共查询到19条相似文献,搜索用时 264 毫秒
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在建立水声对抗试验航路优化评估标准的基础上,利用Monte_Carlo方法,研究了悬浮式和自航式声诱饵对抗声自导鱼雷的优化试验航路问题,并对建立的模型进行了计算机仿真。仿真结果表明,该方法对于研究水声对抗试验航路优化是一种行之有效的方法。 相似文献
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鱼雷装载可靠性试验设计 总被引:1,自引:0,他引:1
为客观掌握鱼雷装载可靠性水平,探索鱼雷可以装载的最长时间,本文在分析鱼雷装载试验特点和试验数据结构的基础上,进行了装载可靠性试验设计,给出了确定装载试验量的方法和装载试验的动态调整策略。该试验设计原理简单,使用灵活,既充分利用了鱼雷装载试验的样本数,又兼顾了考核不同装载时间的鱼雷装载可靠性。 相似文献
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简要介绍了远程鱼雷航路规划的基本含义及特性,根据威胁及障碍分布情况构造可能航行的航路集Voronoi图,采用遗传算法进行远程鱼雷航路优化选择。并对算法进行了相应的仿真,仿真结果表明,编码方式提高了优化效率,得到的航路有效地规避了威胁。 相似文献
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论文通过引入全数字仿真技术概念,介绍了某型国产鱼雷全数字仿真虚拟试验设备的构建原理、系统组成和在某型鱼雷研制过程突破性的运用,设计了某型鱼雷虚拟样机、建立了鱼雷虚拟作战环境、成功在仿真环境下开展了鱼雷作战过程的虚拟试验,填补了我国鱼雷全数字仿真技术空白,也对部队训练运用开发此类设备进行了应用分析和展望。 相似文献
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An optimized methodology to design a more robust torpedo shell is proposed. The method has taken into account reliability requirements and controllable and uncontrollable factors such as geometry, load, material properties, manufacturing processes, installation, etc. as well as human and environmental factors. The result is a more realistic shell design. Our reliability optimization design model was developed based on sensitivity analysis. Details of the design model are given in this paper. An example of a torpedo shell design based on this model is given and demonstrates that the method produces designs that are more effective and reliable than traditional torpedo shell designs. This method can be used for other torpedo system designs. 相似文献
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基于EXTEND的鱼雷技术准备过程建模与仿真 总被引:1,自引:0,他引:1
技术准备过程是制约鱼雷装备战斗能力生成的主要因素。文章在分析鱼雷技术准备保障过程的基础上,提出了利用应用离散事件动态系统理论,以EXTEND软件为仿真平台建立了鱼雷技术准备保障过程仿真模型,利用该模型可以得到各保障环节平均排队长度等仿真统计结果,进而分析找到关键环节进行改进。最后,以某型鱼雷装备为实例,表明该方法对科学分配保障资源、提高技术保障能力具有重要现实意义。 相似文献
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自由结构动力优化设计中的特征灵敏度分析 总被引:3,自引:0,他引:3
在结构动力优化设计中,特征灵敏度分析是一个十分重要的环节。如何在保证精度的前提下减少分析工作量具有重要意义。本文运用幂级数展开法,给出了诸如潜艇,鱼雷等自由结构特征灵敏度分析方法。 相似文献
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针对鱼雷电动力系统保障性评价问题,根据其保障性内涵,运用由Delphi法、层次分析法、灰色关联法、模糊评判法集合而成的DHGF算法,建立了某型鱼雷武器电动力系统的保障性评价模型,给出了研制阶段鱼雷电动力系统保障性定性与定量相结合的评估方法,克服了以往定性评价方法的模糊性和不确定性,能更准确地为鱼雷武器的保障性设计提供依据。并以某型鱼雷电动力系统为例,对其保障性进行了评价。计算结果说明该方法可有效的用于鱼雷电动力系统的保障性评价。 相似文献
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Torpedo anchors are an innovative and cost-effective technology in marine foundation engineering; however, there is a lack of systematic and comprehensive studies on the influence of torpedo anchor geometry on its hydrodynamic characteristics, especially the effect of anchor fin configuration on the hydrodynamic characteristics is rarely reported in the existing literature. Therefore, this study investigates the influence of geometric characteristics of both finless and finned torpedo anchors on their terminal velocity, drag coefficient and installation directional stability in water through CFD numerical analysis in a systematical manner. The considered geometric characteristics include the center of gravity position, shape and angle of anchor tip, shaft and fin aspect ratio, fin number, fin thickness, fin shape, fin position and fin area. Based on the obtained numerical results, some practical design recommendations and impact weighting charts of different anchor geometric factors are provided, which enables a quick qualitative and quantitative assessment of torpedo anchors. In addition, a simple weight-based approach for estimation of terminal velocity and drag coefficient of torpedo anchors considering multiple geometric configuration factors is proposed, which may provide some reference and scientific guidance for experimental and engineering design of torpedo anchors. 相似文献
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