Automatic Control System of Ion Electrostatic Accelerator and Anti-Interference Measures

An automatic control system for the electrostatic accelerator has been developed by adopting the PLC （Programmable Logic Controller） control technique, infrared and optical-fibre transmission technique and network communication with the purpose to improve the intelligence level of the accelerator and to enhance the ability of monitoring, collecting and recording parameters. In view of the control system＇ structure, some anti-interference measures have been adopted after analyzing the interference sources. The measures in hardware include controlling the position of the corona needle, using surge arresters, shielding, ground connection and stabilizing the voltage. The measures in terms of software involve inter-blocking protection, soft-spacing, time delay, and diagnostic and protective programs. The electromagnetic compatible ability of the control system has thus been effectively improved.

Anti-interference ultra-wideband system based on spreading and interleaving

To suppress the interference in the ultra-wideband （AI-UWB） system is a challenging problem. An anti-interference multiband orthogonal frequency-division multiplexing ultra-wideband （AI-UWB） system, based on spreading and interleaving is addressed. It will exploit the frequency diversity across the subcarriers and provide the robustness to narrow-band interference, by spreading the coded bit streams within each sub-band and interleaving across all sub-bands. Simulating results show that the spreading and interleaving provide about 5 dB to 10 dB advantages over the conventional multiband orthogonal frequency-division multiplexing ultra-wideband system in signal-to-interference ratio. Spreading and interleaving is an effective cure for enhancing the robustness to narrowband interference.

STUDY ON FREQUENCY CODING ANTI-INTERFERENCE SYSTEM FOR DATA TRANSMISSION IN SHALLOW WATER ACOUSTIC CHANNELS

Achieving reliable underwater communication in shallow water acoustic channels is a difficult task because of the random time varying nature of multipath propagation, severe amplitude fluctuation, and spatial variability of the channel conditions. This paper describes a new signal processing technique frequency coding and decoding by means of real time measurement of signal width, jamming and suppressing multipath interference and using redundant coder. The application of the technique to the model ZTY 1 status monitor for underwater system of seabed is introduced in this paper. The main principle, the technique specifications and the key techniques of the system are discussed here. Theoretical estimations and experimental results proved that the performance of the system is excellent. The method can be used for some other related low data rate data transmission detecting in shallow water acoustic channel.

A New Method for Anti-Noise FM Interference

Noise Frequency Modulated (NFM) interference causes a disaster to almost all types of Radar systems. The echo signal and the interference are overlapped and because of strong energy of the NFM interference noth-ing could be detected except the interference in the Radar receiver system. Up to now no good method against NFM has been declared, conventional methods are based on the passive Radar to track the interfer-ence source which are not applicable under most conditions. Here a novel anti-noise FM method is proposed to suppress the NFM interference, the method multiply the mixed signal two times by different reference signals. The principle and some key factors of the new method are analyzed in detail and some rules for pa-rameters designing are given. What’s more, results show that the method can eradicate NFM effectively.

Inhibition of Hepatitis C Virus Genotype 1a Non-Structural Proteins by Small Interference RNA in Human Hepatoma Cell Lines

Hepatitis C virus (HCV) infection and associated liver diseases are still challenging and represent a significant health care burden around the world. Although, the treatment strategies have been improved by the development of novel direct-acting antivirals, but such therapeutic options are still expensive and beyond the financial range of the most infected individuals in developing or even in resource replete countries. It demands an urgent need to search novel and improved alternate treatment strategies to treat the infection. The present study was aimed to develop an in vitro stable cell culture system, persistently expressing HCV genotype 1a non-structural genes and to characterize the inhibitory effects of synthetic siRNAs (short interference RNA) directed against the most conserved regions of nonstructural genes in an in vitro cell culture model. The continuous expression of nonstructural genes for more than 30 days post transfection was detected by reverse transcription polymerase chain reaction (RT-PCR) and Western blot analysis in stable human hepatoma cell line (Huh-7). The gene expression studies revealed significantly reduced gene expression of HCV nonstructural genes (i.e., NS2, NS4A and NS5A) both at mRNA and protein levels when treated against genome specific synthetic siRNAs in stable cell lines (51%, 47% and 54% respectively, p < 0.05). Similarly, a vivid decrease in HCV viral titer was exhibited by synthetic siRNAs in an in vitro viral replicate cell culture model (58%, 48% and 50%, respectively, p < 0.05) determined by quantitative Real-Time PCR (qPCR). Our data indicate that siRNA mediated gene silencing may be considered a promising alternate treatment strategy against HCV in combination with other effective therapeutic regimens in future.

基于均匀圆阵的压制式相干干扰DOA估计算法

针对导航抗干扰中一般干扰信号波达方向(direction-of-arrival, DOA)算法无法在均匀圆阵上有效地估计含有相干干扰的信号来向问题,提出了一种基于虚拟线阵的协方差矩阵重构的MUSIC算法。该算法通过对均匀圆阵进行模式空间变换,形成虚拟线阵,将模式空间变换后的数据协方差矩阵的所有行进行Toeplitz重构,并将所有Toeplitz矩阵构造成一个新的等效的满秩数据协方差矩阵,以此来达到解相干的目的。结合在虚拟线阵上的MUSIC算法,并通过多谱峰搜索算法直接得到空间谱的谱峰位置,从而完成对干扰来向的DOA估计。经仿真验证,该算法在存在相干信号且信号角度相隔30°左右的条件下,依旧能够对信号的波达方向进行有效估计。

基于模糊神经网络的电网消防预警算法

针对传统基于阈值判别方法的电网火灾预警系统预测精度低、抗干扰能力弱的问题,提出了一种基于模糊神经网络的电网消防预警算法。该算法利用神经网络学习大规模电网数据,使用模糊逻辑推理算法来提升预测结果的推理能力,并通过结合神经网络对大规模数据的学习能力和模糊逻辑算法的推理能力来分析电网线路参数,从而提升电网消防预警系统的精度和抗干扰能力。实验与仿真结果表明,所提出方法能显著提升电网火灾的预警精度,且使用模糊逻辑推理可以得到更符合实际情况的电网火灾预警结果。

基于空域自适应单脉冲的抗干扰雷达多目标参数估计算法

基于空时级联单脉冲的多目标参数高效估计算法(M-STCMP)是一种高效的雷达多目标参数估计算法,但在干扰环境下其参数估计性能将严重下降。文中提出了基于空域自适应单脉冲的抗干扰多目标参数估计(AM-STCMP)算法。首先,将空域自适应单脉冲技术引入M-STCMP算法,自适应形成和差波束抑制干扰信号,提高各目标的信干噪比,并迭代修正自适应和差波束的鉴角曲线;其次,采用空时级联单脉冲技术估计各目标的距离-速度两维参数;最后,采用Relax算法高精度迭代估计各目标的角度-速度-距离三维参数。理论分析和仿真结果验证了AM-STCMP算法的有效性,其参数估计性能接近无干扰情形。

一种基于变参考电平的零点凹口双重可控方向图综合改进方法

为了解决基于变参考电平的自适应波束形成方法无法同时控制方向图零点和凹口的问题,研究了基于最大信噪比准则的任意阵列方向图综合方法,重点对主瓣宽度固定条件下能够实现最低等副瓣电平的方向图综合方法进行了理论分析,并对前人提出的可变参考电平参量进行了重新定义,新定义的变参考电平能够在波束主瓣宽度固定的前提下,同时产生等副瓣电平、可控凹口宽度和深度和可控零点深度的抗干扰波束,并通过计算机仿真验证了算法的有效性.该方法对于提升相控阵雷达对抗杂波和干扰性能具有较高的应用价值.

基于强化学习的多雷达抗干扰算法研究

针对多雷达系统在受到环境的扫频干扰下无法工作的问题,研究了基于深度强化学习的多雷达共存抗干扰算法。文中将环境划分为多个子频段,对干扰占用频段过程进行建模,用马尔可夫模型对多雷达系统进行建模;对双深度Q网络(Double DQN)强化学习算法进行改进,与门控单元循环神经网络相结合,使之能处理依赖于长时间序列的干扰问题;提出了基于门控循环记忆的深度确定性策略强化学习算法,针对Double DQN强化学习中的网络臃肿和行动集合较大的问题进行了改进,采用直接输出行动策略,有效降低了网络复杂度。实验仿真结果表明,在多雷达存在的情况,该算法通过避开存在干扰的频点,不仅能够有效降低来自外界的干扰,还能减少己方雷达相互之间的干扰。

一种100 MHz~4 GHz宽带抗干扰射频接收机的设计

为满足导航、通信、相控阵雷达以及电子对抗等领域对高性能接收终端的需求,提高系统的抗干扰、通用化和小型化性能,设计了一款工作频率在100 MHz~4 GHz的宽带抗干扰接收机芯片。接收机结构采用直接下变频形式,包括单转差巴伦、无源混频器和移相器等,能够有效抑制频带内的干扰信号,在强干扰信号下整个接收机通道不阻塞,能检测出极小的有用信号,同时保证与没有干扰状态相比性能不恶化。针对零中频(zero-Intermediate Frequency,zero-IF)接收机容易产生本振泄露、自混频等现象,设计了直流失调校准、本振相位调整等功能,可实现直流偏置点5 mV的补偿。射频输入100 MHz~4 GHz变化时,混频器转换增益≥31.2 dB。

基于RANSAC的圆拟合算法在螺纹孔检测中的应用

在视觉检测过程中,针对多残缺、多噪声圆周的拟合精度不佳的问题,提出了一种基于RANSAC的圆拟合算法。首先对图像进行边缘检测,使用基于Scharr算子的Canny算法可获得高质量的边缘分布图;使用霍夫梯度法在边缘分布图中对目标圆弧进行粗定位,并提取包含目标圆弧的点集;提取到的点集中含有大量无关边缘像素点,使用RANSAC算法剔除点集中的异常数据,得到有效样本数据构成的待拟合圆周点集;最后采用LIN算法对待拟合圆周点集进行拟合,得出最终的拟合结果。算法在椒盐噪声和曲线噪声抗干扰实验中表现优异,有着较强的抗干扰能力。已经成功应用到了螺纹孔圆周的拟合,精度和实时性均可满足实际生产要求。

数控压机伺服控制系统复合控制器I-ABC与PID优化

为了提高数控压机伺服控制系统的控制精度,针对伺服控制系统运行控制过程构建数学模型,在人工蜂群算法基础上融入了云分析模型,之后采用改进人工蜂群算法(Improved Artificial Bee Colony,I-ABC)调节比例-积分-微分(Proportional Integral Differential,PID)参数,建立了一种复合控制方法。研究结果表明:以I-ABC进行PID控制时,可以使幅度差降低到0.4%,相位差基本在-0.54°之内,系统加载精度也获得了明显提升,表现出了更优的跟踪性能。以I-ABC进行PID控制时,能够对多余力起到明显抑制作用,响应速度也获得明显提升,可以有效满足系统的准确控制要求。在系统内加入干扰信号,引入I-ABC实施PID调节可以减小系统超调量,还可以获得更短调节时间,使系统获得更强抗干扰性能。

广域网环境中舰船通信网络信息安全传输方法

为满足舰船在广域网环境的安全通信需求,提出广域网环境中舰船通信网络信息安全传输方法。基于云计算技术构建具备信息调度的舰船通信网络信息安全传输模型,并针对舰船通信广域网环境存在的来自不同方向的通信干扰源、信号衰减和噪声干扰,结合噪声消除算法进行舰船通信网络信息传输抗干扰设计,降低外界干扰影响;针对舰船通信广域网环境中实时信息在传输过程中面临的攻击、窃听、截取等多种安全威胁,采用双混沌互反馈加密方法完成舰船通信网络传输信息加密,保障信息在广域网环境下安全传输。实验结果表明,该方法可显著提升舰船通信速率,在不同干扰类型下均表现出良好的抗干扰性能;加密后信息可成功掩盖原始数据分布特征,保障传输信息安全性。

考虑过盈配合的抗侧滚扭杆寿命预测

抗侧滚扭杆用于提供限制车辆侧滚角度的侧滚力矩,可以提升列车运行的平稳性和安全性。文章以某型动车组用抗侧滚扭杆为研究对象,在考虑抗侧滚扭杆的扭杆轴与扭转臂过盈配合的前提下,基于FKM准则对抗侧滚扭杆进行静强度和疲劳寿命评估。结果表明,该抗侧滚扭杆在极限载荷和疲劳载荷工况下的利用度均小于1,同时满足静强度要求和疲劳寿命要求。

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5G电子通信的无人机导航网络信号抗干扰技术

为提升无人机在自主飞行过程中传输导航网络信号时的抗干扰能力,研究基于5G电子通信技术的无人机导航网络信号抗干扰技术。构建无人机通信结构,结合5G电子通信技术与电力线通信技术创建无人机导航网络信号模型;通过频谱感知方法中的能量检测算法建立无人机干扰信号检测模型,利用自适应滤波算法抑制干扰信号以及噪声干扰,实现无人机导航网络信号干扰抑制。实验结果表明,该方法具备不同干扰模式下的信号抗干扰能力。

一种改进型双L遮断式激光光幕靶

针对现有光幕靶重量大、抗干扰能力弱、测量面积无法调整等问题,设计了1种改进型双L遮断式激光光幕靶,可同时测量垂直入射弹丸的速度与坐标。光幕靶电路板采用模块化方法设计,可根据用户需求灵活地拼接为0.5 m×0.5 m倍数的幕面。光幕靶电路板集成了定制的抗光干扰芯片,可动态调整电路的放大倍数,避免光电二极管进入饱和状态,使光幕靶具有较强的抗光干扰能力。为检验光幕靶的实际性能,开展了强光干扰、坐标、手枪、步枪4类型实验,实验结果表明,光幕靶速度测量精度为5%、坐标测量精度为5 mm。