89%;模拟JNR为-2~30 dB的真实环境时,保留8维特征参数,算法识别率可达93.62%,仅降低1.27%。

基于PPSK的物联网终端可信准入认证系统设计与实现

物联网技术在有力推进智慧校园建设的同时,也对网络安全提出了更高的要求.目前,物联网终端准入可信认证机制尚未成熟,现有的基于MAC地址认证模式难以避免地址伪冒的问题,IEEE 802.1x认证模式存在终端适用性不强、管理维护难度高的缺点,而预共享密钥模式(PSK)则不满足接入设备及身份具有不可否认性等合规性要求.为解决此类问题,基于私有预共享密钥模式(PPSK)+用户预注册系统设计并实现了物联网终端准入可信认证系统.该系统可有效减少身份冒用、地址假冒等方面的安全问题,可大幅增强物联网终端管理安全.此外,进一步给出了在校园网内如何提高物联网系统的高可用性、高安全性的具体实践经验.

Semiconductor optical amplifier used as regenerator for degraded differential phase-shift keying signals

Phase and amplitude regeneration are necessary for degraded differential phase-shift keying communication sys- tems. This paper proposes a regenerator based on semiconductor optical amplifier for differential phase-shift keying signals. The key regeneration mechanism is theoretically analysed. The effectiveness of semiconductor optical amplifier based regenerator is demonstrated by comparing the bit error rate and eye diagrams before and after regeneration for 40-Cbit/s differential phase-shift keying 1080-km transmission systems. The results show that regeneration effects are very well. Bit error rate is tess than 10-12 with the regenerator.

基于PSK调制的数字通信信号仿真分析技术

基于PSK调制的数字通信系统在无线通信工程实践中有着广泛的应用,由于受到各种条件的限制,从实际工程系统接收到的PSK数字通信信号在教学科研中不易获得,而PSK调制仿真数据则可以自己产生。在掌握通信原理和仿真技术的基础上利用Matlab实现对BPSK、DPSK、QPSK、DQPSK、8PSK、π/4-DQPSK、OQPSK等数字通信信号源的模拟仿真,可对调制体制、工作频率、传输码率、采样频率、信道特征等参数进行灵活设置,并按要求生成规定格式的DAT数据文件,可作为调制方式识别软件的训练和测试样本。结合模方谱、平方谱、四次方谱、八次方谱等谱线参数特征,同时结合星座图和眼图进行基于PSK调制的数字通信信号的调制体制判别和验证。

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.

压缩感知在多载波EBPSK雷达中的应用

将压缩感知(CS)技术应用于多载波相位编码脉冲雷达中,分析了该雷达的目标时延和多普勒频率估计以及不同频点散射系数估计的性能.对比了在不同目标数条件下采用BCoSaMP重构算法时EBPSK与BPSK的目标时延和多普勒频率估计性能,并估计了雷达的目标散射系数.仿真结果表明:基于CS的密集多载波雷达的目标检测性能优于正交多载波雷达,而且在正交与密集多载波条件下,EBPSK调制的目标检测性能优于BPSK调制;目标散射系数估计精度与信噪比呈对数关系,在低信噪比时EBPSK调制的目标散射系数估计性能优于BPSK调制.理论分析与仿真结果表明了CS技术在降低信号的采样频率方面的有效性和可行性.

多天线协同接收PSK载波参数估计的CRLB

针对利用多个独立天线对同一信号进行协同接收的问题,推导了数据辅助(DA)和非数据辅助(NDA)方式BPSK/QPSK信号频率及相位估计的Cramer-Rao下界(CRLB),并与传统单个天线接收时的CRLB进行了比较。结果表明,在DA方式下,多天线协同接收PSK信号频率及相位估计的CRLB与传统单天线接收的CRLB相同;在NDA方式下,多天线协同接收的CRLB则要低于传统单天线接收的CRLB。

相位噪声对PSK系统性能的影响

在介绍相位噪声定义的基础上,分析了相移键控(PSK)接收系统的本振信号源相位噪声对误码率的影响。以QPSK调制方式为例,仿真了相位噪声对系统误码率影响,结果证明了接收系统中本振信号源相位噪声的重要性。以实际工程中使用的本振信号源为例,推导了相位噪声和信号抖动所导致的BPSK和QPSK接收系统信噪比的限制。理论分析与工程实践相结合,可以更好地得出相位噪声对PSK接收系统的影响,对接收系统的工程设计具有一定的指导意义。

基于相位统计信息特征的相移键控类信号识别

为解决非协作通信中,相移键控类信号由于相位相似,导致在复杂环境下的分类识别困难的问题,本文在高斯噪声下通过对信号相位信息概率密度的推导,并使用高斯核密度估计的方法得到了一种恢复信号相位信息特征的方法。通过仿真实验将该方法从加性高斯噪声推广到加性Alpha稳态分布噪声中。在该方法下,本文提出的特征对BPSK、QPSK、OQPSK、π/4_DQPSK、8 PSK 5类信号在Alpha噪声下可以准确识别。研究表明:使用支持向量机方法可以在信噪比0 dB以上时使信号的总体识别率达到90%以上。

FSK/PSK复合调制雷达信号的识别

针对具有低截获概率特性的FSK/PSK复合调制雷达信号的特点,研究了FSK/PSK信号的识别,采用二叉树方法提取了基于信号幅度和相位的特征参数,研究并实现了PSK、FSK和FSK/PSK复合调制雷达信号的识别.理论和仿真结果表明,所提出的算法在信噪比不小于5 dB时,FSK/PSK复合调制雷达信号的正确识别率达到了99%以上.

一种实现PSK信号快速码速率估计的新方法

为了解决如何快速、准确地估计相位编码信号码元速率问题,提出了一种基于信号离散域累加平均的码速率估计方法.通过对载频估计值和采样频率进行累加长度和步进的设置,累加平均值会在信号相位跳变点处出现峰值,设置一定的门限后,利用搜索峰值点即可迅速计算码速率.该方法只进行加法和少量的乘法运算,避免了传统瞬时自相关算法中的大量乘法运算,具有快速和易于工程实现的特点.仿真实验表明,该算法具有一定的有效性和准确性,与瞬时自相关方法相比具有更强的抗噪性.

Broad-Band All-Optical Wavelength Conversion of Differential Phase-Shift Keyed Signal Using an SOA-Based Nonlinear Polarization Switch

Broad-band all-optical wavelength conversion of differential phase-shift keyed （DPSK） signal is experimentally demonstrated. This scheme is composed of a one-bit delay interferometer demodulation stage followed by a semiconductor optical amplifier （SOA） based nonlinear polarization switch. A wavelength converter for the 10 G b/s DPSK signal is presented, which has a wide wavelength range of more than 30 nm. The converted signals experience small power penalties less than 1.4 dB compared with the original signal, at a bit error rate of 10-9. Additionally, the optical spectra, the measured waveforms and the open eye diagrams of the converted signals show a high quality wavelength conversion performance.

Parameter Estimation Approach of FSK/PSK Radar Signal

A parameter estimation approach of reconnaissance hybrid radar signal combined frequency-shift keying （FSK） and phase-shift keying （PSK） is presented. Firstly, the multi-phase difference is adopted to calculate the instantaneous frequency （IF） of FSK/PSK, then the frequency points of FSK are estimated from the histogram of IF. The code rate of PSK is extracted from the locations of phase discontinuity. Finally, the multi-phase difference of the square of the received signal is computed to estimate the code rate of FSK. The presented algorithm has higher accuracy of parameter estimation when the signal-to-noise ratio （SNR） is above 11 dB.

Performance Analysis of ASK and PSK Modulation Based FSO System Using Coupler-Based Delay Line Filter under Various Weather Conditions

Free space optical communication (FSO) proves to be very effective and efficient technology for wireless communication. This work basically deals with the designing of FSO systems. Further, a comparative study has been made to ascertain which modulation technique proves better for communication. This paper investigates the performance of ASK and PSK modulation based FSO system by varying different FSO parameters under several conditions including haze, rain, mist and fog. Finally, simulation results are analysed and discussed.

Investigation of Dispersion Compensation in 2.5 Gbit/s OOK Label and 40 Gbit/s RZ-DPSK Payload Optical Label Switching System Based on Optical Carrier Suppression and Separation

Three dispersion compensation schemes of an optical label switching transmission system were investigated, which employs 40 Gbit/s return zero differential phase-shift keying（RZ-DPSK） payload labeled with 2.5 Gbit/s on-off keying（OOK） signal based on the optical carrier suppression and separation（OCSS） techniq ue, In the system, proposed are the receiver sensi ti vity oS payload and label, achieving -- 32. 4 dBm and --38.5 dBm, respectively. Using the optimal dispersion compensation scheme, after transmitted over 160 km and 320 km SMF respectively, the label can be recovered without power penalty, while the payload can be recovered with less than 2 dB and 5 dB penalty, respectively.

Performance of M-QAM, M-DPSK and M-PSK with MRC diversity in a Nakagami-m fading channel

The nature of a wireless communication channel is very unpredictable. To design a good communication link, it is required to know the statistical model of the channel accurately. The average symbol error probability(ASER) was analyzed for different modulation schemes. A unified analytical framework was presented to obtain closed-form solutions for calculating the ASER of M-ary differential phase-shift keying(M-DPSK), coherent M-ary phase-shift keying(M-PSK), and quadrature amplitude modulation(QAM) over single or multiple Nakagami-m fading channels. Moreover, the ASER was estimated and evaluated by using the maximal ratio-combining(MRC) diversity technique. Simulation results show that an error rate of the fading channel typically depends on Nakagami parameters(m), space diversity(N), and symbol rate(M). A comparison between M-PSK, M-DPSK, and M-QAM modulation schemes was shown, and the results prove that M-ary QAM(M-QAM) demonstrates better performance compared to M-DPSK and M-PSK under all fading and non-fading conditions.

覆岩主关键层位置对导水裂隙带高度的影响

采用理论分析、模拟实验和工程探测等方法,就覆岩主关键层位置对导水裂隙带高度的影响进行深入研究。研究结果表明:覆岩主关键层位置会影响顶板导水裂隙带高度,当主关键与开采煤层距离较近并小于某一临界距离时,顶板导水裂隙带将发育至基岩顶部,导水裂隙带高度明显大于按我国《建筑物、水体、铁路及主要井巷煤柱留设与压煤开采规程》(以下简称"规程")中的顶板导水裂隙带高度确定方法得到的结果。对导水裂隙带高度产生影响的主关键层与开采煤层临界距离主要与煤层采高、顶板碎胀压实特性、主关键层破断块度等因素有关,可以粗略按7～10倍煤层采高计算该临界距离。当覆岩主关键层与开采煤层距离小于7～10倍采高时,不能按规程中的方法确定顶板导水裂隙带高度;当覆岩主关键层与开采煤层距离大于7～10倍采高时,仍可按规程中的方法确定顶板导水裂隙带高度。上述结果能很好地解释部分煤矿顶板异常突水灾害的发生机制,并指导神东矿区补连塔煤矿顶板突水灾害防治实践,取得显著的经济效益。

一种用于UWB通信系统的调制技术

文章将相位调制与脉位调制技术相结合,提出了一种应用UWB通信系统的新颖调制技术-QPPM。在解调过程中,它使用2个模板信号做相关检测,一个解调位置,另一个解调相位,算法实现简单;仿真实验表明,在加性高斯白噪声信道和瑞利信道中它比2-PPM有较低的误码率性能,同时获得了双倍的传输速率。

Alpha稳定分布噪声下基于柯西分布的相位键控信号码速率最大似然估计

针对现有的相位键控(PSK)编码信号码速率估计方法在Alpha稳定分布中性能严重退化的问题,该文提出一种基于柯西分布的码速率最大似然估计(CMLE)新方法,该方法可同时估计码速率与定时偏差。CMLE利用窗口法将信号划分为定时偏差窗和多个宽度一定的非重叠且已同步的时域窗,每个窗只包含一个码元符号;在Alpha稳定分布噪声下,利用窗中符号信息构造了基于柯西分布的似然函数,可同时获得定时偏差窗宽与码元符号窗宽的最大似然估计。仿真结果表明,该方法能有效抑制Alpha稳定分布噪声并具有良好的参数估计性能。

基于FFT和多重信号分类算法的高精度相干光相移键控信号频率偏移估计算法研究(英文)

针对相移键控(MPSK)相干光通信系统中的频率偏移,最常用的两种算法是基于差分相位或者FFT最大值的算法,但是当数据长度较短时,两种算法均很难实现MHz的估计误差,这将使得后续载波相位恢复估计很难恢复原始数据。为满足MPSK系统中频率偏移估计算法高精度和实时性的要求,首次将多重信号分类算法引入该问题,提出一种基于快速傅里叶变换和多重信号分类的频率估计算法,该算法在数据较短时精度很高。利用基本原理和流程图对算法加以说明,并进行了20-GBaud/s QPSK相干光系统仿真实验验证算法切实可行。