PDPA移测架系统的研制与应用

对PDPA移测架系统的组成、功能及特点作了简要的介绍。通过应用表明:该系统的研制是成功的,系统运行稳定、可靠,激光测速系统可与移测架系统配合使用。     

An optimization method for metamorphic mechanisms based on multidisciplinary design optimization

The optimization of metamorphic mechanisms is different from that of the conventional mechanisms for its characteristics of multi-configuration. There exist complex coupled design variables and constraints in its multiple different configuration optimization models. To achieve the compatible optimized results of these coupled design variables, an optimization method for metamorphic mechanisms is developed in the paper based on the principle of multidisciplinary design optimization（MDO）. Firstly, the optimization characteristics of the metamorphic mechanism are summarized distinctly by proposing the classification of design variables and constraints as well as coupling interactions among its different configuration optimization models. Further, collaborative optimization technique which is used in MDO is adopted for achieving the overall optimization performance. The whole optimization process is then proposed by constructing a two-level hierarchical scheme with global optimizer and configuration optimizer loops. The method is demonstrated by optimizing a planar five-bar metamorphic mechanism which has two configurations,and results show that it can achieve coordinated optimization results for the same parameters in different configuration optimization models.     

直线度平面度测量平差的研究

为了减小节距法测量直线度和平面度时原始数据的不确定性误差 ,采用最小二乘平差理论解决了直线度测量平差的理论问题 ,并对平面度测量平差的方案进行了对比分析。通过大量实验验证了平差方法的有效性。对平直度测量标准的制定以及提高工程检测准确度有实际应用意义。     

超光滑表面清洗技术现状及发展趋势

论述了目前超光滑表面清洗的基本理论,常用清洗工艺及清洗方法,最后对清洗技术的发展前景进行了展望。     

眼动测量系统及其在工效学中的应用

 首先回顾了眼动测量系统的研究发展历程;其次通过对眼动的基本形式、特点的分析,以及双眼运动的规律研究,对眼动测量方法的具体优缺点进行了对比,并重点对红外电视法眼动测量系统(Infrared TVEMMS)及其组成部分的基本原理进行了探讨;最后对眼动测量系统在工效学方面的应用前景进行了分析。     

起落架落震试验飞机机轮三向冲击位移的动态测量

为了研究飞机起落架受冲击载荷时的功量吸收状况，须在起落架落震试验中，对飞机着陆瞬间起落架机轮在空间三个方向上冲击位移的动态变化量进行测量。为此，本文设计了四自由度空间定位装置，并使其与计算机连接，实现了落震试验过程中，起落架在高速冲击状态下机轮三向位移的有效测量与记录。     

带作用力约束的二维装填布局问题--航天器中复杂插座板上插孔的布局优化设计

研究航天器中一种复杂插座板上插孔的布局设计问题 ,简化为在圆形插板上 ,根据给定的 n个插头 ,考虑插座板的非凸的可布空间和插头的拔脱力、插座板的紧固螺栓力、边缘弹簧的弹簧力等约束情况下 ,布置其插孔位置。它属于带作用力约束的二维装填 ( Packing)问题。给出该问题的数学模型 ,并提出一种改进编码的遗传算法进行求解。文后附以航天器复杂插座上插孔布局设计实际工程问题为背景的算例     

带挠性附件卫星的模型化及截断

本文给出了具有中心刚体和P个挠性附件的空间飞行器姿态动力学方程式,并用约束和非约束两种模态展开,得到时域求解的状态方程式和频域中的增广姿态角对控制力矩的逆传递函数阵。推导中考虑了挠性附件对中心刚体的相对运动。本文还给出了两种模态恒等式,其中之一可用来做控制系统分析时截断高阶方程式的截断准则。     

Stabilization of a Satellite via Specific Optimum Control

The Optimum Stabilization of a tumbling satellite via Hamilton-Jacobi theory has been reported by one of the authors before in ?On the optimum stabilization of a satellite? [2]. This companion paper discusses the synthesis of a specific optimum control law for the same problem and compares the results with the optimum solution. It is shown that a specific optimum control law yields, acceptable performance while being much easier to instrument than the optimum control law.     

Multi-UAV reconnaissance task allocation for heterogeneous targets using an opposition-based genetic algorithm with double-chromosome encoding

This paper presents a novel multiple Unmanned Aerial Vehicles (UAVs) reconnaissance task allocation model for heterogeneous targets and an effective genetic algorithm to optimize UAVs’ task sequence. Heterogeneous targets are classified into point targets, line targets and area targets according to features of target geometry and sensor’s field of view. Each UAV is regarded as a Dubins vehicle to consider the kinematic constraints. And the objective of task allocation is to minimize the task execution time and UAVs’ total consumptions. Then, multi-UAV reconnaissance task allocation is formulated as an extended Multiple Dubins Travelling Salesmen Problem (MDTSP), where visit paths to the heterogeneous targets must meet specific constraints due to the targets’ feature. As a complex combinatorial optimization problem, the dimensions of MDTSP are further increased due to the heterogeneity of targets. To efficiently solve this computationally expensive problem, the Opposition-based Genetic Algorithm using Double-chromosomes Encoding and Multiple Mutation Operators (OGA-DEMMO) is developed to improve the population variety for enhancing the global exploration capability. The simulation results demonstrate that OGA-DEMMO outperforms the ordinary genetic algorithm, ant colony optimization and random search in terms of optimality of the allocation results, especially for large scale reconnaissance task allocation problems.