单脉冲二次航管天线旁瓣抑制波束优化设计

<正>本文提出一种单脉冲体制二次航管天线阵的波束形成网络设计方法。通过设计波束形成网络中耦合器、功分器参数,调节各天线单元的权值,形成特定的和波束、差波束、后向波束。利用差波束在阵列端射方向的高增益特性,将其与和波束、后向波束合成,形成对和波束覆盖率高的旁瓣抑制波束,减少应答机的误应答。     

二维耦合天线阵图结构模型在波束转换和失效分析中的应用

提出了耦合振荡器阵列的一种图结构模型，利用该模型对耦合振荡器阵列有源天线阵的波束转换时间、振荡器失效和耦合网络失效引起的阵列失效概率进行了分析和仿真。从分析结果看，阵列耦合网络具有一定冗余性的设计可以缩短阵列波束转换时间，提高阵列的可靠性。     

相控阵雷达捷联波束稳定方法

针对相控阵雷达系统中平台扰动引起的波束指向变化问题,提出一种捷联波束稳定方法。该方法作为独立模块实现,由角速度传感器和信号处理机组成,无需精确的初始姿态。角速度传感器感知平台扰动造成的天线转动角速度,信号处理机完成补偿角的迭代求解和波束的控制。通过算法仿真和利用单轴转台模拟平台扰动验证可得,采用捷联波束稳定方法后,雷达测量角误差明显减小,隔离度指标有了极大改善。因此,该方法能够有效地减小平台扰动对波束指向的影响,易于工程实现,适用于小型化的无人机等平台。     

带波束指向的GPS抗干扰技术研究

针对GPS卫星接收系统在存在强宽带压制式干扰无法正常工作的情况,研究了基于阵列天线的自适应抗干扰技术.提供了采用约束的最小方差准则实现抗干扰算法,算法充分利用了信号和干扰空间角度的不同进行滤波,对有用信号进行保护,使得波束在指向卫星信号的同时最大程度抑制干扰信号.给出了算法的硬件实现方案,最后通过仿真试验对算法的抗干扰能力进行了分析,验证了算法的有效性.     

高级波束成形在旋转声源定位中的应用

为了使高级波束成形中的函数波束成形、压缩感知波束成形、正交波束成形在旋转声源定位中获得广泛应用,对3种高级波束成形在旋转声源定位中的应用进行了研究,从声源空间分辨率,动态范围以及声源功率积分上与传统旋转波束成形和DAMAS(deconvolution approach for the mapping of acoustic sources)反卷积作对比。仿真与实验结果表明:3种高级波束成形均可以应用到旋转声源定位中,并且均能显著提升旋转声源空间分辨率和动态范围以及拥有较高的计算效率。函数波束成形在低频段的空间分辨率低于DAMAS并且容易产生较高的声源功率积分误差。压缩感知波束成形整体性能与DAMAS相近,并且在低频段的空间分辨率比DAMAS有优势。正交波束成形在低频段容易产生声源定位位置误差,抗干扰能力较弱,并且声源功率积分整体低于DAMAS。      

毫米波波束编码技术在无人机智能集群中的应用

毫米波波束编码技术由于其速率高、抗干扰能力强的优点被认为是无人机智能集群通信网络的重要解决方案。但在无人机智能集群的通信场景中,多种原因造成的机体不稳定抖动会使通信波束产生小角度偏转,引起通信质量的下降,从而影响无人机集群的控制与决策。针对这一问题,提出一种面向无人机集群通信的自适应波束设计方法。首先,根据传感器回传的机体波束抖动情况建立等效信道模型,随后利用量化的信道模型参数建立目标函数并获得理想的波束编码向量,在此基础上利用几何贪婪算法对其进行分解。仿真结果表明,提出的集群波束编码方法能够有效提高均值通信速率,同时相较于其他的系数分解算法,有效降低了计算复杂度。     

空时自适应处理张量波束成形器的外积合成法

为了解决空时自适应处理（Space-Time Adaptive Processing，STAP）对足量平稳训练快拍的要求，给出了一种设计STAP张量波束成形器的新算法——空时自适应处理张量子波束合成（TSS-STAP）法。分析表明：STAP中所需要的张量波束成形器，可首先在张量的各个子维度上分别进行子波束成形器的设计，然后再由张量的外积运算合成各子波束成形器而得到。进一步分析表明：由于本文算法可在较低自由度（DoF）的子维度上对张量波束成形器进行设计，因此降低了设计所需要的训练快拍数和计算复杂度，同时也实现了有效的去相关处理，使得其在非均匀杂波环境下有更好的目标检测性能。在仿真实验中，所提算法有效提升了目标检测结果，同时降低了目标检测所消耗的时间。     

相控阵雷达导引头波束稳定技术研究

 相控阵雷达导引头已成为新型空空导弹制导系统的首选,相控阵雷达导引头应用在空空导弹上需要首先解决导引头波束稳定的技术难题。本文基于波束指向在惯性空间不变性原理提出一种相控阵雷达导引头波束稳定算法,对影响相控阵雷达导引头隔离度性能的主要因素进行了仿真分析。仿真结果表明:该算法可以实现相控阵雷达导引头波束惯性空间指向稳定并且满足工程应用要求;通过减小速率陀螺数据周期和波束控制周期,及引入速率陀螺传输延时补偿算法可以提高导引头的隔离度性能。     

独立可控的发射多波束形成技术

面向多星测控应用提出了一种发射多波束形成方法,采用在数字基带进行多波束加权的处理方法,并联合正交投影算法,实现了独立可控的发射多波束形成,使各波束之间具有较高的隔离度。通过计算机仿真,对发射多波束的方向图性能以及各波束之间隔离度进行了性能分析,验证了该方法的可行性及有效性。     

无人机测控通信系统中智能天线技术

针对无人机测控与信息传输系统中地面设备笨重、跟踪速度慢等问题,提出地面天线采用智能天线的方法,利用MUSIC(MUltiple SIgnal Classification,多重信号分类)算法实现对机载终端的DOA(Direction Of Ar-rival,波达方向)估计,并添加去相关操作对抗多径,利用基于LCMV(Linearly Constrained Minimum Variance,线性约束最小方差)准则的波束成形算法完成波束赋形,相较于传统的机械跟踪方式,具有设备质量小、成本低、机动性灵活性强和跟踪速度快等优势.仿真和实际测试结果表明,采用DOA估计和波束成形算法的智能天线能够在保证高增益的同时,实时准确地估计出有用信号和多径信号的来波信号方向,并正确完成波束指向,具有很高的工程应用价值.     

Digital beam forming (DBF) antenna system for mobile communications

We demonstrate the feasibility of a digital beam forming (DBF) and beam space CMA (Constant Modulus Algorithm) adaptive array antenna by implementing a digital signal processor (DSP) in ASICs using field programmable gate arrays (FPGA), this DBF can synthesize 16 multi-beams and eliminate interference signals by CMA adaptive processing. The whole function was implemented in 10 DSPs about 127,000 equivalent gates. Simple experimental results have confirmed the basic function of the DBF and BSCMA adaptive array antenna     

基于数字多波束天线的多星测控系统

针对多星测控存在的问题和技术解决途径,提出采用数字波束形成技术实现单站多星测控的方案,简要说明了系统的体系结构和工作原理,指出了系统特点和技术难点。基于数字多波束天线的多星测控系统具有良好的技术基础和应用前景。     

星载DBF接收天线误差校正算法

 提出了一种改进的基于子空间的星载数字波束形成（DBF）接收天线的误差校正方法。根据阵列互耦效应主要取决于阵元间的几何距离这一特点，利用阵元空间排布的对称性简化了天线的互耦模型，将天线的互耦效应及射频(RF)通道失配统一为通道间的幅相不一致。通过在基带注入特定的阵内相位差降低了子空间算法的计算复杂度。在建立7单元正六边形平面阵仿真模型的基础上，分析不同信噪比(SNR)环境下校正算法的性能，经比较得出可以通过提高发射信号功率改善误差估计的精度，验证了算法的有效性。仿真分析结果表明该算法在卫星通信系统中有一定的工程应用价值。     

Adaptive digital beamforming for angle estimation in jamming

A radar digital beamforming (DBF) architecture and processing algorithm is described for nulling the signal from a mainlobe electronic jammer and multiple sidelobe electronic jammers while maintaining monopulse angle estimation accuracy on the target. The architecture consists of a sidelobe jamming (SLJ) cancelling adaptive array (AA) followed by a mainlobe jamming (MLJ) canceller. A mainlobe maintenance (MLM) technique or constrained adaptation during the sidelobe cancellation process is imposed so that the results of the SLJ cancellation process do not distort the subsequent mainlobe cancellation process. The SLJ signals and the MLJ signals are thus cancelled sequentially in separate processes. This technique was developed for improving radar processing in determining the angular location of a target, and specifically for improving the monopulse technique by maintaining the accuracy of the target echo monopulse ratio in the presence of electronic jamming by adaptive suppression of the jamming signals before forming the monopulse sum and difference beams     

Digital Beamforming on Receive: Techniques and Optimization Strategies for High-Resolution Wide-Swath SAR Imaging

Synthetic Aperture Radar (SAR) is a well-proven imaging technique for remote sensing of the Earth. However, conventional SAR systems are not capable of fulfilling the increasing demands for improved spatial resolution and wider swath coverage. To overcome these inherent limitations, several innovative techniques have been suggested which employ multiple receive-apertures to gather additional information along the synthetic aperture. These digital beamforming (DBF) on receive techniques are reviewed with particular emphasis on the multi-aperture signal processing in azimuth and a multi-aperture reconstruction algorithm is presented that allows for the unambiguous recovery of the Doppler spectrum. The impact of Doppler aliasing is investigated and an analytic expression for the residual azimuth ambiguities is derived. Further, the influence of the processing on the signal-to-noise ratio (SNR) is analyzed, resulting in a pulse repetition frequency (PRF) dependent factor describing the SNR scaling of the multi-aperture beamforming network. The focus is then turned to a complete high-resolution wide-swath SAR system design example which demonstrates the intricate connection between multi-aperture azimuth processing and the system architecture. In this regard, alternative processing approaches are compared with the multi-aperture reconstruction algorithm. In a next step, optimization strategies are discussed as pattern tapering, prebeamshaping-on-receive, and modified processing algorithms. In this context, the analytic expressions for both the residual ambiguities and the SNR scaling factor are generalized to cascaded beamforming networks. The suggested techniques can moreover be extended in many ways. Examples discussed are a combination with ScanSAR burst mode operation and the transfer to multistatic sparse array configurations.     

卫星导航接收机空间自适应调零抗干扰技术研究

比较了两种自适应调零抗干扰天线系统方案的优缺点,根据实际应用场合,确定抗干扰天线方案设计为中频输出的数字调零系统.对自适应调零的信号处理进行了理论研究,建立了阵列信号的模型,根据导航卫星信号远小于干扰信号等因素,选用了基于线性约束的功率倒置算法,通过调整权值系数使得天线阵的方向图零点对准干扰信号方向,实现干扰零陷.仿真结果表明:通过零陷处理可达到干信比为77dB的抗干扰能力,验证了算法的有效性.     

空间谱估计经典算法性能比较

空间谱估计是阵列信号处理的一个重要研究方向。空间谱估计理论与技术已日趋成熟，近几十年的经典谱估计技术包括：常规波束形成（CBF）、Capon谱估计、多重信号分类（MUSIC）、旋转不变子空间算法（ESPRIT）、最大似然（ML）、子空间拟合（SF），及这些算法的扩展和变形。上述算法在各个分散的文章中均有具体深入的理论分析和研究，亦有类似的2种或3种算法的性能比较，但是针对这些所有算法的性能比较，就笔者所知尚无公开报道，而使工程实现时对算法的选择没有依据。本文对这些经典算法做了简介，列出各个算法的优缺点，并对性能进行仿真比较，能直观地得到各个算法的性能对比，给工程实现算法选择提供理论依据。     

Optimal below Threshold Delay Estimation for Radio Signals

Time delay estimation of a random signal observed at twospatially separated sites is a problem of considerable practicalinterest. Radio-frequency (RF) signals pose a difficulty that does notarise while treating sonar or other low frequency signals: the signalprocessing can be performed only on low frequency versions of theobserved signals. We propose an estimation scheme, based oncomplex envelopes, the mean square error (MSE) of which achievesthe performance predicted by Barankin, Bellini-Tartara, and Weiss-Weinsteinlower bounds. The proposed scheme was tested byextensive computer simulations, and the results are in closeagreement with theory predictions. Moreover, a real-time hardwareimplementation of the algorithm was developed and testedsuccessfully using real RF signals.     

Few-shot electromagnetic signal classification: A data union augmentation method

Deep learning has been fully verified and accepted in the field of electromagnetic signal classification. However, in many specific scenarios, such as radio resource management for aircraft communications, labeled data are difficult to obtain, which makes the best deep learning methods at present seem almost powerless, because these methods need a large amount of labeled data for training. When the training dataset is small, it is highly possible to fall into overfitting, which causes performance degradation of the deep neural network. For few-shot electromagnetic signal classification, data augmentation is one of the most intuitive countermeasures. In this work, a generative adversarial network based on the data augmentation method is proposed to achieve better classification performance for electromagnetic signals. Based on the similarity principle, a screening mechanism is established to obtain high-quality generated signals. Then, a data union augmentation algorithm is designed by introducing spatiotemporally flipped shapes of the signal. To verify the effectiveness of the proposed data augmentation algorithm, experiments are conducted on the RADIOML 2016.04C dataset and real-world ACARS dataset. The experimental results show that the proposed method significantly improves the performance of few-shot electromagnetic signal classification.