关于飞机瞬时敏捷性尺度的计算

简单介绍了飞机的瞬时敏捷性尺度，即轴向敏捷性，俯仰敏性和横向敏捷性尺度，并对Ｆ－１６飞机的瞬时敏捷性尺度进行了计算，计算结果表明，敏捷性与飞机控制系统设计密切相关，因此，飞机设计时应就敏捷性，飞行品质和控制律设计这三方面进行折衷。     

固体推进剂等离子体点火研究

为了研究等离子体对固体推进剂点火性能的影响，分别对双基药和硝胺药等两种固体推进剂，进行了等离子体点火实验。实验装置包括等离子体源、热电偶丝和动态信号分析仪。通过实验，获得了两种固体推进剂在不同的等离子体能量输入的条件下，其表面温度随时间变化的曲线。与常规点火数据相比，固体推进剂的等离子体点火延迟时间明显缩短。不同类型的固体推进剂，在相同的等离子体能量输入条件下，其点火性能不同；同一种类型的固体推进剂，在不同的等离子体能量输入条件下，其点火性能也不一样。     

冲击载荷作用下新型阻尼铝合金的阻尼及力学性能

 采用冲击实验装置研究了新型阻尼铝合金材料在冲击载荷作用下的动态力学性能及表征方法。研究结果表明：采用冲击实验的冲击功及能量参数能够科学合理地表征铝合金材料的力学及阻尼性能。新型阻尼铝合金材料的抗冲击载荷能力和阻尼性能均高于普通铸造铝合金材料86%及37%左右，且内部组织致密、均匀细小，具有优良的综合性能。     

基于客户／服务器体系的工程数据库管理系统

提出了一种基于客户／服务器结构的工程数据库管理系统。客户／服务器结构的总体思想是将所有共享数据放在共享的服务器数据库上，所有客户的临时数据放在客户方由客户独占，客户通过局域网（ＬＡＮ）向服务器申请所要的数据，服务器通过ＣｈｅｃｋＩｎ和ＣｈｅｃｋＯｕｔ机制向客户提供数据服务，并确保数据的一致性和完整性。文章讨论了如何在客户和服务器之间合理分配负荷，描述了客户／服务器体系的多级存贮结构和客户与服务器之间的数据通信．重点探讨了客户／服务器结构下的缓冲管理问题。系统的开发环境是ＳｕｎＯＳ，ＴＣＰ／ＩＰ协议，系统用Ｃ语言开发。     

连续小波变换应用于密集模态参数识别

用连续小波变换方法进行模态参数识别时,减小小波函数的带宽可以提高小波变换的频率分辨能力,但同时也会增大边沿效应,影响密集模态参数识别的精度。本文提出了极值位置方法,在模态耦合严重的小波脊附近,找到模态解耦最好的尺度,在此尺度上进行频率和阻尼的识别,可以获得较好的识别精度。使用Morlet小波函数,对GARTEUR飞机模型中的三阶密集模态进行识别,验证了该方法的有效性。     

一种改进的微粒群优化算法

标准微粒群优化(PSO)算法是一种群体智能算法,它容易陷入局部极值点,进化后期收敛速度慢且精度较差,而且参数的选择对算法的优劣影响很大。针对这些缺点,首先提出了一种在位置进化方程中引进动态参数的方法,改进了标准微粒群算法收敛速度;然后通过在速度、位置进化方程中同时引进动态参数来提高算法收敛速度和收敛率。经J．D．Schaffer函数和LevyNo．5函数对改进算法的测试表明,相比于标准微粒群算法,该方法的收敛速度和平均收敛率均有大幅度提高。     

新型结构粘接材料对航空有机玻璃性能的影响

选用新型结构粘接材料中低温固化环氧结构胶膜J-351和改性丙烯酸酯液体胶胶黏剂SY-50s,表征胶黏剂对有机玻璃的粘接性能以及应力-溶剂银纹性能,并研究胶黏剂对有机玻璃力学性能的影响。结果表明:两种胶黏剂对有机玻璃具有良好的粘接性能,J-351抗应力溶剂银纹性能优于SY-50s;有机玻璃表面施胶后力学性能下降,与定向有机玻璃相比,浇注有机玻璃力学性能下降更为明显。通过对拉伸试样断口形貌分析发现,拉伸试样带有胶黏剂的一侧首先发生破坏。因SY-50s与有机玻璃界面结合紧密,导致带有SY-50s胶黏剂的有机玻璃力学性能下降程度较大;而J-351环氧胶膜与有机玻璃界面清晰,对有机玻璃力学性能影响相对较小。因胶黏剂对有机玻璃性能的影响,导致采用SY-50s胶黏剂粘接的试样边缘连接强度低于J-351胶黏剂粘接的试样,新型结构粘接材料J-351环氧胶膜在有机玻璃粘接中应用性能良好。     

Suggestion for aircraft flying qualities requirements of a short-range air combat mission

Owing to the lack of a direct link with the operations in short-range air combat,conventional aircraft flying qualities criteria are inappropriate to guide the design of a task-tailored flight control law.By applying the mission-oriented flying qualities evaluation approach,various aircraft with different control law parameters are evaluated on a ground-based simulator.This paper compares the evaluation results with several conventional flying qualities criteria,and discusses the appropriate parameter combination to reflect the flying qualities requirements of short-range air combat,The comparison and analysis show that a short-range air combat mission requires a higher minimum short period mode natural frequency and a smaller maximum roll mode time constant,and allows a lower minimum pitch attitude bandwidth and a higher maximum short period mode damp ratio than those of conventional flying qualities criteria.Furthermore,a combination of the pitch attitude bandwidth,the pitch attitude magnitude at the bandwidth frequency,and the pitch attitude transfer function gain can define the flying qualities requirements of short-range air com bat.The new metric can successfully predict the flying quality levels of aircraft in a short-range air combat mission.     

多跑道离场分配仿真模型及算法

多跑道作为大型繁忙机场的关键资源和瓶颈区域，在机场运行管理中必须对其进行科学和高效配置。基于经验滑行时间数据，建立了多跑道离场分配模型，在满足场面运行安全约束的前提下，以离场航班滑行时间最小为目标，寻求最优的跑道分配方案。通过选取典型机场进行地面网络建模，结合实际运行数据及航班计划等信息，利用计算机仿真对模型进行了验证分析。仿真结果表明，所提方法与随机分配方法相比，多跑道机场地面容量提高了2．1％，冲突探测与解脱次数降低了20．6％，最大延误时间减小了5．2％。因此，机场运行安全与效率得到改善，所提方法有效，适用于多跑道离场分配问题。     

A comprehensive study of the 2016 Mw 6.0 Italy earthquake based on high-rate (10 Hz) GPS data

The 2016 M_w 6.0 Italy earthquake is successfully recorded by the near-field 10?Hz GPS and 200?Hz Strong Motion (SM) stations, providing valuable data for this study. A comprehensive study of this earthquake is carried out based on GPS data, which contains coseismic deformations analysis, noise analysis, seismic wave picking, and magnitude determination. The noise of most GPS-derived displacement waveforms can be described as a combination of white noise, flicker noise, and random walk noise after the earthquake occurrence, and the spectral indices vary significantly for most stations, implying that the seismic signals have affected the noise characteristic of GPS-derived displacement waveforms. S-transform is employed to assess the GPS capability to detect the seismic arrival time. The SM station AMT and the GPS station AMAT are in good agreement in seismic wave picking, and the difference is only 1.2?s in the north component, suggesting that the outcome of seismic wave picking using GPS data is reliable. Then, a classic empirical formula is employed to determine the moment magnitude. A robust moment magnitude (Mw 5.90) can be estimated by the nine GPS stations with about 23.9?s. If four GPS stations near the epicenter is chosen to determine the magnitude, it only take 13.0?s to retrieve a reliable preliminary (Mw 5.82) magnitude, which is 5.4?s ahead of nine stations. In addition, Cross Wavelet Transform (XWT) is adopted to measuring the correlation and phase relationship between GPS and SM records. The result of XWT analysis indicates 10?Hz GPS is capable of capturing reliable and accurate coseismic dynamic deformations, as evidenced by the XWT-based semblance being close to 1 between GPS and SM records. The above results confirm the capability of 10?Hz GPS to capture coseismic dynamic deformations, detect seismic arrival time, and determine earthquake magnitude. Moreover, rapid magnitude determination based on 10?Hz GPS data can be regarded as an important supplement to Earthquake Early Warning (EEW).