计算机科学
插值(计算机图形学)
数据库
算法
开发(拓扑)
数据挖掘
人工智能
数学
运动(物理)
数学分析
作者
Maximilian Hoeren,Daniel Zontar,Sebastian Sauer,Arno Schmetz,Marvin Berger,Tobias Müller,Christian Brecher
摘要
Automated active alignment of optical components during the assembly process of optical systems is state of the art in today’s optics-production. With the increasing demand of optical systems in smart devices and automotive technologies, new methods and strategies have to be developed to guarantee rapid and goal-oriented development of active-alignmentalgorithms. A key approach to this is offline development via simulations. This paper presents and evaluates an efficient approach to generate a continuous data-feedback for the offline development of active-alignment-algorithms by interpolation of a discrete database. Dependent on the system-input the described procedure generates the raw, array-like output data of a CCD-chip from the existing data of the local neighborhood.
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