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Development of a Cost-Efficient Computer Controlled Optical Surfacing Process for Correcting Aspheric Lenses using Tool Influence Function based Dwelltime Optimization

机译：利用基于工具影响函数的停留时间优化技术，开发一种经济有效的计算机控制光学表面处理工艺，以校正非球面镜片

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A Computer Controlled Optical Surfacing (CCOS) system has been developed for correcting form errors on aspheric surfaces. Experiments were carried out to find the correlation between different polishing parameters and polishing metrics such as removal rate, uniformity etc. Based on established polishing parameters, polishing process is developed to correct surface errors on planar, spherical and aspheric surfaces. A convolution model between TIF and dwell times was developed to simulate and solve for correction polishing. Surface accuracies of peak-to-valley (PV) 141 nm and root-mean-squared (RMS) 22 nm has been achieved for planar surface. For aspheric surface, current accuracy of 662 nm PV and of 115 nm RMS is achieved with further development ongoing.

机译：为了纠正非球面表面的形状误差，已经开发了一种计算机控制的光学表面处理（CCOS）系统。进行实验以发现不同抛光参数与抛光指标（如去除率，均匀性等）之间的相关性。基于已建立的抛光参数，开发了抛光工艺以校正平面，球形和非球形表面上的表面误差。建立了TIF和停留时间之间的卷积模型，以模拟和求解校正抛光。对于平坦表面，已经实现了峰谷（PV）141 nm和均方根（RMS）22 nm的表面精度。对于非球面，随着进一步的发展，电流精度达到了662 nm PV和115 nm RMS。

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《EOS optical technologies conference》|2019年|3-4|共2页
会议地点 Munich(DE)
作者
Pei Liang Low; Wilhelmus A. C. M. Messelink; Rene Weber;
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Edmund Optics Singapore Pte. Ltd. 18 Woodlands Loop #04-00 Singapore Singapore;

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1. Development of a Cost-Efficient Computer Controlled Optical Surfacing Process for Correcting Aspheric Lenses using Tool Influence Function based Dwelltime Optimization [J] . Pei Liang Low, Wilhelmus A. C. M. Messelink, Rene Weber EPJ Web of Conferences . 2019,第1期

机译：开发一种经济有效的计算机控制光学表面处理工艺，该工艺使用基于刀具影响函数的停留时间优化来校正非球面镜片
2. Distortion of removal function based on the local asphericity of aspheric surface and the viscoelasticity of polishing tool in computer-controlled optical surfacing [J] . Chen Xianhua, Zhong Bo, Wang Jian, Proceedings of the Institution of Mechanical Engineers, Part C. Journal of mechanical engineering science . 2018,第7期

机译：基于非球面非球面的局部非球面的去除功能变形及抛光工具中的抛光工具中的粘弹性
3. Modeling of edge tool influence functions for computer controlled optical surfacing process [J] . Nam Ho-Seok, Kim Gi-Chul, Kim Hak-Sung, The International Journal of Advanced Manufacturing Technology . 2016,第5a8期

机译：用于计算机控制的光学堆焊过程的边缘工具影响函数建模
4. Development of a Cost-Efficient Computer Controlled Optical Surfacing Process for Correcting Aspheric Lenses using Tool Influence Function based Dwelltime Optimization [C] . Pei Liang Low, Wilhelmus A. C. M. Messelink, Rene Weber EOS optical technologies conference . 2019

机译：开发一种经济高效的计算机控制光学浮出工艺，用于使用工具影响基于刀具的替代非球面镜头的替代的DWERTTIME优化
5. Online Hvac Temperature and Air Quality Control for Cost-efficient Commercial Buildings Based on Lyapunov Optimization Technique [D] . MalekSadati, Atiye. 2018

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6. Development of sweet and sour chicken meat spread based on sensory attributes: process optimization using response surface methodology [O] . Anita Arya, S. K. Mendiratta, Tarun Pal Singh, 2017

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7. Non-sequential optimization technique for a computer controlled optical surfacing process using multiple tool influence functions [O] . Dae Wook Kim, Sug-Whan Kim, James H. Burge 2009

机译：使用多个刀具影响功能的计算机控制光学表面处理的非连续优化技术
8. Development of Three-Dimensional Pressure- Distribution Functions for Lifting Surfaces with Trailing-Edge Controls Based on the Integral Equation for Subsonic Flow [R] . Crespo, A. N., Cunningham, H. J. 1969

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Development of a Cost-Efficient Computer Controlled Optical Surfacing Process for Correcting Aspheric Lenses using Tool Influence Function based Dwelltime Optimization

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