Glass optimization using neural network

Xuemin Cheng; Yongtian Wang; Qun Hao

doi:10.1117/12.579821

Glass optimization using neural network

Xuemin Cheng^*, Yongtian Wang, Qun Hao

^*Corresponding author for this work

School of Optics and Photonics

Beijing Institute of Technology

Research output: Contribution to journal › Conference article › peer-review

Abstract

The possibility of using neural network to handle discrete variables (glass materials) hi lens design is investigated. First, a two-dimensional neuron array is established, in which the minimum of the network energy function corresponds to a design result with controlled chromatic aberrations, acceptable monochromatic aberrations and with a proper combination of selected real glasses. The values of connection matrix and the bias currents are then calculated by means of ray tracing. They are applied to update the neuron asynchronously and randomly, until the valid solutions are achieved. 21 recommended Chinese optical glasses are selected to form a small catalog for the neural network model to reduce the number of the neurons and increase the convergence rate of optimization. A test program is developed using the Macro-PLUS language in CODE V and a double Gauss camera lens is successfully optimized with the model.

Original language	English
Article number	170
Pages (from-to)	941-946
Number of pages	6
Journal	Proceedings of SPIE - The International Society for Optical Engineering
Volume	5638
Issue number	PART 2
DOIs	https://doi.org/10.1117/12.579821
Publication status	Published - 2005
Event	Optical Design and Testing II - Beijing, United States Duration: 8 Nov 2004 → 11 Nov 2004

Keywords

Discrete variable
Glass material
Neural network
Optical system optimization

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10.1117/12.579821

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title = "Glass optimization using neural network",

abstract = "The possibility of using neural network to handle discrete variables (glass materials) hi lens design is investigated. First, a two-dimensional neuron array is established, in which the minimum of the network energy function corresponds to a design result with controlled chromatic aberrations, acceptable monochromatic aberrations and with a proper combination of selected real glasses. The values of connection matrix and the bias currents are then calculated by means of ray tracing. They are applied to update the neuron asynchronously and randomly, until the valid solutions are achieved. 21 recommended Chinese optical glasses are selected to form a small catalog for the neural network model to reduce the number of the neurons and increase the convergence rate of optimization. A test program is developed using the Macro-PLUS language in CODE V and a double Gauss camera lens is successfully optimized with the model.",

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author = "Xuemin Cheng and Yongtian Wang and Qun Hao",

year = "2005",

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TY - JOUR

T1 - Glass optimization using neural network

AU - Cheng, Xuemin

AU - Wang, Yongtian

AU - Hao, Qun

PY - 2005

Y1 - 2005

N2 - The possibility of using neural network to handle discrete variables (glass materials) hi lens design is investigated. First, a two-dimensional neuron array is established, in which the minimum of the network energy function corresponds to a design result with controlled chromatic aberrations, acceptable monochromatic aberrations and with a proper combination of selected real glasses. The values of connection matrix and the bias currents are then calculated by means of ray tracing. They are applied to update the neuron asynchronously and randomly, until the valid solutions are achieved. 21 recommended Chinese optical glasses are selected to form a small catalog for the neural network model to reduce the number of the neurons and increase the convergence rate of optimization. A test program is developed using the Macro-PLUS language in CODE V and a double Gauss camera lens is successfully optimized with the model.

AB - The possibility of using neural network to handle discrete variables (glass materials) hi lens design is investigated. First, a two-dimensional neuron array is established, in which the minimum of the network energy function corresponds to a design result with controlled chromatic aberrations, acceptable monochromatic aberrations and with a proper combination of selected real glasses. The values of connection matrix and the bias currents are then calculated by means of ray tracing. They are applied to update the neuron asynchronously and randomly, until the valid solutions are achieved. 21 recommended Chinese optical glasses are selected to form a small catalog for the neural network model to reduce the number of the neurons and increase the convergence rate of optimization. A test program is developed using the Macro-PLUS language in CODE V and a double Gauss camera lens is successfully optimized with the model.

KW - Discrete variable

KW - Glass material

KW - Neural network

KW - Optical system optimization

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DO - 10.1117/12.579821

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AN - SCOPUS:19844373198

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VL - 5638

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EP - 946

JO - Proceedings of SPIE - The International Society for Optical Engineering

JF - Proceedings of SPIE - The International Society for Optical Engineering

IS - PART 2

M1 - 170

T2 - Optical Design and Testing II

Y2 - 8 November 2004 through 11 November 2004

ER -

Glass optimization using neural network

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