An anti-main-lobe jamming algorithm for airborne early warning radar based on APC-SVRGD joint optimization

Main lobe jamming seriously affects the detection performance of airborne early warning radar.The joint processing of polarization-space has become an effective way to suppress the main lobe jamming.To avoid the main beam distortion and wave crest migration caused by the main lobe jamming in adaptive beamforming,a joint optimization algorithm based on adaptive polarization canceller(APC)and stochastic variance reduction gradient descent(SVRGD)is proposed.First,the polarization plane array structure and receiving signal model based on primary and auxiliary array cancellation are established,and an APC iterative algorithm model is constructed to calculate the optimal weight vector of the auxiliary channel.Second,based on the stochastic gradient descent principle,the variance reduction method is introduced to modify the gradient through internal and external iteration to reduce the variance of the stochastic gradient estimation,the airspace optimal weight vector is calculated and the equivalent weight vector is introduced to measure the beamforming effect.Third,by setting up a planar polarization array simulation scene,the performance of the algorithm against the interference of the main lobe and the side lobe is analyzed,and the effectiveness of the algorithm is verified under the condition of short snapshot number and certain signal to interference plus noise ratio.

EWR早期截获能力指标及其计算方法

针对弹道导弹远程预警雷达(EwR)的早期截获能力计算难题,从反导预警效能生成的视角论证选取了截获高度与探测资源占用率两个早期截获能力评估核心指标,提出了文中两个指标在有/无引导条件的计算模型和方法,并进行了实例演算。计算结果表明:文中提出的指标及计算方法能有效地表征EWR在既定作战场景中的早期截获能力,可为EWR与反导预警系统的战前任务筹划和战中实施调整提供快速计算支持。

基于最优早期预警能力的EWR优化配置问题

为了促进弹道导弹远程预警雷达(EWR)早期预警能力的发挥,对EWR在既定威胁场景中的优化配置问题进行了研究。首先,分析了EWR优化配置的要求和目标;其次,讨论了EWR待选配置区范围的计算方法及其网格化处理算法;最后,提出了基于早期预警能力灰色层次分析法(AHP)评估的EWR优化配置模型,并以典型实例进行了仿真验证。结果表明:该文提出的模型和算法能够提供清晰和精度可控的优化配置结果,可为EWR的优化配置和作战筹划活动提供有力支撑。

IDTTC算法在AEWR情报分析中的应用

针对机载预警雷达(AEWR)情报分析领域的航迹关联问题,在研究传统航迹关联算法的基础上,改进了多传感器双门限航迹关联算法,并用实测数据进行了验证.结果表明,将改进的双门限航迹关联(IDTTC)算法应用于机载雷达情报分析,实现了航迹的自动关联,提升了航迹关联处理的效率.

Stealth performance evaluation of helicopter against airborne early warning radar considering trimming control

Airborne pulse Doppler radar is a key threat to the military helicopter,and assessing the stealth performance of helicopter against airborne early warning radar is helpful to the helicopter’s stealth design and operational planning.In this paper,the Shooting and Bouncing Ray(SBR)and Uniform Theory of Diffraction(UTD)based high-frequency algorithms are used to calculate the Radar Cross Section(RCS)of helicopter,and the radar range equations are used to evaluate the stealth performance.In order to account for the effects of rotor flapping motions during actual flight,the aerodynamics model of whole helicopter is established and the attitudes and controls of helicopter at different flight states are trimmed and input into the RCS calculation module.The effects of helicopter flight speed,flying direction and operational environment on radar stealth performance are studied in focus.It is demonstrated by the results that the trimming control does have a great influence of more than 5 dB on the RCS of helicopter,and the introduction of the trim calculation brings the helicopter’s returns calculation closer to the reality.Variations in flight speed lead to the changes in the stealth performance of helicopter against Early Warning Aircraft(EWA),and the helicopter flight speed can be planned according to the operational requirements to minimize exposure distance or exposure time.Variations in flying direction mainly affect the detection properties of helicopter returns,and flying in the same direction with EWA usually gives the helicopter better low-observability than flying head-on.Variations in operational environment mainly affect the radar detection performance and the sensitivity of the detection performance to external factors;the same amount of change in some external factor causes a different amount of change in the helicopter’s detectability in different environments.

Algorithm of Vertical Profiles of Radar Echoes between Any Two Points Based on Webpage and Its Application

Based on the puzzle data of radar reflectivity in and around Jiangxi Province,the slope profile method and the polar coordinate method were used to display the vertical profiles of radar echoes between any two points.The technical route of extracting radar echo profile data by the slope method was proposed and applied to the short-term early warning platform of Jiangxi Province.A thunderstorm weather process occurring from Dongxiang to Wannian on September 23,2018 was analyzed by radar echo profiles.At present,the program has been applied to the short-term early warning platform of Jiangxi Province based on B/S architecture.The automatic drawing and display of radar echo profiles of any two points is practical for forecasters to quickly and effectively track short-term strong convection weather.

Analysis on Radar Characteristics of a Short-time Heavy Rainfall Event in Wuchuan County

Using minute rainfall data of automatic ground station and a variety of products from new generation Doppler weather radar in Wuchuan, the characteristics of a short-time heavy precipitation process on April 23, 2022 were analyzed. The results showed that the appearance of differential reflectivity(ZDR) column and big-value zone of high-elevation ZDR had better indication on short-term heavy rainfall process in Shichao station. Ice phase process played a very important role in particle growth. The storm tracking information product can predict the path of the storm 15 min in advance. The storm stayed and moved less or even turned back to more than two to three scanning volumes in one place, indicating the occurrence of short-term heavy rainfall. One-hour accumulated precipitation(OHP) had a good effect on the estimation of continuous precipitation in a large area where the hourly rainfall exceeded 50 mm for more than two stations. It had the ability to estimate short-term heavy precipitation in areas lacking automatic stations.

复杂多方向威胁下的导弹预警雷达优化部署方法

针对现有导弹预警雷达部署相对独立、协同困难,难以满足大规模对抗场景的现状,从远程预警雷达、跟踪识别雷达、机动式预警雷达不同的任务特点出发,建立应对复杂多方向威胁的多型导弹预警雷达优化部署模型,在满足最优覆盖、协同交接、目标识别等任务约束下,解决雷达协同部署问题。针对所提模型设计了一种基于云自适应的分区优化离散粒子群(CPBPSO)算法,通过设计分区编码策略缩减算法求解空间、加入云自适应变异算子提高算法全局寻优和局部跳出能力,使算法更适用于导弹预警雷达部署问题的处理。实例验证了所提模型在求解单方向、多方向威胁场景部署问题的可行性,对比分析了CPBPSO算法的有效性,基本满足导弹预警雷达最优化协同部署的需求。

对“水利测雨雷达”的新质生产力研究

高精准降雨监测预报对于支撑水旱灾害防御等水利业务预报、预警、预演、预案“四预”工作至关重要。水利测雨雷达系统主要观测近地面2 km高度范围内大气中的液态水,能够实现无缝隙、精细化监测并生成高精度实况定量降雨产品,具有较为精准的外推1~3 h降雨临近预报能力,是水利新质生产力的典型代表。系统梳理了我国降雨监测发展历程,包括无器具测量、雨量器萌芽、标准化人工雨量器、自动记录式雨量器和现代自动测雨五个阶段。在此基础上,从雨量站业务应用、天气雷达业务应用、气象卫星业务应用角度,分析当前“四预”业务中降雨监测现状与问题,进而梳理了水利测雨雷达发展进程并分析其技术优势,包括:能够实时生成超精细化的网格降雨实况数据,能够实现精细化网格化降雨预报,以及系统运行稳定高效。结合水利测雨雷达在河北省大清河流域以及湖南省捞刀河、浏阳河流域的良好应用成效,指出其作为水利新质生产力在赋能“四预”方面具有应用前景。

面向空地协同探测的空基雷达优化部署技术

优化部署是雷达组网的主要环节,围绕重点区域多传感器协同探测的需求,本文在固定探测装备体系的基础上,建立了机动雷达装备优化部署模型。在此基础上,结合机动雷达参数特点,以预警机为使用场景,改进传统遗传算法,提出了预警机探测航线规划技术。最后,通过构建特定场景进行试验,对规划技术的性能进行仿真优化。试验结果表明,本文提出的算法可以有效提升雷达组网的探测效能。

某钨矿露地联采关键地压灾害监测预警研究

某钨矿形成了露地联采的开采局面,面临着井下群采空区与隔离间柱稳定性、露采边坡稳定性、露地相互影响等关键地压灾害问题。设计建设了最先进的66通道微震监测系统、测量机器人与边坡雷达等地压监测预警系统。文章详细介绍了一次典型的岩体失稳垮塌的成功预警案例。上述综合性的地压监测手段将为矿山安全生产提供重要的技术支撑。

首要教学原理下反导预警雷达探测技术课程教学改革

针对反导预警雷达探测技术课程教学中存在的基础衔接不流畅、高阶挑战有差距、理实一体落实差问题,以“为战育人”为核心导向,引入首要教学原理,提出了课程的“聚焦问题-激活旧知-示证新知-应用新知-融会贯通”五步教学方法.教学实践表明,该教学方法用于反导预警雷达探测技术课程教学改善效果明显.

一种面向空情雷达模拟训练的对抗操作性能级建模与仿真

针对面向模拟训练的空情雷达系统模型中反侦察、抗干扰对抗操作模型不完备的问题,以模拟训练领域对抗操作模型建模需求为牵引,从探测增益与探测损失两个角度出发,定义了各对抗操作的输出因子,建立了输入性能指标与输出因子间的映射关系,构建出一套典型对抗操作的性能级模型。在数字化软件工具中的测试应用表明,该套模型能够有效模拟对抗操作的使用效果,嵌入雷达系统功能级模型后能够提升雷达系统模型完备性,在模拟训练领域具有一定应用潜力。

铁路施工防护系统中多重冗余预警技术的研究

铁路施工作业过程中列车定位的手段单一,缺少信息的互联互通多方联控,人身安全防护的保障效果差。针对以上问题,铁路施工防护系统基于北斗高精度定位,利用4G通信、二次雷达通信等技术,进行列车位置跟踪、列车接近预警。对于列车接近预警的方式,系统采用基于二次雷达推算预警和基于北斗定位推算预警的多重冗余预警技术,该技术可保证由于隧道等原因造成只有一种预警机制起作用时,仍可检测出列车接近施工区从而产生预警信息,保证系统功能的可靠性。

基于雷达回波与LSTM的输电线路强对流灾害风险预警方法

强对流天气下输电线路易发生雷击、风偏、雨闪等故障,威胁电网安全运行。为了克服现有短临预报尚不能完全满足输电线路风险预警对精细化气象预报的需求问题,文中利用气象雷达拼图、风速和降雨量同化数据以及电网雷电定位数据,构建了基于深度学习的强对流风雨雷短临预报模型,用于开展输电线路风险预警。首先,将气象雷达拼图及其时序外推数据作为输入,将同化后的风速、降雨和落雷密度、雷电流强度作为输出,构建基于长短期记忆(long short-term memory,LSTM)网络的强对流气象要素预报模型。然后,结合模型输出的风雨雷预报结果,评估输电走廊网格内风偏、雷击和断线倒塔故障风险大小,综合计算输电线路的故障概率,进行风险预警。最后,展示了所提模型对2023年9月某省的强对流天气过程进行成功预警的案例,表明了所提方法能够提高强对流天气下输电线路风险预警能力。

基于STK的反导预警雷达作战场景仿真分析方法

针对有先验信息的类弹道导弹发射活动,提出了一种基于卫星工具软件(STK)的反导预警雷达作战场景仿真分析方法,利用STK软件可视化设计的优势,对反导预警雷达拦截搜索屏进行设计,并对搜索屏的拦截效果进行评估.这对进行雷达总体设计的相关人员,具有一定的实用价值.

基于三维数值模拟和切线角理论的露天煤矿滑坡灾害预防技术

露天煤矿软岩边坡变形复杂,滑坡危险性大,为了有效预防边坡滑坡灾害,提出了一种三维数值模拟和切线角理论相结合的滑坡灾害预防技术。该技术研究过程为基于大尺度三维数值模拟在空间上找到潜在变形体,利用蠕变曲线切线角理论计算,建立了不同类型边坡雷达预警阈值划分标准,并对潜在重点变形区域进行时间尺度的全天候监测。将该技术应用于霍林河煤田二号露天采区边坡的滑坡灾害预防中,取得很好的效果。通过数值模拟技术发现,采区南帮开挖区域附近边坡存在潜在变形体,有滑坡风险;再结合切线角理论计算得到的边坡雷达监测阈值提前发出预警信息,得到的边坡雷达监测变形区域与三维数值模拟得到的潜在变形区域基本一致,成功预警了边坡变形的发生,保障了露天煤矿的安全生产。

采用子阵多输入多输出的天基预警雷达强杂波抑制方法

针对天基预警雷达因其高速平台运动带来严重的距离模糊和多普勒模糊,导致杂波背景强进而降低雷达目标检测性能的问题,提出一种基于子阵级多输入多输出天基预警雷达强杂波抑制方法。构建基于子阵级多输入多输出天基雷达模型并分析远距离机动目标相参性,确定目标出现线性距离徙动和不出现多普勒频率扩散时的最大相参积累时间,以保证长时间相参积累可行性;针对多输入多输出雷达长驻留的特点采用长时间积累提高多普勒分辨率,降低一个距离-多普勒单元的杂波功率,在保证搜索效率的情况下降低该单元杂噪比,并采用3/5准则检测盲区图评估天基雷达检测性能;在强杂波背景下改善了信杂噪比,提高了目标检测概率。实验仿真表明,所提方法相比相控阵雷达可有效降低杂波背景,在单脉冲重复频率下即可达到很好的检测效果,比相控阵雷达检测性能提高约20.48%。

预警雷达多维度用频冲突等级评估方法

针对战场武器装备用频冲突和精准评估需求,结合电磁空间时、空、能等多维特性,细化构建预警雷达多维度综合用频冲突评估方法,实现能量域、空域和时域的预警雷达用频兼容性多维评估.仿真结果表明,与传统能量方法相比,本文方法能够贴合实际分级量化预警雷达用频冲突,得到更为精准的预警雷达用频冲突等级结果,有效支撑电磁频谱管控多维度调控手段综合运用的决策需要.

IBIS-ArcSAR雷达系统在露天矿边坡稳定性监测中的应用与研究

为研究IBIS-ArcSAR露天边坡监测系统的边坡监测预警效果,通过在厄立特里亚科卡金矿边坡监测的实际应用,结合实际滑坡案例对监测效果进行分析。结果表明:IBIS-ArcSAR雷达具备对露天边坡实时监测的能力,在临滑预报方面可靠有效;通过提前对滑坡区域的位置、位移、速度、时间等滑坡信息做出及时预警,能最大限度地降低滑坡灾害对矿区的不良影响。