考虑落角约束与驾驶仪特性的自适应RBF空间末制导律

为使大口径舰炮制导炮弹在打击近岸机动目标的末制导段满足落角约束,现考虑自动驾驶仪动态特性,基于自适应RBF逼近网络与动态面滑模提出一种空间末制导律。构建空间弹目相对运动模型,通过带改进微分跟踪器的扩张状态观测器估计目标加速度。为零化视线角跟踪误差与视线角速率,采用自适应指数趋近律设计非奇异终端滑模动态面,并运用自适应RBF逼近网络削弱控制指令抖振。通过Lyapunov第二法证明了全系统中视线角跟踪误差与视线角速率均最终一致有界。仿真实验表明：该末制导律使制导炮弹在空间中打击具有不同机动形式的近岸目标时,均具备良好的末制导性能。     

War,vagueness and hybrid war

It has frequently been observed in the literature on hybrid wars that there is a grey zone between peace and war, and that hybrid wars are conflicts which are not clear cases of war. In this paper, I attempt to illuminate this grey zone and the concept and nature of war from the philosophical discussions of vagueness and institutional facts. Vague terms are characterized by the fact that there is no non-arbitrary boundary between entities which lie in their extension, and entities which do not lie in their extension. I apply a theory of vagueness to notions such as “war” and “peace” and go on to suggest that the exact boundary for what counts as a war or not is arbitrary. However, the context in which the conflict occurs determines a range of possible locations for this boundary. The most important contextual parameter is in this respect how the parties to the conflict themselves conceptualize the conflict. I suggest that this can in various ways help us understand grey-zone conflicts.     

Verification and validation of detonation modeling

The mathematical model used to describe the detonation multi-physics phenomenon is usually given by highly coupled nonlinear partial differential equations. Numerical simulation and the computer aided engineering (CAE) technique has become the third pillar of detonation research, along with theory and experiment, due to the detonation phenomenon is difficult to explain by the theoretical analysis, and the cost required to accredit the reliability of detonation products is very high, even some physical experiments of detonation are impossible. The numerical simulation technique can solve these complex problems in the real situation repeatedly and reduce the design cost and time stunningly. But the reliability of numerical simulation software and the serviceability of the computational result seriously hinders the extension, application and the self-restoration of the simulation software, restricts its independently innovational ability. This article deals with the physical modeling, numerical simulation, and software development of detonation in a unified way. Verification and validation and uncertainty quantification (V&V&UQ) is an important approach in ensuring the credibility of the modeling and simulation of detonation. V&V of detonation is based on our independently developed detonation multi-physics software-LAD2D. We propose the verification method based on mathematical theory and program function as well as availability of its program execution. Validation is executed by comparing with the experiment data. At last, we propose the future prospect of numerical simulation software and the CAE technique, and we also pay attention to the research direction of V&V&UQ.     

A Squared-Chebyshev wavelet thresholding based 1D signal compression

In this paper a square wavelet thresholding method is proposed and evaluated as compared to the other classical wavelet thresholding methods (like soft and hard). The main advantage of this work is to design and implement a new wavelet thresholding method and evaluate it against other classical wavelet thresholding methods and hence search for the optimal wavelet mother function among the wide families with a suitable level of decomposition and followed by a novel thresholding method among the existing methods. This optimized method will be used to shrink the wavelet coefficients and yield an adequate compressed pressure signal prior to transmit it. While a comparison evaluation analysis is established, A new proposed procedure is used to compress a synthetic signal and obtain the optimal results through minimization the signal memory size and its transmission bandwidth. There are different performance indices to establish the comparison and evaluation process for signal compression; but the most well-known measuring scores are: NMSE, ESNR, and PDR. The obtained results showed the dominant of the square wavelet thresholding method against other methods using different measuring scores and hence the conclusion by the way for adopting this proposed novel wavelet thresholding method for 1D signal compression in future researches.     

法学教学中案例教学法的反思与探索

法学是一门理论性与实践性都很强的学科,法学教育的目的在于为社会培养应用型、实践型的法律人才。传统上重理论轻实践的教学模式已无法满足这一要求,而科学合理地引入案例教学是弥补传统模式不足的有效手段。     

现役制边防检查行政执法问题浅析

现役制出入境边防检查体制与建国初期的国际国内形势相适应,并在当时的历史环境下发挥了重要作用。在全球信息、经济、交流一体化和改革开放的大环境下,面对建设社会主义法治国家的要求,现役制也暴露出诸多不足。从现役制这一特点出发,分析现役制出入境边防检查行政执法的一些基本法律问题,为执法规范化建设和构建中国特色边防检查管理体系与制度作了一些探讨。     

谈比例原则在规范消防行政执法裁量权中的适用

比例原则着眼于法益的均衡,要求行政主体在实现行政管理目标的同时,注意维护相对人的权益。作为行政法上控制自由裁量权的一项重要原则,在阐述了比例原则内涵与价值的基础上,针对消防行政执法自由裁量权行使的错位与失范,提出用比例原则进行规范与控制。     

多管炮效能定律的发现及多管因子公式研究

针对目前多管武器毁伤效能计算中存在的问题进行深入细致的研究,发现了多管炮效能第一、第二定律,根据定律,猜想并推导出了多管因子的计算公式.并对公式计算数据和传统经验数据进行对比分析,发现在管数小于24时,两者误差不超过3%,公式计算取得了较好的效果.研究成果同时扩充了传统多管因子的经验数据,并对24管以上多管武器效能的研究提供了理论依据和参考.     

基于偏最小二乘特征提取的支持向量机回归算法

为了提高SVM的建模质量,简化建模难度,提出了PLS-SVM组合回归建模方法.该方法通过PLS对样本数据进行降维、去噪以及消除共线性处理后,再进行SVM回归建模.不仅保持了SVM良好的模型性能,而且使SVM具备特征提取功能.实验结果表明,该方法是可行的,采用此法构建的SVM模型,泛化性能优于没有特征提取的SVM.     

高炮随动系统性能测量算法

针对火炮调炮精度检测中存在的不足, 提出了一种基于双目立体视觉的三重交会测量方法,在炮身管上附加球状标志物,利用CCD摄像机获取标志物图像,通过标志物成像的几何投影关系计算球心的三维坐标.为了降低图像识别误差的影响,对投影的识别位置进行拓展和细化,并对球心投影边界进行插值,摄像机光心与插值点连线射线形成了一个锥体,两摄像机的锥体分别与炮台球面相交形成曲面,计算两曲面公共部分的形心,即为球心位置.通过确定球心位置,对炮身管的高低角、方位角进行计算,从而检测火炮调炮的性能.实验证明,该算法简单、快速,具有较高的精度.