Blank Panel Design of Integral Wing Skin Panels Based on Feature Mapping Methods

A blank panel design algorithm based on feature mapping methods for integral wing skin panels with supercritical airfoil surface is presented.The model of a wing panel is decomposed into features,and features of the panel are decomposed into information of location,direction,dimension and Boolean types.Features are mapped into the plane through optimal surface development algorithm.The plane panel is modeled by rebuilding the mapped features.Blanks of shot-peen forming panels are designed to identify the effectiveness of the methods.     

A Self-organizing Bearings-only Target Tracking Algorithm in Wireless Sensor Network

In the bearings-only target tracking, wireless sensor network (WSN) collects observations of the target direction at various nodes and uses an adaptive filter to combine them for target tracking. An efficient network management is necessary to gain an optimal tradeoff between locating accuracy and energy consumption. This article proposes a self-organizing target tracking algorithm to select the most beneficial subset of nodes to track the target at every snapshot. Compared with traditional methods, this scheme avoids the need for keeping global position information of the network as in greedy selection. Each node judges its future usefulness depending on the knowledge of its own position and using simple mathematics computation. Simulations indicate that this scheme has locating accuracy comparable to the global greedy algorithm. Also, it has good robustness against node failure and autonomous adaptability to the change of the network scale. Furthermore, this algorithm consumes limited energy because only a portion of nodes partakes in the selection at every snapshot.     

利用集群内测距和对目标测向的协同定位方法

当多个飞行器间相对位置测量精度显著高于飞行器绝对定位精度时，在飞行器间增加相对测量，对各飞行器的定位测量协同处理，能提高绝对定位精度。本文针对集群飞行器对非合作目标不能测距而仅能测向的情况，通过在集群飞行器间引入相互测距，来提高集群飞行器自身和对非合作目标的定位精度。对于这种不完整相对测量情况，给出了能提高定位精度的协同定位求解方法，包括非线性静态优化估计和线性化后最小二乘估计方法。这种协同定位方案，不需要进行完整的相对位置测量，对测距和测向在群体相对测量中进行合理分解，降低了飞行器测量设备配置的要求。通过仿真验证了该方法的有效性。     

基于Lagrange方法的单旋翼飞行器动力学建模

为了进行微小型单旋翼飞行器的动力学建模,通过建立多个坐标系来反映各部分间的相对运动.首先,利用坐标变换得到位置、速度及加速度等向量,并代入拉格朗日方程得到运动学模型;然后,对模型进行数值求解,得到飞行器的姿态响应.仿真结果表明,飞行器定点盘旋时合外力为零,能量保持不变;爬升或前飞时有非保守力做正功,能量增大.     

A parameterized geometry design method for inward turning inlet compatible waverider

Intensive studies have been carried out on generations of waverider geometry and hypersonic inlet geometry. However, integration efforts of waverider and related air-intake system are restricted majorly around the X43A-like or conical flow field induced configuration, which adopts mainly the two-dimensional air-breathing technology and limits the judicious visions of developing new aerodynamic profiles for hypersonic designers. A novel design approach for integrating the inward turning inlet with the traditional parameterized waverider is proposed. The proposed method is an alternative means to produce a compatible configuration by linking the off-the-shelf results on both traditional waverider techniques and inward turning inlet techniques. A series of geometry generations and optimization solutions is proposed to enhance the lift-to-drag ratio. A quantitative but efficient aerodynamic performance evaluation approach （the hypersonic flow panel method） with lower computational cost is employed to play the role of objective function for opti- mization purpose. The produced geometry compatibility with a computational fluid dynamics （CFD） solver is also verified for detailed flow field investigation. Optimization results and other numerical validations are obtained for the feasibility demonstration of the proposed method.     

导流板对埋入式进气口进气的影响

埋入式进气口是一种新型的动力装置舱冷却进气方式,传统的流量测量方式难以应用于该型进气口,因此需要借助数值仿真手段对该型进气口的进气性能进行研究。某航空动力装置舱分别采用了2种带格栅的埋入式进气口,其不同在于是否存在内侧导流板。以该型埋入式进气口为研究对象,按1∶1的比例建立三维进气口模型,借助CFD数值仿真软件,对比了导流板对埋入式进气口进气的影响,以及两种进气口的进气规律,其结论为埋入式进气口的优化设计提供参考。     

杆状物对舰载比幅测向的影响研究

通过对杆状物信号反射的分析,研究了舰上杆状物对无源比幅测向的影响,对其中杆状物与天线距离、杆状物截面半径、长度、入射雷达信号波长等因素造成的无源比幅测向误差进行了定量分析。     

高超侧压式进气道高焓脉冲风洞实验

为验证一种双楔顶压、侧板中置的侧压式进气道基本性能,设计了一套进口面积为110mm×91mm的双流道试验模型,并在300mm马赫数6的高焓脉冲风洞中进行了吹风实验。实验测量了进气道和隔离段内的沿程静压分布和隔离段进出口截面的皮托压力分布,分析了进气道内的典型流场特征,获得了进气道的基本性能参数,并以马赫数的测量为例阐述了流场不均匀性对测量结果可能造成的影响。实验结果表明,马赫数6来流条件下,该侧压式进气道流量系数为0.83,隔离段出口平均马赫数为2.57,总压恢复系数为0.296,增压比为23.7,表明这种侧压式进气道的气动布局方式能够获得较好的总体性能。     

二元混压超声速进气道三维流动数值分析

按照MacCormack时间分裂方法，应用NND格式、对流迎风矢通量分裂（AUSM）技术和Baldwin-Lomax混合长度代数湍流模型，对贴体坐标下三维雷诺平均N－S方程进行有限差分离散。数值计算了均匀来流和非均匀来流条件下二元混压超声速进气道三维湍流流动态，分析了该进气道主要性能参数随出口反压、来流马赫数、导弹工作高度及飞行攻角的变化特性，为深入研究进气道性能提供了一定辅助手段。     

高超声速进气道内激波－边界层干扰研究

为了研究高超声速进气道内激波干扰和流场结构，对一个二维进气道模型在中国空气动力研究与发展中心超高速所风洞流场中进行了实验（Ｍ＿∞＝５．０，Ｒｅ＿∞＝７．５×１０￣６ｍ￣（－１））。采用纹影方法，结合压力测量对进气道内流结构进行诊断，同时用Ｙｅｅ的ＴＶＤ有限差分格式通过求解二维Ｎ─Ｓ方程对相应实验状态下的进气道内流场进行了数值模拟。风洞实验与数值模拟取得了较好的一致。进一步的分析还表明高超声速进气道内的激波─边界层干扰对进气道性能有很大的影响。