现有军用光电装备快速智能化手段

近年来,人工智能技术在图像处理领域取得了突破性进展,使得目标识别和目标检测算法的性能得到大幅提高,也为军用光电装备智能化创造了有利条件。本文从算法、数据和计算能力等人工智能三要素入手,分析了快速实现军用光电装备智能化的有效途径及过程中可能面临的问题,指出:现有的技术理论基本满足装备升级需求,智能化过程中还应重点加强实时性算法的研究,提早对专用数据集的收集整理进行布局完善,采用低功耗高性能边缘计算设备为装备计算能力水平提升提供支撑等。同时,在工程化过程中仍存在部分实际问题,需根据装备进行个性化设计,以解决理论与应用之间的差距。最后,建议重点加强国产化水平与能力的提高,以实现关键技术自主可控。     

无人机位置欺骗诱导策略

针对"黑飞"无人机的有效管控及处置问题,提出基于卫星导航定位位置欺骗的无人机诱导策略。结合目标无人机的精确位置信息,利用生成式导航欺骗干扰技术向目标发射虚假的卫星导航定位信号,使目标无人机飞行控制系统得到错误的位置信息,改变飞行姿态,进而偏离预设运动轨迹。通过无人机诱导试验验证了所提策略的正确性和有效性。     

动圈式永磁直线直流电机的精英保留多种群遗传优化算法

为了实现陆基无人机电磁弹射器高机动性及其直线弹射电机的高功率密度,针对动圈式永磁直线直流电机,提出精英保留的多种群遗传算法(Multi-Population Genetic Algorithm with Elite Retention, MPGAER)的电机最大功率密度优化方法。以磁通密度和电流密度为约束条件,利用其搜索能力强、收敛速度快的特点优化电机的结构参数,并与磁路法初始设计结果和传统遗传算法优化结果进行比较。结果表明:与磁路法初始设计相比,MPGAER能使电机质量减少6.25%,功率密度提高10%,电机动态性能得到提高;MPGAER优化设计的电机功率密度高于遗传算法设计结果,所提方法有效地解决了在优化过程中出现易收敛于局部最优点和寻优效果差的问题。     

Survey and technological analysis of laser and its defense applications

The laser technology has made remarkable progress over the past couple of decades.It is being widely employed in diverse domains,such as holography,space sciences,spectroscopy,medical sciences,micro and power electronics,industrial engineering,and most distinctively,as directed energy military weapons.Owing to their active transmissions,laser systems are similar to microwave radars to some extent;however,unlike conventional radars,the laser operates at very high frequencies thus making it a potent enabler of narrow-beam and high energy aerial deployments,both in offensive and defensive roles.In modern avionics systems,laser target indicators and beam riders are the most common devices that are used to direct the Laser Guided Weapons(LGW)accurately to the ground targets.Additionally,compact size and outstanding angular resolution of laser-based systems motivate their use for drones and unmanned aerial applications.Moreover,the narrow-beam divergence of laser emissions offers a low probability of intercept,making it a suitable contender for secure transmissions and safety-critical operations.Furthermore,the developments in space sciences and laser technology have given syner-gistic potential outcomes to use laser systems in space operations.This paper comprehensively reviews laser applications and projects for strategic defense actions on the ground or in space.Additionally,a detailed analysis has been done on recent advancements of the laser technology for target indicators and range-finders.It also reviews the advancements in the field of laser communications for surveillance,its earlier state of the art,and ongoing scientific research and ad-vancements in the domain of high energy directed laser weapons that have revolutionized the evolving military battlefield.Besides offering a comprehensive taxonomy,the paper also critically analyzes some of the recent contributions in the associated domains.     

预报风强度对火箭最大气动载荷精度影响及建模分析

针对不同预报风强度的精度以及其对应的最大气动载荷预报值精度的研究文献极少。以某地区实况风为基准,分别对不同预报风强度的精度以及其对应的最大气动载荷预报值精度特征进行了分析,并利用多元线性回归方法建立了订正模型,结果表明在预报日数第1～11天,预报风强度越大,预报风精度及其对应的最大气动载荷预报值精度越高;利用多元线性回归方法可提高最大气动载荷预报值精度,且预报风强度越小,最大气动载荷预报精度提高越明显。这些发现在火箭发射前的飞行保障及安全决策方面具有参考价值。     

自主水下航行器的自适应反演变结构控制器设计

由于水下航行器是高度耦合、复杂的多输入多输出不确定性非线性系统。对水下航行器进行精确作业时的运动控制一直是其实用化过程中困扰人们的问题。将自适应反演控制技术和变结构控制策略相结合,提出了一种基于反演技术的自适应变结构控制器设计方法,实现AUV水平侧移和航向控制,并利用自主水下航行器模型进行了仿真研究。仿真结果表明,该控制方法对模型不确定性和不确定环境干扰表现出良好的鲁棒性和自适应性。     

“5G+区块链”军事应用探索与分析

区块链技术来源于数字货币,是一种具有去中心化、自信任、公开透明、数据不可篡改、隐私保护等特点的分布式数据账本。在国防与军队建设领域,区块链技术由于其技术理念的先进性而具有相当广阔的应用前景,它将导致思维理念、作战方式与管理方式的全方位创新,但是区块链技术在应用过程中,也存在一定缺陷。由于具备高传输速率、低网络时延、超强连接能力以及更灵活的业务部署能力,5G技术成为弥补区块链技术不足的首选。本文首先分别介绍了5G技术和区块链技术的主要军事应用前景和存在的困难;其次,分析了5G与区块链之间的互补影响及两种技术融合发展的可能性;最后,从军事供应链、智慧军营和无人作战平台等方面深入探讨了5G与区块链典型军事应用中可能面临的挑战。     

唐朝兵役制度和后勤制度变迁下的军事审计

唐朝是中国历史上最为强大的王朝之一,其军事实力可谓中国历史的巅峰。唐朝国祚在安史之乱后还延续了150余年,唐朝的兵役制度和后勤制度对其内外军事斗争及政权的发展和延续起到了重要作用。在军事审计的保驾护航之下,唐朝的兵役及后勤制度为其初期开疆拓土与后期定土戡乱均提供了有力支持。本文以唐朝历史的衍进为线索,以唐朝兵役制度和军事后勤制度的变迁为背景,剖析唐朝军事审计制度的特点与规律,详述军事审计主体、对象、方法、法规在这一时期的发展与变化,进而探究军事审计与兵役、后勤制度的关联,总结提炼出军事审计在国家兵役、后勤制度和国家安全方面发挥的重要作用,为现阶段军事审计更好服务于军事制度提供发展思路。     

An improved adaptive differential evolution algorithm for single unmanned aerial vehicle multitasking

Single unmanned aerial vehicle (UAV) multitasking plays an important role in multiple UAVs cooperative control, which is as well as the most complicated and hardest part. This paper establishes a three-dimensional topographical map, and an improved adaptive differential evolution (IADE) algorithm is proposed for single UAV multitasking. As an optimized problem, the efficiency of using standard differential evolution to obtain the global optimal solution is very low to avoid this problem. Therefore, the algorithm adopts the mutation factor and crossover factor into dynamic adaptive functions, which makes the crossover factor and variation factor can be adjusted with the number of population iteration and individual fitness value, letting the algorithm exploration and development more reasonable. The experimental results implicate that the IADE algorithm has better performance, higher convergence and efficiency to solve the multitasking problem compared with other algorithms.     

论刑法一般原则在军事刑法中的实现

军事刑法是普通刑法的特别法,因而,刑法的一般原则对军事刑法具有当然的指导意义,但是这些原则在军事刑法中会有特殊的体现。军事刑法保护的是国防利益、国家军事利益。但是,为了保护国防利益、国家军事利益而不当的牺牲个人权利是罪刑法定原则不允许的。法律面前人人平等原则要求,对任何人犯罪,在适用法律上一律平等。但是,由于军人具有特殊的身分,刑法对军人和非军人加以区别对待。罪刑相适应原则要求,刑罚的轻重,应当与犯罪分子所犯罪行和承担的刑事责任相适应。战时缓刑是刑罚个别化原则在军事刑法中的体现。