A Linear Interference Cancellation Multi-User Detector for Synchronous CDMA Communications

This paper describes a linear interference cancellation multi user detector for synchronous DS CDMA systems under the condition that all spread spectrum code waveforms have the constant cross correlating coefficients. The basic idea is to get the estimation for total multiple access interference (MAI) of all users using a reference code waveform, then subtract the total MAI from the received signal. The structure of such a detector is nearly similar to the conventional detector. The BER expression obtained in the paper shows significant performance improvement compared to the other detectors.

A TECHNIQUE FOR MEASURING THE LINEARITY OF A LINEARLY FREQUENCY-MODULATED SIGNAL

A technique for measuring the linearity of a linearly frequency-modulated continuous wave (LFM-CW) signal is presented. It uses a delay-line and a mixer to sense the slope of the output of a sweep oscillator, so that the original form of frequency function deviated from idealized linear slope is retrieved by means of spectrum analysis. Consequently,the linearity of the LFM signal is determined. The formulation is performed based on the principle that an angle-modulated signal can be approximated by an amplitude-modulated signal if the modulation coefficient is sufficiently small. To examine the validity of the procedure and to study the effect of each parameter on the accuracy of measurement, a number of computer simulations has been made. The results of simulation show that the error of the measurement is less than 2%.

Accurate estimation of line-of-sight rate under strong impact interference effect

In the process of the terminal guidance of a kinetic kill vehicle(KKV),it is very important to accurately estimate the lineof-sight(LOS)rate via the measurements of a target seeker onboard the KKV.The strong impact interference caused by the large lateral thrust produced by the thrusters on the KKV is a main factor that affects the measurements on the LOS angle.A method to estimate the impact interference and the LOS rate together via a Kalman filter is proposed to improve the estimation precision of the LOS rate.The observability of the system describing the missile-target relative motion model and the impact interference model is proved,and then a Kalman filter is designed.In the Kalman filter design,the continuous-discrete and two-stage filtering techniques are used because the system model is time-variant and high-order.Numerical simulation results show that by estimating the impact interference,the estimation precision of the LOS rate is increased,and so the miss distance of the KKV under the strong impact interference is reduced.The proposed continuous-discrete two-stage Kalman filter shows higher estimation precision and lower computational cost than the naive discrete augmented state Kalman filter.

山西地磁台阵受晋南线高压直流输电接地极干扰的特征分析与处理

2014年9月山西省地震局与中国地震局地球物理研究所在山西北部恒山断裂带区域共同建设了地磁台阵,布设了5台GM4型磁通门磁力仪,安装于代县、山阴、应县、繁峙和怀仁,以获取区域场地磁三分量观测资料,台阵的5个测点位于高压直流输电晋南线接地极附近。通过对比山西地磁台阵5个测点GM4型磁通门磁力仪与其他台站地磁秒数据,量算出高压直流输电线路(晋北—南京)对山西地磁台阵地磁数据干扰幅度,对其进行相关性和误差分析,求得拟合公式。结果表明,山西地磁台阵受晋南线高压直流输电干扰,Z分量变化幅度随台站位置至晋南线垂直距离增加而减小,H、D分量干扰幅度与Z分量干扰幅度线性相关,以Z分量变化量为因变量,使用参考拟合公式求取的H、D分量变化量,可应用于山西地磁台阵受晋南线高压直流输电干扰的日常处理工作。

多分量LFM干扰及动态环境下DBOC信号的捕获

针对双二进制偏移载波(double binary offset carrier,DBOC)信号在多分量线性调频(linear frequency modulation,LFM)干扰和动态环境下捕获算法缺乏的问题,提出布莱克曼窗预处理结合分数阶傅里叶变换(fractionalFouriertransform,FRFT)的干扰抑制算法以及离散多项式相位变换(discretepolynomial-phase transform,DPT)、部分匹配滤波器(partial matching filter,PMF)结合快速傅里叶变换(fast Fourier transform,FFT)加频谱校正的捕获算法。该算法首先对接收信号做布莱克曼窗预处理,抑制干扰谱线输出旁瓣,提高干扰汇聚的精确性;然后利用分级算法快速搜索信号的最优阶数,在保证精度量级的条件下减少了运算量;最后,在对应的最优阶数下做FRFT,结合干扰判断和轮询算法,逐个完成多分量LFM干扰的抑制。对干扰抑制后的信号首先利用定阶算法确定其动态阶数;然后通过DPT对动态信号做降阶处理,去除动态项;最后利用PMF-FFT加频谱校正完成DBOC信号的捕获。仿真结果表明,所提算法能够准确并完全地对三个LFM干扰分量进行逐个抑制,且抑制后的干扰分量不会对其他干扰分量的抑制造成影响。在检测概率达到1时,经过布莱克曼窗预处理后算法的信噪比比经过汉明窗预处理和经过凯塞窗预处理后算法的信噪比分别提升了4 dB和6.4 dB,比未经过预处理算法的信噪比提升了7.2 dB。此外,使用频谱校正可以突出捕获峰值,提高捕获精度。与未经频谱校正算法相比,经过频谱校正后算法的信噪比提升了1.6 dB,且能减少一定的捕获时间。

Mean Shift跟踪算法创新实验项目设计

视频跟踪算法是计算机视觉实践课程中比较受关注的实验项目。针对突变情况下传统Mean Shift跟踪算法无法实时准确跟踪的问题,设计了基于模板更新和线性预估的Mean Shift跟踪算法创新实验项目。在模板更新策略下,引入背景模板,通过将原目标模板和背景模板与设定的阈值进行比较来对干扰因素进行判定,当干扰因素判定目标受到遮挡时,引入线性预估方程进行目标位置预测,有效解决目标在遮挡情况下跟踪丢失的问题。通过对测试视频的跟踪效果和性能进行对比分析,验证了算法在突变情况下相较于传统算法具有更好的抗干扰能力。以算法创新设计为核心,通过开放性创新实验项目的选题、设计、答辩、反馈的闭环实验过程,有效提高了学生算法创新设计能力。

基于L-SHADE算法的AUV载体磁干扰参数辨识的数值模拟

采用自主水下航行器(Autonomous Underwater Vehicle,AUV)磁测平台可开展海洋地磁场测量、水下磁性目标探测和识别等工作,AUV磁测平台具有广阔的应用前景,但目前AUV载体磁干扰补偿技术研究尚不成熟,制约着水下航行器测磁精度。基于磁测平台抗磁干扰基本原理,提出一种基于线性种群规模缩减和成功历史的参数自适应差分进化(Success History-based Adaptive Differential Evolution with Linear Population Size Reduction,L-SHADE)算法的AUV载体磁干扰参数辨识的数值模拟方法。用磁偶极子和旋转椭球壳混合模型来等效模拟AUV载体磁干扰,通过模拟航行获得多组磁测数据,据此建立磁干扰参数辨识模型,并采用L-SHADE算法求解。通过数值模拟实验定量分析研究磁测平台测磁精度随磁传感器、平台姿态及航向等误差的传播规律。研究结果表明:当磁传感器测量精度为10 nT、姿态测量精度为0.01°、航向测量精度为0.1°时,测磁误差可小于100 nT。设计的AUV磁测平台抗干扰试验表明,地磁场总量最大相对误差为1.07%。

面向高速移动环境的二级信号检测算法

正交时间序列复用(OTSM)可以以更低的复杂度实现类似正交时频空间(OTFS)调制的传输性能,为未来需要低复杂度收发器的高速移动性通信系统提供一种有前景的解决方法。针对现有的基于时域的高斯-赛德尔(GS)迭代均衡效率不高的问题,提出二级信号检测算法。首先在时域进行低复杂度线性最小均方误差(LMMSE)检测,其次采用连续超松弛(SOR)迭代算法进一步消除残余符号干扰。为进一步提高收敛效率和检测性能,对SOR算法进行线性优化得到改进SOR(ISOR)算法。仿真实验结果表明,与SOR算法相比,ISOR算法在增加较低复杂度前提下可以提升检测性能并加快算法收敛。与GS迭代算法相比,ISOR算法采用16QAM调制且误码率为10-4时有1.61 dB的增益。

基于特征投影矩阵和线性约束的水声阵列信号抗主瓣干扰方法

提出了基于特征投影矩阵和线性约束的水声阵列信号抗主瓣干扰方法。该方法首先改进重构了干扰噪声的协方差矩阵,消除预处理时期望信号对主瓣干扰特征矢量选择的影响;其次,添加线性约束,保证期望信号方向增益,约束旁瓣干扰子空间置零,同时使得自适应权矢量的模最小,消除噪声抖动;最后求取自适应权矢量进行波束形成。仿真实验结果表明,本工作算法不仅在旁瓣有更深零陷,还能使主波束保形,提高了系统的输出信干噪比。

高频雷达中射频干扰的RD图表现机理与建模仿真

射频干扰对于高频超视距雷达是一大威胁。本文研究射频干扰的距离-多普勒图表现机理和建模方法,分析了射频干扰频域特性与距离-多普勒图表现的关系,讨论了雷达信号处理中的射频干扰信号频谱变化。根据高斯白噪声通过线性滤波器的特性,设计滤波器响应函数来产生不同频谱和距离-多普勒图形态的射频干扰。基于以上研究,本文将射频干扰分为单频、窄带和宽带3类,归纳出射频干扰的距离-多普勒图表现机理,并提出了基于卷积的射频干扰新型建模方法。实测数据和仿真表明:本文对射频干扰距离-多普勒图表现机理分析合理,建模方法能很好地模拟多数实测干扰距离-多普勒图形态。

基于三阶超螺旋扰动观测器的PMLSM全局自适应滑模控制

针对永磁直线同步电机的位置跟踪精确度易受外部扰动、参数变化等不确定性因素影响的问题,提出全局自适应滑模控制器与三阶超螺旋扰动观测器相结合的复合控制策略。首先,为了解决全局滑模控制存在的抖振问题,根据自适应趋近律设计全局自适应滑模控制器。自适应趋近律可以根据系统状态变量的变化过程实时调整开关增益的大小,从而提高系统的响应速度并减小抖振。然后,为了提高系统的跟踪精确度以及抗干扰能力,设计三阶超螺旋扰动观测器,利用扰动观测器观测系统中无法精确测量的扰动以及存在的不确定项,实现对系统的前馈补偿。最后,进行仿真与实验验证。仿真与实验结果表明,与全局滑模控制相比,所提方法能有效提高系统的响应速度和跟踪精确度,使系统具有良好的稳态性能和动态性能。

Ultrabroadband chiral metasurface for linear polarization conversion and asymmetric transmission based on enhanced interference theory

In this paper,we propose an ultrabroadband chiral metasurface(CMS)composed of S-shaped resonator structures situated between two twisted subwavelength gratings and dielectric substrate.This innovative structure enables ultrabroadband and high-efficiency linear polarization(LP)conversion,as well as asymmetric transmission(AT)effect in the microwave region.The enhanced interference effect of the Fabry-Perot-like resonance cavity greatly expands the bandwidth and efficiency of LP conversion and AT effect.Through numerical simulations,it has been revealed that the cross-polarization transmission coefficients for normal forward(-z)and backward(+z)incidence exceed 0.8 in the frequency range of 4.13 to 17.34 GHz,accompanied by a polarization conversion ratio of over 99%.Furthermore,our microwave experimental results validate the consistency among simulation,theory,and measurement.Additionally,we elucidate the distinct characteristics of ultrabroadband LP conversion and significant AT effect through analysis of polarization azimuth rotation and ellipticity angles,total transmittance,AT coefficient,and electric field distribution.The proposed CMS structure shows excellent polarization conversion properties via AT effect and has potential applications in areas such as radar,remote sensing,and satellite communication.

基于分段线性模型针对TLP瞬态干扰信号的芯片协同防护设计方法研究

集成电路芯片在高密度、小型化发展过程中产生了电磁兼容问题,为强化集成电路芯片对瞬态干扰信号的应对防护效果,可结合传输线脉冲(TLP)测试构建分段线性模型。文章首先对芯片应对瞬态干扰信号展开防护设计的现实需求进行分析,以CD4001BE芯片为例提出芯片TLP测试分段线性建模方式,总结瞬态电压抑制TVS二极管建模方法,并进一步展开芯片分段线性模型协同防护设计分析,旨为借助分段线性模型的方式控制芯片防护的设计时间与成本。

Optimization Algorithms for Sidelobes SSL Reduction: A Comparative Study

The development of new technologies in smart cities is often hailed as it becomes a necessity to solve many problems like energy consumption and transportation. Wireless networks are part of these technologies but implementation of several antennas, using different frequency bandwidths for many applications might introduce a negative effect on human health security. In wireless networks, most antennas generate sidelobes SSL. SSL causes interference and can be an additional resource for RF power that can affect human being health. This paper aims to study algorithms that can reduce SSL. The study concerns typical uniform linear antenna arrays. Different optimum side lobe level reduction algorithms are presented. Genetic algorithm GA, Chebyshev, and Particle Swarm Optimization algorithm are used in the optimization process. A comparative study between the indicated algorithms in terms of stability, precision, and running time is shown. Results show that using these algorithms in optimizing antenna parameters can reduce SSL. A comparison of these algorithms is carried out and results show the difference between them in terms of running time and SSL reduction Level.

脉内步进频信号非均匀间歇转发干扰特性研究

随着数字射频存储技术的快速发展,间歇采样转发干扰凭借其突出的欺骗和压制效果,在实际的干扰场景中有广泛的运用,对雷达的识别和探测造成了严重的威胁。区别于常规的均匀间歇干扰,采样信号非均匀的样式进一步拓展了干扰的灵活性和欺骗性,对雷达有更明显的干扰压制效果。通过研究雷达发射脉内步进频信号和非均匀间歇采样转发干扰类型的产生机理,对其脉压后的时频特性进行分析,最后通过仿真实验对脉内捷变步进频受到非均匀间歇采样干扰的效果进行验证。

转发式干扰条件下LFM雷达的检测概率估计

对多雷达干扰效果评估的难点在于分析干扰机对非目标雷达的影响。针对干扰机转发一部线性调频(linear frequency modulation,LFM)雷达的信号无意干扰另一部LFM雷达时的检测概率估计问题,首先计算了被干扰雷达对干扰信号在空域、频域和时域上的接收增益;其次将干扰信号在判决单元中的统计特性建模为非中心卡方分布,并给出了检测概率和虚警概率的计算方法。仿真结果表明,在一部干扰机的无意干扰下,估计的检测概率可作为被干扰雷达检测概率的上限;为达到同样的干扰效果,转发非目标雷达的信号实施干扰,比转发目标雷达的信号进行干扰所需的干扰功率更少。

基于迈克尔逊干涉的金属线胀系数测量装置

我们设计了一种基于迈克尔逊干涉的金属线胀系数测量装置。此装置中金属棒长度的微小变化可通过干涉条纹的吞吐直观观察,可操作性强,更重要的是大大提高了金属线胀系数测量的精确度,有利于增强学生对物理实验的学习兴趣,培养学生的创新能力。

基于改进粒子群优化算法的PID温度串级控制

针对电站锅炉主蒸汽温度控制系统中存在的易超调、滞后性、抗干扰性差、非线性等问题,提出一种改进粒子群优化算法(Improved Particle Swarm Optimization,IPSO)的PID串级控制方法,该算法先采用线性递减惯性权重的IPSO算法,避免陷入局部极值点,并能有效提升全局搜索能力,再利用改进算法优化PID控制器的参数。通过MATLAB仿真结果表明,相较于普通PID算法,该控制方法在超调量、调节时间、抗干扰能力等方面具有明显优势,系统的响应速度明显提升,鲁棒性好,对复杂温度系统具有较好的适应性。

弦长代替直径测量牛顿环曲率半径的不确定度的分析

牛顿环实验中,测量干涉环的直径是本实验的重点与难点.本文将证实一个结论:弦长代替直径,测量牛顿环曲率半径的方法会影响结果的B类不确定度.当线性拟合的相关系数非常接近1时,B类不确定度不可以被忽略.另外,从理论上分析了弦长代替直径的测量方法所具备的优势,给出了因变量B类不确定度的计算方法.