弹道导弹打击航空母舰末制导有效区的确定与评估

在地地弹道式导弹与航空母舰攻防对抗中,需要研究航母是否在导弹进攻的有效区内。针对具有末制导的弹道式导弹具有再入机动变轨特性,建立了导弹再入机动飞行模型,提出了导弹在不同的再入条件下,对其飞行弹道及机动能力进行仿真计算的方法,通过仿真确定出了导弹打击航空母舰的有效区域。在此基础上,探讨了导弹在以不同的再入姿态、不同的再入飞行高度实施末制导时,导弹落点的有效区域、边界外形及有效区的变化范围。从所得结果来看,所建模型及仿真方法正确可行,在一定程度上解决了弹道导弹打击航空母舰战斗群作战保障急需解决的一些问题。     

Damage behavior of the KKV direct hit against fluid-filled submunition payload

The damage effects of fluid-filled submunition payload impacted by the kinetic kill vehicle (KKV) are investigated by simulations and ground-based experiments. Numerical simulations showed that the damage level and number of submunitions were significantly influenced by the diameter of the KKV compared with its length. Based on that, a high velocity penetrator formed by shaped charge explosion was used to simulate the direct hit experiment of a KKV impacting submunition payload. Experimental results demonstrated that the damage modes of submunitions mainly included the slight damage, perforation and total smash, showing a good agreement with the simulations. To understand the multiple damage modes of submunitions, the damage behavior of the submunitions in direct hit process were analyzed based on the AUTODYN-3D code. Numerical results presented that increased KKV diameter can increase the crater diameter and expand the damage volume, which will achieve a higher direct hit lethality. Further analysis indicated that there were other mechanical behaviors can enhance the damage to submunitions not lying in the KKV flight path, such as secondary debris kill, neighboring submunitions collision with each other, and high-speed fluid injection effect.     

India's Pursuit Of Ballistic Missile Defense

This article analyzes India's efforts to deploy a Ballistic Missile Program (BMD). The article has three objectives. First, it argues that scientific-bureaucratic factors and India's incapacity to deter Pakistan's use of terrorist proxies have driven its quest for BMD. Second, the article also evaluates the current state of India's two-tiered missile defense shield. In spite of various claims on the part of India's defense science establishment, the paper estimates that India still lacks a deployable BMD system and is still far from developing an effective strategy of deterrence-through-denial. Third, the article analyzes the implications of the development of India's BMD system for nuclear stability in South Asia. The article shows how India's BMD capacities, however limited, have indirectly exacerbated the security concerns of India's regional rival, Pakistan.     

弹道导弹突防措施分析

简要介绍了弹道导弹面临的典型防御系统。针对该防御系统,提出了弹道导弹所能采取的典型突防手段,并将弹道导弹突防措施分为反侦察类突防和反拦截类突防两部分,介绍了反侦察类突防中的电子干扰、诱饵、隐身、助推段策略以及反拦截类突防中的加强防御策略、导弹机动发射与飞行、多弹头策略等。为研究弹道导弹突防技术提供参考。     

软计算在污水处理过程控制中的应用

阐明了软计算技术在污水处理过程中应用的必要性、可行性及对行业所带来的社会效益和理论意义,着重分析了其在污水处理过程中的应用情况,简要探讨了软计算技术今后应深入研究的问题和方向,指出将软计算算法和智能控制策略结合起来有利于提高模型预测精度,提高过程控制系统动态响应能力。     

雷达智能BIT故障预测方法研究

在总结了几种比较常见的故障预测方法的基础上，介绍了基于统计学习理论的支持向量回归算法。提出将智能遗传算法用来对支持向量回归模型的参数进行优化选取，并详细介绍了模型参数的选取过程，避免了参数的盲目设置。将建立起来的模型应用于雷达智能BIT故障预测领域，并以一组智能BIT状态监测的数据对预测模型进行训练和验证，实验结果表明支持向量回归模型能有效地对雷达故障进行预测。     

机载传感器智能管理方法的研究

机载传感器智能管理有利于提高我机平台的隐身性能和传感器的利用效率,使我机在空战中处于有利态势.阐述了机载传感器智能管理的问题、基本概念,给出了传感器管理需要研究的内容,提出基于模糊推理的机载传感器智能管理的研究方案;针对各传感器的工作特点,考虑战场态势因素,研究基于模糊推理的传感器智能管理模型;在此基础上进行传感器智能管理系统仿真和软件设计.     

INTELLIGENT DECISION ALGORITHM FOR FAULT DETECTION AND ITS APPLICATION

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面向钢铁企业的分布式智能化管理信息系统YHWG

我们开发的“分布式智能化管理信息系统ＹＨＷＧ”由钢种辅助设计专家系统、转炉炉衬监测诊断专家系统和低合金钢及转炉炉衬信息管理系统等部分组成,目前已在武汉钢铁公司得到应用,取得了良好的经济效益