光纤弯曲损耗的研究

利用光线理论研究光纤弯曲损耗与弯曲半径、纤芯折射中以及包层折射率的关系。     

用状态空间法设计低灵敏度 SCFs 的研究

本文从双端接阻无源梯形结构出发,通过两次必要的换标,导出了一种新的完善的 SCFs 的状态空间综合方法。所得到的 SCFs 的状态空间矩阵集的一般形式具有低灵敏度,并且在特定频率下具有零灵敏度。     

郭兴福教学法的回顾与思考

郭兴福教学法是在20世纪60年代初人民解放军军事训练由战争年代"以战教战"向和平时期"以训备战"战略转变及贯彻"以我为主"军事训练方针的时代背景下诞生的。它经历了萌芽培育、成形提高、推广普及三个阶段。郭兴福教学法科学地反映了军事训练的客观规律,既有鲜明的时代特色,又有长久的价值和强大的生命力。在新形势下,继承和发展郭兴福教学法,重在把握其精髓实质,着力解决运用过程中遇到的新情况、新问题。     

餐饮废油甘油酯法合成烷醇酰胺

以餐饮废油为原料,采用甘油酯法制备表面活性剂脂肪酸二乙醇酰胺。通过均匀实验确定最优合成反应条件:反应温度200℃,餐饮废油与二乙醇胺质量比1.3∶1,反应时间330 min。在此条件,油脂转化率为98.3%,产物的胺值和pH均达到国家标准要求。产物具有良好的表面活性,并可作为中间产物用于进一步加工。     

SNR准则下的认知MIMO雷达波形设计

研究了MIMO雷达信号模型下基于最大化信噪比(SNR)准则的最优和稳健波形设计问题.根据对目标冲击响应功率谱密度(PSD)确定和不确定两种条件的分析,推导了最优波形和稳健波形的闭式表达式.仿真结果表明,当目标冲激响应PSD的先验知识准确时,使用最优波形作为发射波形,在接收端获得在给定条件下最优的SNR;当目标冲击响应PSD的先验知识不准确时,使用稳健波形作为发射波形,能够降低目标冲激响应PSD的不确定性对输出端信噪比(SNR)的负面影响.     

一种新的基于重复共轭对称构前导的OFDM同步算法

针对基于重复共轭对称结构前导的OFDM系统,提出了一种延迟相关与对称相关相结合的符号同步新算法,在搜索出定时度量峰值位置的基础上,使用固定门限搜索出第一条路径。理论分析表明该方法可以实现性能良好的符号同步。在静态多径信道和6径典型市区信道条件下对新提出的算法进行了仿真,仿真结果表明所提算法可有效抑制传统的基于对称定时度量同步算法中存在的定时位置偏移,获得准确的定时性能。     

OFDM系统中基于补零DFT信道插值算法的研究

针对OFDM系统中基于补零DFT实现信道插值的算法,对传统的时域方法和变换域方法进行了分析,并提出了一种新的补零方法。首先通过理论分析指出传统的基于补零DFT实现信道插值算法中,时域方法和变换域方法是等效的;通过对信道插值算法中冲激响应估计序列进行补零的分析,指出补零操作是为了重构出冲激响应的N点采样序列(N表示总子载波数),并针对传统补零方法在一定条件下产生的重构误差,提出了一种新的补零方法。仿真结果表明以上理论分析是正确的,新补零方法可以减小一定条件下的重构误差,增强信道插值算法对信道延迟分布的鲁棒性,有效提高系统的性能。     

模拟转子不平衡响应数值分析及实验研究

对模拟转子进行了不平衡响应的有限元计算,并进行了相应的实验研究.在转速为960r/min和1568r/min时,不平衡响应的计算结果与实验结果的误差近似为1.7%和2.1%,计算结果与实验结果相符.     

Research and development on hypervelocity impact protection using Whipple shield: An overview

Whipple shield, a dual-wall system, as well as its improved structures, is widely applied to defend the hypervelocity impact of space debris (projectile). This paper reviews the studies about the mechanism and process of protection against hypervelocity impacts using Whipple shield. Ground-based experiment and numerical simulation for hypervelocity impact and protection are introduced briefly. Three steps of the Whipple shield protection are discussed in order, including the interaction between the projectile and bumper, the movement and diffusion of the debris cloud, and the interaction between the debris cloud and rear plate. Potential improvements of the protection performance focusing on these three steps are presented. Representative works in the last decade are mentioned specifically. Some prospects and suggestions for future studies are put forward.     

An efficient SPH methodology for modelling mechanical characteristics of particulate composites

Particulate composites are one of the widely used materials in producing numerous state-of-the-art components in biomedical, automobile, aerospace including defence technology. Variety of modelling techniques have been adopted in the past to model mechanical behaviour of particulate composites. Due to their favourable properties, particle-based methods provide a convenient platform to model failure or fracture of these composites. Smooth particle hydrodynamics (SPH) is one of such methods which demonstrate excellent potential for modelling failure or fracture of particulate composites in a Lagrangian setting. One of the major challenges in using SPH method for modelling composite materials depends on accurate and efficient way to treat interface and boundary conditions. In this paper, a master-slave method based multi-freedom constraints is proposed to impose essential boundary conditions and interfacial displacement constraints in modelling mechanical behaviour of composite materials using SPH method. The proposed methodology enforces the above constraints more accurately and requires only smaller condition number for system stiffness matrix than the procedures based on typical penalty function approach. A minimum cut-off value-based error criteria is employed to improve the compu-tational efficiency of the proposed methodology. In addition, the proposed method is further enhanced by adopting a modified numerical interpolation scheme along the boundary to increase the accuracy and computational efficiency. The numerical examples demonstrate that the proposed master-slave approach yields better accuracy in enforcing displacement constraints and requires approximately the same computational time as that of penalty method.