基于对象Petri Net的复杂适应系统建模

在介绍复杂适应系统理论的基础上,重点分析了作战系统同复杂适应系统的关系,指出了作战系统就是一类特殊的复杂适应系统;然后,以网络中心战和复杂适应系统理论为指导,分析了网络中心战体系对抗建模存在的问题,并以对象Petri Net建模仿真技术为支撑,提出了基于对象Petri Net的复杂适应系统多Agent建模方法.     

从孙子“将帅五德”看军校素质教育

《孙子兵法》作为我国古代兵学著作中的圭皋,其博大精深的思想内容不仅深刻揭示了战争的一般规律,而且对如何培养优秀的军事人才也有着卓越的见解,对于今天我们培养造就新型军事人才有着宝贵的借鉴作用。     

导弹目标识别的最小贝叶斯风险分类器

在贝叶斯决策理论的基础上,通过划分目标特性空间的方法,推导了目标分类问题的总风险表达式.并根据导弹目标识别的特点,建立了导弹目标识别的最小贝叶斯风险模型,给出了基于风险分析的导弹目标识别的具体实现方法.最后,依据导弹目标的实际情况给出了仿真参数并进行了仿真试验,试验结果证明了本方法的有效性.     

基于改进ADC模型的反导作战效能量化分析

通过分析地空导弹武器系统的反导作战过程,得出指挥信息系统是影响武器系统反导作战效能的关键.在传统效能评估ADC模型的基础上,给出了一种新的基于指挥信息系统效能的评估模型PADC.同时依据各个分系统不同的构成机理及作战运用,综合模糊综合评判法、幂指数法、加权求和法及主成分分析法等方法对系统的反导作战效能进行了量化,对于信息化条件下的反导作战决策具有重要的应用意义.     

装备需求论证工程化基本理论研究

分析了信息化武器装备体系发展对需求论证工作提出的新要求,提出了装备需求论证工程化的概念,阐述了装备需求论证工程化的＂四化＂（规范化、模型化、工具化和资源化）特征,研究了实现装备需求论证工程化的关键工作,旨在为装备需求论证工程化提供理论指导。     

基于灰色关联分析的装甲装备人因故障影响因素研究

根据装甲装备在试验和使用中人因故障发生的原因,将人因故障影响因素分为设计因素、维修因素、使用因素、人体机能因素、人机界面因素和环境因素6类,采用灰色关联分析法对其进行辨识分析,发现造成装甲装备人因故障率从高到低的因素依次为：维修因素、使用因素、人机界面因素、设计因素、环境因素和人体机能因素,该研究结果可为装甲装备综合管理和设计提供理论依据。     

复合铝基润滑脂制备与性能

复合铝基润滑脂是性能优良的多效润滑脂,尤其是泵送性能良好,适用于集中润滑系统,已在冶金等行业获得广泛应用。考察了组成、工艺和添加剂对复合铝基润滑脂性能的影响,复合铝皂对环烷基油的稠化能力优于对石蜡基油的稠化能力,增大基础油黏度有利于改善润滑脂的性能,采用异丙醇铝三聚物比采用异丙醇铝制备复合铝基润滑脂的工艺可靠,产品性能更稳定。通过配方和工艺条件优化,制备的复合铝基润滑脂具有高滴点,良好的胶体安定性、机械安定性、氧化安定性、抗水性、防腐性和抗磨性。     

卫星通信新技术专题讲座(一) 第2讲 国外典型GEO卫星移动通信系统发展概况及展望

GEO卫星星体相对固定、覆盖面积大、多普勒频移小、技术相对成熟简单,是重要的卫星发展领域之一。文章重点介绍目前国际上比较先进的GEO卫星移动通信系统:Inmarsat、Thuraya、Terrastar和Skyterra,包括这些系统的特点和发展趋势,最后对我国GEO卫星移动通信系统的发展和趋势进行简单的描述。     

Rigid elliptical cross-section ogive-nose projectiles penetration into concrete targets

The elliptical cross-section ogive-nose projectile (ECOP) has recently attracted attention because it is well suited to the flattened shape of earth-penetrating weapons. However, the penetration performance of ECOPs has not been completely understood. The objective of this study was to investigate the pene-tration performance of ECOPs into concrete targets using a theoretical method. A general geometric model of ECOPs was introduced, and closed-form penetration equations were derived according to the dynamic cavity-expansion theory. The model was validated by comparing the predicted penetration depths with test data, and the maximum deviation was 15.8％. The increment in the penetration depth of the ECOP was evaluated using the proposed model, and the effect of the major—minor axis ratio on the increment was examined. Additionally, the mechanism of the penetration-depth increment was inves-tigated with respect to the caliber radius head, axial stress, and resistance.     

Bionic stab-resistant body armor based on triangular pyramid structure

A stab-resistant substrate was designed and realized with a triangular pyramidal structure, inspired by the biological armor model in nature. The stab-resistance behavior and dynamic response mechanisms were studied through numerical simulation and experimental testing of a knife impacting a substrate, and an optimal structural design was obtained accordingly, with a tilted angle of 22.5° and optimal thickness of 1.2 mm. It was shown that the triangular pyramidal structure generated twice the internal energy of the knife than the flat substrate due to the dispersing effect of the structure. The force parallel to the inclination caused a significant scratch on the substrate surface, while the force perpendicular caused obvious substrate deformation. A new riveting method was used to form the total layer, which passed the GA 68—2008 standard. The stab-resistant clothing coupled with the reduced wearing burden could provide effective protection and avoid fatal injuries on security personnel working in dangerous environments. The method provided may enlighten the future design and manufacturing of stab-resistant clothing.