Author:
Wu Bowen,Hsueh Boren,Lin Wenchieh,Huang Chouchun,Kao Chihchen
Abstract
Abstract
This research aims to develop a model for selecting bifocal glass lens based on their formal design, configuration, and optical properties, particularly chromatic aberration. The model optimization integrates Taguchi-Fuzzy theoretical analysis. By utilizing the Fuzzy theory system along with Taguchi L9 orthogonal table, the model achieves high-precision experimental results with a minimal number of designs, leading to the identification of the optimal design combination. The first section of the study explains the motivation behind the research and conducts a literature review to analyze the optical quality parameters of bifocal glass lens. The second section focuses on the analysis of lens optical lateral and longitudinal chromatic aberrations, optimizing the chromatic aberration model through the application of the Taguchi-Fuzzy experimental method. The feasibility of the model is then validated through variance analysis. Finally, the third section provides a summary of the bifocal glass lens selection model, highlighting its contributions to design, practicality, analysis, innovation, and overall advancements in the field.
Subject
Computer Science Applications,History,Education
Reference12 articles.
1. Optimizing Chromatic Aberration Calibration Using a Novel Genetic Algorithm[J];Wu;Journal of Modern Optics,2006
2. Eliminating Lateral Color Aberration of High-Resolution Digital Complex Projection Lens Using a Novel Genetic Algorithm[J];Wu;Optical Engineering,2007
3. Chromatic Aberration Elimination for Digital Rear Projection Television L-type Lens by Genetic Algorithms[J];Fang;Optics and Lasers in Engineering,2008
4. Primary Chromatic Aberration Elimination via Optimization Work with Genetic Algorithm[C];Wu;Proceedings of SPIE,2009
5. Lateral chromatic aberration correction method and lens design feedback for dynamic optical tilt[J];Kee;Results in Optics,2021