地磁场中海水绕回转体流动诱导电场的数值计算

给出了描写地磁场中海水绕回转体流动诱导的电场的基本方程、边界条件及其计算方法.在势流假定、忽略自由表面和海底影响的条件下,对绕兰金体(Rankine body)流场诱导的电场进行了数值计算.     

基因遗传算法在三维数据场造型中的应用

将基因遗传算法应用于三维数据场的造型研究之中,提出了遗传三角剖分算法.针对三维三角剖分的特殊性,提出了虚拟交叉算子和三角变异算子,能够确保在遗传进化过程中,解群中的每一个串始终代表一个合法的三角剖分.     

同步发电机气隙磁场非正弦时整流系统性能的研究

提出了一种发电机气隙磁场非正弦分布时整流系统的近似电路模型和仿真方法;分析了气隙磁场非正弦分布对系统交直流电压和电流波形的影响．仿真结果表明,合理控制气隙磁场谐波含量有利于提高轻负载下整流电压的品质．由此提出：带整流负载的多相同步发电机采用气隙磁场非正弦分布的转子结构和集中整距的定子绕组（即所谓方波电机）是合理的     

亥姆霍兹线圈磁场均匀性的研究

推导了亥姆霍兹线圈所产生的磁感应强度的计算公式,利用该公式进行了编程计算,研究了亥姆霍兹线圈在空间所产生的磁场分布规律．以１％均匀度为例给出了磁场均匀区与环半径（距离）之间的关系．     

计算机辅助三向伴流场的测试技术研究

运用计算机技术对三向伴流场的测试进行研究,对多点三向伴流场测量系统原理、方法及计算机辅助采样、计算和分析进行了阐述．     

高速磁悬浮列车电磁场的模拟计算

采用有限元法研究了高速磁悬浮列车的悬浮和推进电磁场,重点研究了车辆在不同运行条件下悬浮力和推力的变化规律,并得出了经验公式。分析和计算结果表明,悬浮力和推力的大小与功角有关,并且由于定子齿槽和材料不连续的影响,悬浮力和推力都存在六倍频的波动。     

Designing a degradation experiment

Degradation experiments are widely used to assess the reliability of highly reliable products which are not likely to fail under the traditional life tests. In order to conduct a degradation experiment efficiently, several factors, such as the inspection frequency, the sample size, and the termination time, need to be considered carefully. These factors not only affect the experimental cost, but also affect the precision of the estimate of a product's lifetime. In this paper, we deal with the optimal design of a degradation experiment. Under the constraint that the total experimental cost does not exceed a predetermined budget, the optimal decision variables are solved by minimizing the variance of the estimated 100pth percentile of the lifetime distribution of the product. An example is provided to illustrate the proposed method. Finally, a simulation study is conducted to investigate the robustness of this proposed method. © 1999 John Wiley & Sons, Inc. Naval Research Logistics 46: 689–706, 1999     

固体热容激光器温度场应力场分析

采用有限元分析方法,对Nd:YAG作为激活介质的固体热容激光器的温度场及应力场进行了研究.结果表明固体热容激光器的温度场、应力场与常规的固体激光器有很大的差异,常规的固体激光器激活介质必须在泵浦的同时进行冷却,晶体表面温度比中心温度低,晶体表面受到的是张应力.固体热容激光器发射激光时,激活介质处于绝热状态.激活介质表面的温度要比中心高,激活介质表面出现的是压应力.这种差异是固体热容激光器可以高功率运转的物理机制.     

Modeling and simulation of muzzle flow field of railgun with metal vapor and arc

During the electromagnetic railgun launching process, there will be a complex flow field with high temperature in the muzzle area because of the high-speed friction, transition and secondary arc-ignition. This paper models the muzzle area of railgun when the projectile is far away from the muzzle, and the dynamic simulation of the flow field with secondary arc in the muzzle area is carried out based on the magneto hydrodynamic equations. Meanwhile, a multi-component plasma transport model is used to analyze the muzzle arc plasma flow process of the mixed gas of Al vapor and the air. Furthermore, the pressure boundary conditions are fitted by the dynamic mesh simulation results. The current and voltage of the muzzle are obtained through the emission experiment of the railgun experimental prototype. We load the current data into the simulation model and the voltage of experiments and simulations are compared, which proves the accuracy of the simulation. Then the plasma temperature and the composition of Al vapor in the muzzle flow process are analyzed in-depth.     

深度神经网络指导下的无线覆盖预测算法

为保证新一代移动无线网络能够根据实时覆盖情况动态地调节小区天线参数,需要实现高效且准确的无线覆盖预测。传统的求解方法通过精确的场强预测判断天线参数的优劣,虽然精度很高但需要大量的计算资源,无法满足5G和后5G移动网络通过实时覆盖预测进行射频参数动态调整的实际需求。现采用基于深度神经网络的算法对给定天线参数的覆盖效果进行预测,以取代对目标区域的精确场强预测。数值结果表明:该方法能够在保持计算准确性的同时显著减少计算量,为5G动态网络规划提供基础性参考数据。