考虑CCD噪声条件下的编码曝光最优码字搜索方法

编码曝光技术将病态的运动模糊图像复原问题转化为良态问题,寻找最优码字是编码曝光技术的关键。面向实用化目的,提出了一种考虑CCD传感器噪声的编码曝光相机最优码字搜索方法。基于仿射噪声模型对图像成像过程中的噪声成分进行了系统分析,首次从理论上分析了Raskar码字选取依据并基于复原图像信噪比增益提出了光子噪声对最优码字构造影响的解析表达式。在对实际编码曝光相机进行噪声标定的基础上,提出了最优码字搜索的准则并构造出适应度函数,采用遗传算法进行优化搜索得到最优码字。仿真图像和真实图像的复原结果证实了该方法的有效性,复原图像信噪比得到有效的提高。     

单兵系统数据模型

讨论了单兵系统的体系结构和信息要素,并结合单兵系统在联合作战中的应用例子,对其业务过程和信息流进行初步分析。然后通过IDEF1X方法,设计单兵系统基于关系数据库的数据模型。最后讨论了模型的规范化问题,并给出检验数据模型的方法。     

飞机机翼结构损伤仿真研究

飞机结构的战伤模式及战伤程度预测对于制定战场抢修预案及改进战斗生存力设计具有重要意义。采用计算机模拟仿真技术定量分析了飞机机翼结构遭受射弹攻击后的损伤情况。通过损伤仿真讨论了3类情形,一是机翼结构受到简单的侵彻后的冲击效应;二是高速射弹攻击带有翼盒的机翼,而产生流体动力冲压效应;三是在射弹冲击模型中增加爆炸条件,研究射弹以任意角度冲击不同的位置产生的耦合效应。基于AN SY S/LS-DYNA仿真,给出了机翼结构损伤的结果,结论为战伤飞机战场抢修的快速评估提供了科学依据,也为飞机平时修理提供了参考。     

基于灰色系统理论的目标方位估算及应用

针对潜艇作战过程中依据目标方位变化判断战场态势的军事需求,根据灰色系统理论,以实测目标方位序列为原始数据,建立GM(1,1)模型,深入挖掘其内在规律性,对目标方位序列的变化趋势进行科学分析,并估算未来时刻目标方位,用于战术态势判断、检验目标运动要素解算和战术绘算的准确性,以及干预目标运动要素解算,以期望利用有限的数据,获得最大限度的信息,为潜艇指挥员提供决策支持。     

位置修正技术在航位推算中的应用

利用图解法证明了航位推算轨迹和真实轨迹相似,符合相似性原理,并通过图解法推导位置修正公式;将位置修正技术用于里程仪的初始标定,经实测数据证明标定后的航向安装偏差角、俯仰安装偏差角及里程仪刻度系数误差大幅减小;将位置修正技术与GPS结合进行GPS/DR组合导航,经Matlab仿真证明该组合导航在长距离行车可将航向误差角限制在3.6′之内;该修正技术具有较高的实际应用价值。     

水下航行器头部流噪声数值仿真与实验

选取头部线型,对航行器头部基于RNG k-ε湍流模型及FW-H声学模型进行流噪声模拟,然后对3种头部线型的航行器在不同速度下分别进行水洞实验。通过对比分析数值仿真与实验结果发现,航行器头部流噪声随着频率的增大而逐渐减小,随着速度的增大而增大。在相同速度下,与头部线型2、头部线型3相比,头部线型1流噪声较小,具有更好的降噪作用。所采用的计算方法可以比较准确地模拟航行器头部流噪声情况。     

逆边界无网格法声源识别的理论与实验

针对逆向求解声源识别中的声辐射传输建模问题,采用无网格法将Kirchhoff- Helmholtz边界积分方程离散为受边界条件约束的有限维线性方程组,通过分块矩阵法对该约束方程组进行求解,得到了离散后声辐射传输模型的数值表达式.在此基础上,进一步研究了逆向求解声源识别问题的基本原理及其不适定性.为克服其不适定性,采用Tikhonov正则化和L曲线正则化参数选取方法,从而确立了有效的逆向求解方法.此外,还进行了扬声器阵列声源识别实验,实验结果验证了逆边界无网格声源识别理论和方法的可行性及可靠性.     

部分服务台同步多重休假的GI/M/c稳态队长

在经典GI/M/c排队中引入部分服务台同步多重休假策略,利用拟单生过程和矩阵几何解的方法,求解系统的稳态队长分布及其条件随机分解。     

Effect of organo-modified montmorillonite nanoclay on mechanical,thermal and ablation behavior of carbon fiber/phenolic resin composites

The mechanical, thermal and ablation properties of carbon phenolic (C-Ph) composites (Type-I) rein-forced with different weight percentages of organo-modified montmorillonite (o-MMT) nanoclay have been studied experimentally. Ball milling was used to disperse different weight (wt) percentages (0, 1,2,4,6 wt.％) of nanoclay into phenolic resin. Viscosity changes to resin due to nanoclay was studied. On the other hand, nanoclay added phenolic matrix composites (Type-II) were prepared to study the dispersion of nanoclay in phenolic matrix by small angle X-ray scattering and thermal stability changes to the matrix by thermogravimetric analyser (TGA). This data was used to understand the mechanical, thermal and ablation properties of Type-I composites. Inter laminar shear strength (ILSS), flexural strength and flexural modulus of Type I composites increased by about 29％, 12％and 7％respectively at 2 wt.％ addition of nanoclay beyond which these properties decreased. This was attributed to reduced fiber volume fraction (％Vf) of Type-I composites due to nanoclay addition at such high loadings. Mass ablation rate of Type-I composites was evaluated using oxy acetylene torch test at low heat flux (125 W/cm2) and high heat flux levels (500 W/cm2). Mass ablation rates have increased at both flux levels marginally up to 2 wt.％ addition of nanoclay beyond which it has increased significantly. This is in contrast to increased thermal stability observed for Type-I and Type-Ⅱ composites up to 2 wt.％addition of nanoclay. Increased ablation rates due to nanoclay addition was attributed to higher insulation effi-ciency of nanolcay, which accumulates more heat energy in limited area behind the ablation front and self-propagating ablation mechanisms triggered by thermal decomposition of organic part of nanoclay.     

An interface shear damage model of chromium coating/steel substrate under thermal erosion load

The Cr-plated coating inside a gun barrel can effectively improve the barrel's erosion resistance and thus increase the service life.However,due to the cyclic thermal load caused by high-temperature gun-powder,micro-element damage tends to occur within the Cr coating/steel substrate interface,leading to a gradual deterioration in macro-mechanical properties for the material in the related region.In order to mimic this cyclic thermal load and,thereby,study the thermal erosion behavior of the Cr coating on the barrel's inner wall,a laser emitter is utilized in the current study.With the help of in-situ tensile test and finite element simulation results,a shear stress distribution law of the Cr coating/steel substrate and a change law of the interface ultimate shear strength are identified.Studies have shown that the Cr coating/steel substrate interface's ultimate shear strength has a significant weakening effect due to increasing temperature.In this study,the interfacial ultimate shear strength decreases from 2.57 GPa(no erosion)to 1.02 GPa(laser power is 160 W).The data from this experiment is employed to establish a Cr coating/steel substrate interface shear damage model.And this model is used to predict the flaking process of Cr coating by finite element method.The simulation results show that the increase of coating crack spacing and coating thickness will increase the service life of gun barrel.