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951.
以三角构型的空间绳系编队系统为对象开展了动力学特性分析和稳定展开控制研究。首先,针对以往编队动力学建模的精度问题,采用Lagrange法建立了系统动力学模型,建模时充分考虑了系绳的弹性,可在不增加计算量的同时保留系统的弹性特性。其次,根据所建立的动力学模型,定量分析了编队自旋稳定时自转角速度的范围,为之后的稳定展开控制提供理论依据。由于受制于执行机构精度和控制输入的限制,空间绳系编队系统是一个典型的欠驱动系统,采用分层滑模实现编队的稳定展开控制,仿真结果验证了该控制方法的有效性。 相似文献
952.
随着无人机应用环境的多样化,在复杂环境中寻找无碰撞路径是非常重要的。传统的路径规划算法可以找到可行的路径,但它们在时间效率和路径长度之间没有很好的平衡,传统的几何算法只能避免特殊形状的障碍物。提出了一种改进的几何路径规划算法,使无人机能够在复杂的环境中避开任意形状的障碍物,找到较短的路径。首先,针对不规则障碍物,建立了凸多边形覆盖模型。然后解决了传统几何算法陷入局部最优解的缺点。提出了从相邻路径段生成无碰撞路径的二次规划思想,并针对该方法提出了一种新的安全阀值策略。最后,为了验证算法的性能,在不同的复杂环境下进行了仿真,并从几个方面对所提出的算法与A*算法进行了对比分析。 相似文献
953.
针对运载火箭的时变结构模态参数辨识问题进行研究,基于时变自回归滑动平均(TARMA)模型,提出一种时变结构模态参数辨识的确定性演化方法。该方法利用小波基函数的良好局部函数拟合能力,将墨西哥帽小波函数作为TARMA模型时变系数的空间基底,构建了基于小波函数的泛函序列时变自回归滑动平均(FS-TARMA)模型,并发展了两步最小二乘估计方法,实现了时变系数的解耦估计。通过有限单元法,建立了阿里安V号芯级运载火箭时变有限元模型,对所提辨识方法进行了验证,结果表明:墨西哥帽小波基FS-TARMA方法能够有效地辨识系统的时变模态参数;与传统傅里叶基FS-TARMA方法相比,具有更好的辨识精度,并且能够准确地反映出模态局部细节特征。 相似文献
954.
As an important index affecting the aerodynamic performance and the structural strength of hollow turbine blades, the wall-thickness precision of the blade is mainly inherited from the positional relationship between the corresponding wax pattern and the internal ceramic core. However, due to locating errors, the actual position of ceramic core is always deviated from the ideal position, which makes it difficult to guarantee the wall-thickness precision of the wax pattern. To solve this problem, a wall-thickness compensation strategy is proposed in this paper. Firstly, based on the industrial computed tomography (ICT) technique and curve matching algorithms, a model reconstruction method is developed, with which the 3D model of a trial wax pattern can be easily constructed. After that, focusing on eliminating the wall-thickness errors of the trial wax pattern, an optimization method for the pose of the ceramic core in the wax pattern is proposed. Then, by mapping the optimal pose of the ceramic core to length adjustments of the locating rods, the wall-thickness errors of the wax pattern can be greatly reduced. A case study is also given to illustrate the effectiveness of the proposed compensation strategy. 相似文献
955.
Minghui ZHANG Zhenli CHEN Zhaoguang TAN Wenting GU Dong LI Changsheng YUAN Binqian ZHANG 《中国航空学报》2019,32(8):1847-1859
Blended-Wing-Body(BWB) configuration, as an innovative transport concept, has become a worldwide research focus in the field of civil transports development. Relative to the conventional Tube-And-Wing(TAW) configuration, the BWB shows integrated benefits and serves as a most promising candidate for future ‘‘green aviation". The objective of the present work is to figure out the effects of the stability margin and Thrust Specific Fuel Consumption(TSFC) on the BWB design in the framework of Multi-Disciplinary Optimization(MDO). A physically-based platform was promoted to study the effect static stability margin and engine technology level. Low-order physically based models are applied to the evaluation of the weight and the aerodynamic performance. The modules and methods are illustrated in detail, and the validation of the methods shows feasibility and confidence for the conceptual design of BWB aircrafts. In order to find out the relation between planform changes and the selection of stability and engine technology level, two sets of optimizations are conducted separately. The study proves that these two factors have dominant effects towards the optimized BWB designs in both aerodynamic shapes, weight distribution, which needs to be considered during the MDO design process. A balance diagram analysis is applied to find out a reasonable static stability margin range. It can be concluded that a recommended stability margin of a practical BWB commercial aircraft can be half of that of a conventional TAW design. 相似文献
956.
Wen-jie Wang Ze-ping Wu Dong-hui Wang Wei-hua Zhang Kun Zhao Patrick N. Okolo Gareth J. Bennett 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2019,63(11):3706-3720
Hypersonic vehicles are receiving increased attention within the aerospace community due to their high cruise speed and long-range capabilities. In this paper, a modified Sequential Approximate Optimization method is proposed for an optimized aerodynamic design of a hypersonic vehicle. As part of this approach, a constrained experimental design method is developed to handle the constraints more efficiently. A radial basis function is used to surrogate time-consuming CFD analysis. An efficient and more robust numerical mesh morphing scheme for the hypersonic vehicle is developed for the generation of high-quality meshes. Within this paper, a novel adaptive infilling strategy is proposed which uses an inaccurate search technique coupled with an elite archive. This allows the location of a more promising sample region and hence improves the surrogate accuracy, thereby further enhancing the optimization efficiency. A hypersonic vehicle aerodynamic design problem is solved using the proposed approach and satisfactory results are obtained at much lower computational costs. The lift-to-drag ratio is increased by 23.8% when compared with the base configuration while also satisfying the volume and lift constraints. The pressure and Mach contours have been compared with those of the base configuration and the results demonstrate the strength of the optimized configuration. The modified sequential approximate optimization for designing an improved hypersonic vehicle is worth referencing in future work. 相似文献
957.
958.
范正翘 《北京航空航天大学学报》1996,22(6):671-676
在无刷直流时机的位置伺服系统中,采用了基于状态空间模型的优化设计方法,综合出了次优控制器、建立了广义误差系统状态方程,并利用积分罚函数分段一经法处理伺服系统不等式约束的问题,得出了次优控制算法,经仿真证实,有杉该优化方法设计出的伺服系统的稳态跟踪误差为零;稳成输出不受阶跃干扰的影响;并具有期望的瞬态响应特性。 相似文献
959.
约束条件的分类对于简化数学规划问题的求解具有重要意义,对于凸函数gi(x)(i=1,2,…,n)给出了约束gi(x)≤0是必要约束或多余约束的充要条件,对于一般约束,定义了约束相关矩阵,给出了约束是必要的或多余的充要条件,对相对多余约束给出了分类。 相似文献
960.
满应力优化设计方法的集约几何规划法 总被引:1,自引:0,他引:1
李来义 《北京航空航天大学学报》1996,22(1):116-120
将集约几何规划法应用在连续梁和刚架的主体优化设计中,计算了两跨连续梁和门式钢框架,均得到满意结果。 相似文献