KDSource, a tool for the generation of Monte Carlo particle sources using kernel density estimation

N. S. Schmidt; O. I. Abbate; Z. M. Prieto; J. I. Robledo; J. I. Márquez Damián; A. A. Márquez; J. Dawidowski

doi:10.1016/j.anucene.2022.109309

KDSource, a tool for the generation of Monte Carlo particle sources using kernel density estimation

N. S. Schmidt, O. I. Abbate, Z. M. Prieto, J. I. Robledo, J. I. Márquez Damián, A. A. Márquez, J. Dawidowski

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Monte Carlo radiation transport simulations have clearly contributed to improve the design of nuclear systems. When performing in-beam or shielding simulations a complexity arises due to the fact that particles must be tracked to regions far from the original source or behind the shielding, often lacking sufficient statistics. Different possibilities to overcome this problem such as using particle lists or generating synthetic sources have already been reported. In this work we present a new approach by using the adaptive multivariate kernel density estimator (KDE) method. This concept was implemented in KDSource, a general tool for modelling, optimizing and sampling KDE sources, which provides a convenient user interface. The basic properties of the method were studied in an analytical problem with a known density distribution. Furthermore, the tool was used in two Monte Carlo simulations that modelled neutron beams, which showed good agreement with experimental results.

Original language	English
Article number	109309
Journal	Annals of Nuclear Energy
Volume	177
DOIs	https://doi.org/10.1016/j.anucene.2022.109309
State	Published - Nov 2022
Externally published	Yes

Funding

Funding from Universidad Nacional de Cuyo (Project 06-C563), ANPCYT (Agencia Nacional de Promoción Científica y Tecnológica - Argentina) (PICT 2019–02665) and CNEA (Argentine National Commission of Atomic Energy) are gratefully acknowledged.

Keywords

Kernel density estimation
Monte Carlo
Phase space
Source particles sampling
Track files

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10.1016/j.anucene.2022.109309

Cite this

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title = "KDSource, a tool for the generation of Monte Carlo particle sources using kernel density estimation",

abstract = "Monte Carlo radiation transport simulations have clearly contributed to improve the design of nuclear systems. When performing in-beam or shielding simulations a complexity arises due to the fact that particles must be tracked to regions far from the original source or behind the shielding, often lacking sufficient statistics. Different possibilities to overcome this problem such as using particle lists or generating synthetic sources have already been reported. In this work we present a new approach by using the adaptive multivariate kernel density estimator (KDE) method. This concept was implemented in KDSource, a general tool for modelling, optimizing and sampling KDE sources, which provides a convenient user interface. The basic properties of the method were studied in an analytical problem with a known density distribution. Furthermore, the tool was used in two Monte Carlo simulations that modelled neutron beams, which showed good agreement with experimental results.",

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year = "2022",

month = nov,

doi = "10.1016/j.anucene.2022.109309",

language = "English",

volume = "177",

journal = "Annals of Nuclear Energy",

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AU - Schmidt, N. S.

AU - Abbate, O. I.

AU - Prieto, Z. M.

AU - Robledo, J. I.

AU - Márquez Damián, J. I.

AU - Márquez, A. A.

AU - Dawidowski, J.

PY - 2022/11

Y1 - 2022/11

N2 - Monte Carlo radiation transport simulations have clearly contributed to improve the design of nuclear systems. When performing in-beam or shielding simulations a complexity arises due to the fact that particles must be tracked to regions far from the original source or behind the shielding, often lacking sufficient statistics. Different possibilities to overcome this problem such as using particle lists or generating synthetic sources have already been reported. In this work we present a new approach by using the adaptive multivariate kernel density estimator (KDE) method. This concept was implemented in KDSource, a general tool for modelling, optimizing and sampling KDE sources, which provides a convenient user interface. The basic properties of the method were studied in an analytical problem with a known density distribution. Furthermore, the tool was used in two Monte Carlo simulations that modelled neutron beams, which showed good agreement with experimental results.

AB - Monte Carlo radiation transport simulations have clearly contributed to improve the design of nuclear systems. When performing in-beam or shielding simulations a complexity arises due to the fact that particles must be tracked to regions far from the original source or behind the shielding, often lacking sufficient statistics. Different possibilities to overcome this problem such as using particle lists or generating synthetic sources have already been reported. In this work we present a new approach by using the adaptive multivariate kernel density estimator (KDE) method. This concept was implemented in KDSource, a general tool for modelling, optimizing and sampling KDE sources, which provides a convenient user interface. The basic properties of the method were studied in an analytical problem with a known density distribution. Furthermore, the tool was used in two Monte Carlo simulations that modelled neutron beams, which showed good agreement with experimental results.

KW - Kernel density estimation

KW - Monte Carlo

KW - Phase space

KW - Source particles sampling

KW - Track files

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DO - 10.1016/j.anucene.2022.109309

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JO - Annals of Nuclear Energy

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M1 - 109309

ER -

KDSource, a tool for the generation of Monte Carlo particle sources using kernel density estimation

Abstract

Funding

Keywords

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