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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
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光学景象匹配基准图的滤波方法研究 总被引:3,自引:1,他引:3
对光学景象匹配制导的实时图与基准图的特点进行了对比,分析了前人提出的实时图常用的滤波方法,认为这些方法并不完全适用于基准图的波波处理。然后根据基准图的特点提出了和同态滤波及最小方差滤波的两步法对基闪图进行滤波,这一方法特别适用于因薄云覆盖而引入的低频噪声的处理,并同时兼顾了图像的增强与恢复。通过实验证明,该方法效果良好,对于光学景象匹配基准图的预处理具有一定的实用价值。 相似文献
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Jian Huang Weidong Hu Mounir Ghogho Qin Xin Xiaoyong Du Weiwei Guo 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2012
The increase in space debris can seriously threaten regular activities in the Low Earth Orbit (LEO) environment. Therefore, it is necessary to develop robust, efficient and reliable techniques to understand the potential motions of the LEO debris. In this paper, we propose a novel signal processing approach to detect and estimate the motions of LEO space debris that is based on a fence-type space surveillance radar system. Because of the sparse distribution of the orbiting debris through the fence in our observations, we formulate the signal detection and the motion parameter estimation as a sparse signal reconstruction problem with respect to an over-complete dictionary. Moreover, we propose a new scheme to reduce the size of the original over-complete dictionary without the loss of the important information. This new scheme is based on a careful analysis of the relations between the acceleration and the directions of arrival for the corresponding LEO space debris. Our simulation results show that the proposed approach can achieve extremely good performance in terms of the accuracy for detection and estimation. Furthermore, our simulation results demonstrate the robustness of the approach in scenarios with a low Signal-to-Noise Ratio (SNR) and the super-resolution properties. We hope our signal processing approach can stimulate further work on monitoring LEO space debris. 相似文献
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针对目前河流仿真所存在的计算效率低,渲染效果不够真实的问题, 介绍了一种基于物理规律的河流实时仿真的方法.提出了一种Poisson圆盘分布的算法,可实现屏幕空间的优秀的分布样式,该算法产生的分布粒子用于表达河流的速度场,进而重构河流表面; 采用一种纹理精灵的技术,通过纹理的动态访问和纹理混合,有效地实现河流表面的渲染.仿真实验证明:该方法可以产生渲染效果非常逼真的河流视景,并能够满足实时仿真的要求. 相似文献
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为节省样板制造、更改依据保存及样板实物长期保存和维护带来的高额费用,实现装配夹具的全面数字化管理,迫切需要完成样板装配夹具数字化.以波音747口框装配夹具为例,给出了已有工具球孔但无孔位数据的定位器数字化改造方法以及无工具球孔的定位器数字化改造方法;创新运用功能性测量和实测反推理论值的方法,给出了整套夹具各个定位器的理论工具球数值.装配夹具的数字化改造精简掉工装定检和维修过程中样板的借用和搬运,尤其适用于样板尺寸大、不易搬运和使用不便的样板装配夹具,缩短了工装定检和维修周期,节省了成本,提高了经济效率. 相似文献
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