基于作战仿真的装甲车辆作战效能评估方法

在研制开发装甲车辆的过程中需要预先知道设计的装备是否满足未来战场需要,主要是它的作战效能是否能满足要求。为了获得研制中装备的作战效能,较好的办法是建立作战模型进行仿真。在仿真结果的基础上,通过选取作战效能评估的主要评价指标,建立装甲车辆作战效能的一个综合评估模型,得到了作战效能。     

基于时间反转声学理论的超声相控阵超分辨率成像方法

在超声相控阵检测领域,常规成像方法遵守瑞利准则,其成像分辨率受到波长限制。研究时间反转多信号分类(Time Reversal-MUltiple SIgnal Classification, TR-MUSIC)方法,在保持超声波工作频率不变且不影响系统探测深度的前提下,可提高成像分辨率,实现超分辨率成像。通过全矩阵采集方法获取被测对象的超声阵列数据;利用平面B扫描和TR-MUSIC方法处理数据,得到二维和三维超声图像;依据图像特征评估被测对象内部状况。实验选取加工不锈钢试块作为被测对象,搭建超声相控阵检测系统,在试块内部加工6个直径为1 mm、可视为点散射体的相邻贯通孔作为缺陷。实验表明,TR-MUSIC方法能够区分并定位这6个相邻点散射体,而平面B扫描方法则不能。因此,基于时间反转声学理论的TR-MUSIC方法可以提高成像分辨率,改善超声图像质量。     

【专题】人工智能装备质量监督效能研究

近年来,人工智能技术迅速发展和渐趋成熟,在装备领域的应用大放异彩,极大地拓展了传统装备性能,特别是自主性和智能化水平。但人工智能算法本身固有的逻辑推理性差、具有不可解释性和需要学习训练等特性给人工智能装备的质量监督带来了新挑战,现有评价手段的欠缺也使人工智能装备发展在实用可靠方面充满不确定性。本文在总结归纳人工智能装备新特性拓展和质量监督新挑战的基础上,重点围绕有效提升人工智能装备的质量监督展开研究。提出应在夯实基础能力设施建设、注重日常数据采集整理、灵活技术状态管控、研究有效评价手段、强化人才队伍建设和闭环质量信息反馈与利用等六方面加强人工智能装备质量监督的措施建议,以期为人工智能装备的发展建设提供参考。     

网络信息战——社交媒体武器化趋势及影响

互联网进入2.0时代后,以社交媒体为主要信息传播平台的新媒体已逐步变为相对独立的社会力量,成为新的战略制高点。社交媒体平台以其传播信息的速度与广度,对庞大的用户人群产生巨大的影响。各国政府和军队意识到社交媒体的飞速发展不仅让其成为新型战略传播工具,更在网络信息战领域成为强大的"心理"干预武器。本文介绍了社交网络通过舆论引导、意识形态控制、僵尸网络病毒化传播等手段在政治、军事上施加新形态影响,分析了混合战争模式下社交媒体成为恐怖分子、民兵和私人武装集团等非政府实体攫取政治控制权的理想平台。因此,我们必须重视社交媒体潜在及现实的武器化影响,把控社会舆论方向,筑牢意识形态防线,以便应对未来网络信息战的挑战。     

基于GRA法的军工企业财务竞争力评价

2015年,“军民融合发展战略”上升为国家战略。在政策引导下,我国军工集团将资产拆分上市,开始加快直面市场的步伐。由于曾经的管理体制、经营目标与市场经济不适应等原因,此类企业存在财务理念滞后、能力较弱的问题,需要提升财务竞争力。为解决这一问题,本文通过改良得到适于军工企业的财务竞争力评价指标体系;基于军工企业财务竞争力,利用灰色关联度分析法对军工集团实际控制的62家上市公司进行排序,识别出标杆企业中国船舶重工股份有限公司和北京四维图新科技股份有限公司。研究表明,军工企业财务竞争力普遍较弱,应当根据标杆企业财务竞争力提升的经验,构建战略联盟,应用共享服务的财务管理新模式,提升基础财务能力。     

Electronic warfare in the optical band: Main features,examples and selected measurement data

The paper presents the possibilities of, and methods for, acquiring, analysing and processing optical signals in order to recognise, identify and counteract threats on the contemporary battleground. The main ways electronic warfare is waged in the optical band of the electromagnetic wave spectrum have been formulated, including the acquisition of optical emitter signatures, as well as ultraviolet (UV) and thermal (IR) signatures. The physical parameters and values describing the emission of laser radiation are discussed, including their importance in terms of creating optical signatures. Moreover, it has been shown that in the transformation of optical signals into signatures, only their spectral and temporal parameters can be applied. This was confirmed in experimental part of the paper, which includes our own measurements of spectral and temporal emission characteristics for three types of binocular laser rangefinders. It has been further shown that through simple registration and quick analysis involving comparison of emission time parameters in the case of UV signatures in “solar-blind” band, various events can be identified quickly and faultlessly. The same is true for IR signatures, where the amplitudes of the recorded signal for several wavelengths are compared. This was confirmed experimentally for UV signatures by registering and then analyzing signals from several events during military exercises at a training ground, namely Rocket Propelled Grenade (RPG) launches and explosions after hitting targets, trinitrotoluene (TNT) explosions, firing armour-piercing, fin-stabilised, discarding sabots (APFSDS) or high explosive (HE) projectiles. The final section describes a proposed model database of emitters, created as a result of analysing and transforming the recorded signals into optical signatures.     

Relative performance of novel blast wave mitigation system to conventional system based on mitigation percent criteria

Recent researches focused on developing robust blast load mitigation systems due to the threats of terrorist attacks. One of the main embraced strategies is the structural systems that use mitigation techniques. They are developed from a combination of structural elements and described herein as conventional systems. Among the promising techniques is that redirect the waves propagation through hollow tubes. The blast wave propagation through tubes provides an efficient system since it combines many blast wave phenomena, such as reflection, diffraction, and interaction. In this research, a novel blast load mitigation system, employed as a protection fence, is developed using a technique similar to the technique of the bent tube in manipulating the shock-wave. The relative performance of the novel system to the conventional system is evaluated based on mitigation percent criteria. Performances of both systems are calculated through numerical simulation. The proposed novel system proved to satisfy high performance in mitigating the generated blast waves from charges weight up to 500 kg TNT at relatively small standoff distances (5 m and 8 m). It mitigates at least 94％ of the blast waves, which means that only 6％ of that blast impulse is considered as the applied load on the targeted structure.     

电子战系统效能的模糊评估方法

电子战装备的系统作战效能分析一直是个较为复杂的问题。在阐述电子战系统作战效能概念的基础上,根据电子战装备的分类,建立了电子战系统效能评估的指标评价体系框架,对电子对抗装备中较为重要的侦察、干扰设备效能评估指标进行了分析。对基于模糊数学综合评判和层次分析法理论的电子战系统作战效能评估的研究作了较为详细的分析,并进行了应用仿真。     

基于BP神经网络的雷达网抗干扰性能综合评估

在分析目前综合评估雷达网抗干扰性能时遇到困难后,探讨了利用BP人工神经网络良好的非线性函数逼近特性来解决这一问题的可行性,并分析了在用这种方法建模评估的过程中需要注意的各种问题;其中侧重对在具体构造评估模型时输入输出评估指标集的确定方法和模型的训练验证方法进行了研究,并进一步分析了建立的模型可能的用途。最后指出这种思路也可以推广到对类似的复杂信息系统的综合评估中。     

船舶摇摆运动对船载炮射击的影响

从船舶在海浪中运动模型出发,结合炮兵射击学原理,研究船舶摇摆导致火炮基座运动以及杆臂效应导致子惯导初始对准误差等因素对火炮射击的影响,主要针对船载炮射击在距离与方向的影响进行分析。并提出了采用初始装定误差补偿的方法消除船舶运动与杆臂效应对射击的影响。