基于数字信号处理的自适应旁瓣对消系统设计与仿真

自适应旁瓣对消技术(ASLC)是雷达抗有源干扰的有效方法.它是采用空间滤波技术,通过辅助通道在干扰方向上形成波束图的零点来实现对干扰信号的抑制.本文介绍了自适应旁瓣对消的原理,然后给出了基于DSP的ASLC实现方案,最后通过仿真分析了自适应旁瓣对消的性能.     

进气温度畸变对某发动机稳定性影响的研究

本文采用有效的畸变传递模型，就进气温度畸变对某发动机稳定性和性能的影响进行了较深入的数值研究．详细地分析了温度畸变对发动机稳定性和性能的影响，探讨了温度畸变在发动机系统中的传递和分布情况。结果表明：对于发动机进口空间温度畸变，发动机稳定裕度损失更多地取决于畸变强度而非周向范围：向对于与时间相关的温度畸变，发动机进口温升率比周向范围的影响更为显著。     

模糊关联方法在齿轮箱故障诊断中的应用

模糊关联度故障识别方法是运用灰色系统理论与模糊数学隶属函数相结合，克服了故障诊断的模式向量中参数量纲不同、数量级差异的缺点，综合了灰色系统理论和模糊理论的优点，使故障诊断识别的多参效法更加完善。但此种方法的关键是隶属函数建立的可靠性，关系到故障诊断的准确程度。     

氢燃料双模态冲压模型发动机M6的试验研究

笔者研究了一个有突扩台阶的氢燃料高超声速冲压发动机模型的气体动力学特性和推力特性。氢气从位于燃烧室突扩台阶后的支板逆来流喷注,测量了氢气燃烧状态下模型发动机壁面的压力分布和推力收益数据。实验结果表明,在氢气的当量油气比为0.35～0.8的范围,在本模型流道构型条件下,氢气自燃,并随当量油气比的增加,燃烧室内压力增加,获得的推力收益增大,最大推力收益达到500N。实验在CARDC的脉冲燃烧风洞中进行,实验马赫数为6,总温1850K,总压5.5MPa。     

仲裁第三人制度探究

阐述争议双方的主要观点及理由,列举其他国家对仲裁第三人制度的立法及实践经验,结合我国的立法现状得出中国目前无需设立仲裁第三人制度的结论。     

基于ANSYS/LS-DYNA的电磁冲击系统阀芯动力学研究

本文以电磁冲击系统为研究对象,利用ANSYS/LS-DYNA非线性分析软件对电磁冲击系统的阀芯冲击过程进行了模拟仿真,并对阀芯运动以及阀芯回程冲击盖板进行了应力、能量传递过程的计算分析。仿真结果表明,加入缓冲弹簧后,不但提高了阀芯的使用寿命,而且阀芯能量传递效率也提高了。     

基于LabVIEW的通信系统的构建

本设计基于LabVIEW仿真软件完成了基本通信系统和通信综合系统的构建。该系统涵盖了模拟调制,数字调制,模拟信号数字传输,信道编码,最佳接收系统几部分内容。通过系统仿真,实现了系统输入输出波形的直观显示,解决了教学中实验效果不理想,理论内容不好理解的问题。同时通过内置的Web Server进行网页发布后,用户可以在客户端通过web浏览器远程调用并运行本系统,提高效率,节约成本。     

Global aerodynamic design optimization based on data dimensionality reduction

In aerodynamic optimization, global optimization methods such as genetic algorithms are preferred in many cases because of their advantage on reaching global optimum. However, for complex problems in which large number of design variables are needed, the computational cost becomes prohibitive, and thus original global optimization strategies are required. To address this need, data dimensionality reduction method is combined with global optimization methods, thus forming a new global optimization system, aiming to improve the efficiency of conventional global optimization. The new optimization system involves applying Proper Orthogonal Decomposition (POD) in dimensionality reduction of design space while maintaining the generality of original design space. Besides, an acceleration approach for samples calculation in surrogate modeling is applied to reduce the computational time while providing sufficient accuracy. The optimizations of a transonic airfoil RAE2822 and the transonic wing ONERA M6 are performed to demonstrate the effectiveness of the proposed new optimization system. In both cases, we manage to reduce the number of design variables from 20 to 10 and from 42 to 20 respectively. The new design optimization system converges faster and it takes 1/3 of the total time of traditional optimization to converge to a better design, thus significantly reducing the overall optimization time and improving the efficiency of conventional global design optimization method.     

一种语音信号欠定盲分离的新方法

文章提出了一种语音信号欠定盲分离的新方法,引入了一种伪提取矢量的概念,并通过在信号采样点处选取对应的伪提取矢量,以恢复取值占优的源信号采样点的值,来实现欠定盲源分离。通过将该方法与传统的基于线性规划的欠定盲源分离方法分别仿真表明:文章所提出方法由于在信号的各采样点处无需优化,因此大大提高了信号分离的速度,语音信号的分离速度比基于线性规划的方法快数倍。     

Experimental investigation and correlation development of jet impingement heat transfer with two rows of aligned jet holes on an internal surface of a wing leading edge

Extensive experimental studies on the heat transfer characteristics of two rows of aligned jet holes impinging on a concave surface in a wing leading edge were conducted, where50000 Rej 90000, 1.74 H/d 27.5, 66° a 90°, and 13.2 r/d 42.03. The finding was that the heat transfer performance at the jet-impingement stagnation point with two rows of aligned jet holes was the same as that with a single row of jet holes or the middle row of three-row configurations when the circumferential angle of the two jet holes was larger than 30°. The attenuation coefficient distribution of the jet impingement heat transfer in the chordwise direction was so complicated that two zones were divided for a better analysis. It indicated that: the attenuation coefficient curve in the jet impingement zone exhibited an approximate upside-down bell shape with double peaks and a single valley; the attenuation coefficient curve in the non-jet impingement zone was like a half-bell shape, which was similar to that with three rows of aligned jet holes; the factors,including Rej, H/d and r/d, affected the attenuation coefficient value at the valley significantly.When r/d was increased from 30.75 to 42.03, the attenuation rates of attenuation coefficient increased only by 1.8%. Consequently, experimental data-based correlation equations of the Nusselt number for the heat transfer at the jet-impingement stagnation point and the distributionof the attenuation coefficient in the chordwise direction were acquired, which play an important role in designing the wing leading edge anti-icing system with two rows of aligned jet holes.