Multi-objective genetic algorithm optimization of a directionally sensitive radiation detection system using a surrogate transport model

Direction-sensitive and imaging radiation detection systems often rely on complicated mask geometries to reconstruct source positions and images. Optimizing the design of these masks is difficult, often non-intuitive, and computationally intensive due to the radiation transport involved. Advances in...

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Published in:Engineering applications of artificial intelligence Vol. 104; p. 104357
Main Authors: Holland, Darren E., Olesen, Robert J., Bevins, James E.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.09.2021
Subjects:
Genetic algorithm
Monte Carlo radiation transport
Multi-objective optimization
Radioactive source direction
Rotating scatter mask
Surrogate model
Rotating scatter mask
Monte Carlo radiation transport
Multi-objective optimization
Radioactive source direction
Surrogate model
Genetic algorithm
ISSN:0952-1976, 1873-6769
Online Access:Get full text
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Abstract Direction-sensitive and imaging radiation detection systems often rely on complicated mask geometries to reconstruct source positions and images. Optimizing the design of these masks is difficult, often non-intuitive, and computationally intensive due to the radiation transport involved. Advances in computational resources, efficient, stochastic optimization techniques, and improved variance reduction in radiation transport through hybrid deterministic-Monte Carlo methods have enabled researchers to consider methods to find formal optimal solutions for these systems. However, many systems span a complex and large design space making full radiation transport simulations to inform the optimization routine computationally intractable. This work applies a multi-objective genetic algorithm to a generalizable surrogate model, benchmarked through full Monte Carlo radiation transport simulations, to determine the optimal design for the rotating scatter mask directionally-sensitive detection system. Performing the equivalent optimization of 10,000 design evaluations with Monte Carlo radiation transport simulations would take 460 CPU-years. In contrast, the 10,000 surrogate design evaluations produced Pareto frontiers comparable to the Monte Carlo results, while reducing the computational cost by 99.998% to 4.1 CPU-days. The chosen optimal designs maintain high directional accuracy with respect to the original design, while improving the response basis similarity by 14% and increasing the efficiency by a factor of 40 at the cost of increasing the mask’s mass by a factor of 3. •Multi-objective genetic algorithm provided multiple valid Pareto designs.•Average computational cost reduced by 99.998% by using surrogate approach.•Monte Carlo and surrogate simulations produce similar optimal solutions.•Optimized design increases accuracy and efficiency, while remaining portable.
AbstractList Direction-sensitive and imaging radiation detection systems often rely on complicated mask geometries to reconstruct source positions and images. Optimizing the design of these masks is difficult, often non-intuitive, and computationally intensive due to the radiation transport involved. Advances in computational resources, efficient, stochastic optimization techniques, and improved variance reduction in radiation transport through hybrid deterministic-Monte Carlo methods have enabled researchers to consider methods to find formal optimal solutions for these systems. However, many systems span a complex and large design space making full radiation transport simulations to inform the optimization routine computationally intractable. This work applies a multi-objective genetic algorithm to a generalizable surrogate model, benchmarked through full Monte Carlo radiation transport simulations, to determine the optimal design for the rotating scatter mask directionally-sensitive detection system. Performing the equivalent optimization of 10,000 design evaluations with Monte Carlo radiation transport simulations would take 460 CPU-years. In contrast, the 10,000 surrogate design evaluations produced Pareto frontiers comparable to the Monte Carlo results, while reducing the computational cost by 99.998% to 4.1 CPU-days. The chosen optimal designs maintain high directional accuracy with respect to the original design, while improving the response basis similarity by 14% and increasing the efficiency by a factor of 40 at the cost of increasing the mask’s mass by a factor of 3. •Multi-objective genetic algorithm provided multiple valid Pareto designs.•Average computational cost reduced by 99.998% by using surrogate approach.•Monte Carlo and surrogate simulations produce similar optimal solutions.•Optimized design increases accuracy and efficiency, while remaining portable.
ArticleNumber 104357
Author Olesen, Robert J.
Holland, Darren E.
Bevins, James E.
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Keywords Rotating scatter mask
Monte Carlo radiation transport
Multi-objective optimization
Radioactive source direction
Surrogate model
Genetic algorithm
Language English
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Snippet Direction-sensitive and imaging radiation detection systems often rely on complicated mask geometries to reconstruct source positions and images. Optimizing...
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StartPage 104357
SubjectTerms Genetic algorithm
Monte Carlo radiation transport
Multi-objective optimization
Radioactive source direction
Rotating scatter mask
Surrogate model
Title Multi-objective genetic algorithm optimization of a directionally sensitive radiation detection system using a surrogate transport model
URI https://dx.doi.org/10.1016/j.engappai.2021.104357
Volume 104
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