加筋壁板轴压载荷下稳定性有限元分析

使用有限元方法对组装壁板及整体壁板轴压载荷下的稳定性进行分析,计算轴压位移载荷情况下组装壁板及整体壁板的模态分布、应力分布及位移分布等,并对组装壁板进行了轴压试验,将试验结果与有限元结果进行了对比,表明有限元结果与试验结果吻合较好。最后对比组装壁板与整体壁板的分析结果发现,整体壁板的承载能力优于组装壁板。     

小波神经网络用于CCD视频序列图像去噪

CCD摄像机获取目标影像时不可避免地受到噪声影响,因此噪声去除是CCD图像处理的一项重要研究课题。本文将小波神经网络引入CCD图像去噪领域中,提出一种基于小波神经网络的图像去噪方法。实验结果表明,该方法在去除噪声上优于传统的均值滤波等方法,在有效去除噪声的同时,又能很好地保护图像的细节信息,具有很好的保真度。     

三支点柔性转子系统支承不同心激励特征及振动响应分析

针对航空发动机三支点柔性转子系统的支承不同心问题,充分考虑转子结构特征和载荷特征,首次将当量刚度引入多支点柔性转子不同心问题的动力学分析,定量描述转子系统各支承间不同心度带来的转子轴段刚度非线性,并提出了多跨度柔性转子系统支承不同心激励的数学描述,建立了不同心激励下多跨度柔性转子系统的力学模型。基于Lagrange能量法,给出了转子系统动力学方程的求解方法,研究得到了支承不同心转子系统的动力响应特征。结果表明:支承不同心不仅引起转子过渡轴的刚度非线性,产生2倍频激励,还会给转子系统带来附加不平衡激励;对于三支点柔性转子系统而言,2倍频分量同样是支承不同心下转子系统振动响应的典型特征之一。转子系统2倍频分量随不同心量的增加而迅速增加,而1倍频分量基本保持不变。同时转子振动响应呈现"缓增速降"趋势,且随非线性刚度、不平衡量的增大愈加明显。     

低轨卫星通信系统地面核心网设计与仿真

文章针对无星际链路的低轨卫星通信系统，利用OPNET软件设计了低轨卫星通信系统在透明转发模式下的核心网构成，并进行了性能仿真。首先介绍核心网的构成、功能和拓扑，在此基础上实现了呼叫处理和切换的仿真，统计了呼叫时延、切换时延等性能指标，分析了仿真结果，为低轨道卫星通信系统的设计奠定了一定的参考价值。     

电大目标等离子体隐身的矩量法优化设计

根据高频散射特征,提出典型几何散射中心替代法,用于解决矩量法（MOM）用于电大目标等离子体隐身时的优化设计问题。以某典型电大目标为例,通过仿真分析了该方法的可行性。结果显示,电大目标覆盖利用该方法得到最优参数的等离子体后,不仅目标整体的单站RCS平均缩减与典型几何散射体的单站RCS缩减相当,且任意方向上RCS基本都有10dB左右的缩减,表明用该方法得到用于电大目标隐身的等离子体参数是可行的。     

The Lunar Gravity Ranging System for the Gravity Recovery and Interior Laboratory (GRAIL) Mission

The Lunar Gravity Ranging System (LGRS) flying on NASA’s Gravity Recovery and Interior Laboratory (GRAIL) mission measures fluctuations in the separation between the two GRAIL orbiters with sensitivity below 0.6 microns/Hz^1/2. GRAIL adapts the mission design and instrumentation from the Gravity Recovery and Climate Experiment (GRACE) to a make a precise gravitational map of Earth’s Moon. Phase measurements of Ka-band carrier signals transmitted between spacecraft with line-of-sight separations between 50 km to 225 km provide the primary observable. Measurements of time offsets between the orbiters, frequency calibrations, and precise orbit determination provided by the Global Positioning System on GRACE are replaced by an S-band time-transfer cross link and Deep Space Network Doppler tracking of an X-band radioscience beacon and the spacecraft telecommunications link. Lack of an atmosphere at the Moon allows use of a single-frequency link and elimination of the accelerometer compared to the GRACE instrumentation. This paper describes the implementation, testing and performance of the instrument complement flown on the two GRAIL orbiters.     

Decision-making of Aircraft Optimum Configuration Utilizing Multidimensional Game Theory

As multi-discipline coupling and components interference often affect the aircraft configuration decision-making and analysis during conceptual design process, this article presents an approach of multidimensional game theory based on aircraft components to deal with this problem. The idea is that the configuration decision-making process is regarded as the game for different disciplines and technologies, and the aircraft components are players. The payoff function with highest total gain means that according to the game protocols and multidimensional theory, the optimal aircraft configuration within the strategy set will be chosen. The decision-making model is applied to conceptual design process of the high altitude long endurance (HALE) unmanned aerial vehicle (UAV) based on the assessment of technological risk. The obtained optimum configuration is quite consistent with the current HALE UAV development trends. Thus, taking into account the coupling and interference factors, the multidimensional gaming model based on aircraft components will be an effective analysis method in the decision-making process of aircraft optimum configuration.     

自动微装配技术在航空机载光机电传感器装调中的应用

介绍了自动微装配技术在机载传感器装调中应用的整体思路及应用方案,通过对微小型零件夹持、精密定位、显微视觉和在线测量等先进装调中关键技术的研究,开发了光纤陀螺、高精度加速度计等产品成套自动装配的技术装备,解决了目前精度不高、装调一致性差、手工作业和产能不足等问题,从而整体提升了机载产品制造技术的水平.     

Measurements of heat transfer and pressure in a trailing edge cavity of a turbine blade

 An experimental investigation is conducted to obtain the heat transfer and pressure drop data for an integral trailing edge cavity test section that simulates a novel turbine blade's internal cooling passage with bleed holes. Local heat transfer is measured on both the suction and pressure sides by a transient liquid crystal technique, while pressures at six positions are recorded by pressure calibrators. Moreover, flow characteristic and its effect on heat transfer are analyzed for conditions with or without bleed flow. The experimental results show that, in the cases with bleed flow, local heat transfer on the pressure side exceeds that on the suction side in the first and second channels. In the cases without bleed flow, in the first and third channels, local heat transfer on the suction side weakens whilst it increases significantly on the pressure side. For the second channel, non-bleed condition leads to a more balanced heat transfer distribution between the upstream and downstream channel. Besides, after the bleed holes are blocked, heat transfer in the first bend region on the suction side declines sharply, while the opposite phenomenon occurs for the second bend region on the pressure side. In both bleed and non-bleed cases, the total pressure of six measurement positions decreases continuously along the channel at the same Reynolds number and it promotes for higher Reynolds number. Among all the measurement points, under the same flow rate condition, the highest speed occurs at Position 5, which also shows the maximum difference between the total and static pressures. When the bleed holes are blocked, the total pressure at each measurement position appears to increase.     

片光反射遮挡式超高速亚毫米粒子探测技术

为满足在超高速碰撞靶上开展航天器抗空间碎片防护性能试验，需要准确测量速度3～10km／s，以及更高速度的毫米级或亚毫米级粒子的飞行速度，在可以实现毫米级粒子探测的片光遮挡式粒子探测技术基础上发展了片光反射遮挡式粒子探测技术，通过采用提高粒子直径与激光光束宽度的比值，解决了探测粒子直径小于1mm时探测信号弱不能识别等关键技术，研制了试验装置并开展了验证试验，研究结果表明该技术在0．2～10km／s速度范围内可实现直径为0．1mm量级粒子的有效探测。