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A comparative study of machine learning methods for automated identification of radioisotopes using NaI gamma-ray spectra

Shaikat M. Galib, Palash Kumar Bhowmik, Ashish Avachat, Hyoung‐Koo Lee

2021Nuclear Engineering and Technology67 citationsDOIOpen Access PDF

Abstract

This article presents a study on the state-of-the-art methods for automated radioactive material detection and identification, using gamma-ray spectra and modern machine learning methods. The recent developments inspired this in deep learning algorithms, and the proposed method provided better performance than the current state-of-the-art models. Machine learning models such as: fully connected, recurrent, convolutional, and gradient boosted decision trees, are applied under a wide variety of testing conditions, and their advantage and disadvantage are discussed. Furthermore, a hybrid model is developed by combining the fully-connected and convolutional neural network, which shows the best performance among the different machine learning models. These improvements are represented by the model's test performance metric (i.e., F1 score) of 93.33% with an improvement of 2%–12% than the state-of-the-art model at various conditions. The experimental results show that fusion of classical neural networks and modern deep learning architecture is a suitable choice for interpreting gamma spectra data where real-time and remote detection is necessary.

Topics & Concepts

Machine learningArtificial intelligenceConvolutional neural networkComputer scienceDeep learningMetric (unit)Identification (biology)Artificial neural networkVariety (cybernetics)EngineeringBiologyBotanyOperations managementNuclear Physics and ApplicationsRadiation Detection and Scintillator TechnologiesRadioactivity and Radon Measurements