基于PCB技术的延时线设计方法

为了设计大功率低损耗的延时线,提出了用多股窄印制线并行绕制替代单股印制线绕制、在某些特定位置将并绕的多股印制线交叉换位的多层PCB螺旋电感的设计方法,并用该电感和电容模拟电缆的分布参数电感和电容制作延时线。通过多股并绕交叉换位的方式可以增加电感的有效截面积,减小电感的涡流损耗,有效提高电感的品质因数。测试结果表明:该螺旋电感的品质因数在短波频段内有较大提高。利用该螺旋电感制作的200ns延时线在通1A电流50 W功率时,延时性能好、驻波比小、衰减量小,满足大功率低损耗的要求。     

基于GRA-PSO算法的端铣工艺参数多目标优化

考虑生产实际的需求,综合最小变形误差、最大金属切除率和最大刀具耐用度建立端铣工艺参数多目标优化模型。通过对粒子群全局寻优能力和灰色理论的适应性综合分析,研究提出耦合粒子群算法（Particle Swarm Op-timization,PSO）和灰色关联（Gray Relevancy Analysis,GRA）的多目标工艺参数优化算法。该方法将多目标函数的优化问题转化为优化单项灰关联度,得到了多项工艺指标要求下的参数优化组合。将该方法应用在多目标工艺参数优化设计中取得了满意的结果,表明其具有很大的适应性。     

基于小波包能量谱的管道缺陷磁记忆检测信号特征研究

现有磁记忆检测技术判定准则,只能指示应力集中位置,无法进一步获取应力集中信息。为获取应力集中信息,提出一种基于小波包能量谱的磁记忆信号分析方法,进行试件拉伸试验。拉伸应力为200 MPa时,信号小波包能量谱分布较为均匀,各频带能量占总能量之比均小于15%,不存在集中分布的频带范围。拉伸应力为410 MPa时,信号小波包能量谱最大值分布在1,3,4频带,1~4频带能量之和占总能量的73.8%,小波包能量主要集中在低频段。试件屈服后,信号小波包能量谱最大值分布在1,2频带,能量谱分布极为分散,能量主要集中在低频段的1,2频带,1~3频带能量之和占总能量的87.3%。管道试件应力集中程度与磁记忆信号的小波包能量谱分布特征有关,应力集中程度越低,小波包能量谱分布越均匀;应力集中程度越高,小波包能量谱分布越集中,能量主要向低频段集中。     

高校智能无人系统运用人才队伍建设研究

智能无人系统是能够通过先进的技术进行操作或管理而不需要人工干预的人工系统,具有自主性、智能性以及人机耦合性等特征。随着科技快速更迭、国家战略支持、国家安全保障等要素驱动,高校智能无人系统运用人才队伍建设的研究势在必行。本文认为,当前,高校智能无人系统运用人才队伍呈现出愈发注重交叉学科研究、理论联系实践、开展专业认同教育以及课程思政建设等特点,这需要高校在引进和培育、交叉和融合以及专业化和高素质上下功夫,稳步推进高水平创新团队建设和一流专业学科群建设,同时稳步加大复合型人才培养力度,以为高校智能无人系统研发提供人才和智力保证。     

【专题】“无人系统自主性与智能化”专题编者按

地空协同无人系统作为新质跨域智能作战力量已成为世界强国开展军事技术竞争的前沿方向。本文首先总结了地空协同无人系统的概念、功能及发展目标,分析了世界主要国家制定的专项规划,从形成智能作战体系、改变战场攻防平衡及全面提高作战效能三个方面阐述了地空协同无人系统对未来战争的重大意义;其次,针对其面临的环境复杂、资源受限和平台异构等约束条件,从分布式态势认知、适应性智能导航及异构系统协同控制等方面总结了地空协同无人系统需要突破的关键技术;最后,为应对智能化战争挑战,从技术瓶颈、平台建设及政策支持等方面提出发展建议。该研究可为地空协同无人系统在国防科技领域的研究、应用和发展提供参考。     

Numerical studies on four-engine rocket exhaust plume impinging on flame deflectors with afterburning

This paper studies the four-engine liquid rocket flow field during the launching phase. Using three-dimensional compressible Navier-Stokes equations and two-equation realizable k-epsilon turbulence model, an impact model is established and flow fields of plume impinging on the two different shapes of flame deflectors, including wedge-shaped flame deflector and cone-shaped flame deflector, are calcu-lated. The finite-rate chemical kinetics is used to track chemical reactions. The simulation results show that afterburning mainly occurs in the mixed layer. And the region of peak pressure occurs directly under the rocket nozzle, which is the result of the direct impact of exhaust plume. Compared with the wedge-shaped flame deflector, the cone-shaped flame deflector has great performance on guiding exhaust gas. The wedge-shaped and cone-shaped flame deflectors guide the supersonic exhaust plume away from the impingement point with two directions and circumferential direction, respectively. The maximum pressure and temperature on the wedge-shaped flame deflector surface are 37.2% and 9.9% higher than those for the cone-shaped flame deflector. The results provide engineering guidance and theoretical significance for design in flame deflector of the launch platforms.     

The deformation and failure mechanism of cylindrical shell and square plate with pre-formed holes under blast loading

The deformation and failure mechanism of cylindrical shells and square plate with pre-formed holes under blast loading were investigated numerically by employing the Ansys 17.0 and Ls-Dyna 971. To calibrate the numerical model, the experiments of square plates with pre-formed circle holes were modeled and the numerical results have a good agreement with the experiment data. The calibrated numerical model was used to study the deformation and failure mechanism of cylindrical shells with pre-formed circle holes subjected to blast loading. The structure response and stress field changing process has been divided into four specific stages and the deformation mechanism has been discussed systematically. The local and global deformation curves, degree of damage, change of stress status and failure modes of cylindrical shell and square plate with pre-formed circular holes are obtained, compared and analyzed, it can be concluded as: (1) The transition of tensile stress fields is due to the geometrical characteristic of pre-formed holes and cylindrical shell with arch configuration; (2) The existence of pre-formed holes not only lead to the increasing of stress concentration around the holes, but also release the stress concentration during whole response process; (3) There are three and two kinds of failure modes for square plate and cylindrical shell with pre-formed holes, respectively. and the standoff distance has a key influence on the forming location of the crack initiating point and the locus of crack propagation; (4) The square plate with pre-formed holes has a better performance than cylindrical shell on blast-resistant capability at a smaller standoff distance, while the influence of pre-formed holes on the reduction of blast-resistant capability of square plate is bigger than that of cylindrical shell.     

A novel launch dynamics measurement system for multiple launch rocket system and comparative analysis with numerical simulations

In this paper,a novel launch dynamics measurement system based on the photoelectric sensor pair is built.The actual muzzle time(i.e.a time duration that originates from the initial movement to the rocket's departure from the muzzle)and the muzzle velocity are measured.Compared with the classical methods,the actual muzzle time is obtained by eliminating the ignition delay.The comparative analysis method is proposed with numerical simulations established by the transfer matrix method for multibody systems.The experiment results indicate that the proposed measurement system can effectively measure the actual muzzle time and reduce the error of classical methods,which match well with the simulation results showing the launch dynamics model is reliable and helpful for further analysis and design of the MLRS.     

针对KMC局部最优问题的飞蛾捕焰优化方法

针对传统飞蛾捕焰(MFO)算法求解复杂函数时后期收敛速度慢与求解精度较低等问题,提出了一种基于快速收敛的飞蛾捕焰(RMFO)算法.采用最大最小距离积的方法来初始化飞蛾群,能够提高算法全局收敛速度并且优化解的质量,同时构造出MFO算法的适应度函数作为寻优函数.将RMFO算法和有K均值聚类算法(KMC)进行交叉迭代,构建基于RMFO优化的KMC算法,求解聚类中心时能够改善聚类性能,可以解决现有KMC算法选取初始聚类中心不确定陷入结果局部最优的问题.实验结果表明,通过用UCI国际通用测试数据库的Iris、Wine和Glass 3种数据集,对RMFO算法和优化KMC算法进行性能测试,提出的RMFO算法更加精准,收敛速度快,不易陷入局部最优解,同时,优化KMC算法的聚类性能更好.     

基于案例决策的地面无人装备编组评估方法

为解决地面无人装备编组评估问题,基于案例决策理论的思想,设计了地面无人装备编组方案评估的具体流程与方法,提出了"任务-编组-效能"的案例表示方法,分别定义了作战任务、编组方案及作战效能的规范化描述形式;在案例分析中,设计采用与数据属性相匹配的相似度计算方法,提取出相似案例,完成对备选方案的评估,为后续军事专家对编组方案的调整提供有效支撑.