Towards the Best Solution for Complex System Reliability: Can Statistics Outperform Machine Learning?
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Gámiz Pérez, María Luz; Navas-Gómez, Fernando; Nozal Cañadas, Rafael Adolfo; Raya Miranda, RocíoEditorial
MDPI
Date
2024-12-11Referencia bibliográfica
Gámiz et al. (2024) Towards the Best Solution for Complex System Reliability: Can Statistics Outperform Machine Learning? Machines, 12, 909
Abstract
Studying the reliability of complex systems using machine learning techniques involves facing a series of technical and practical challenges, ranging from the intrinsic nature of the system and data to the difficulties in modeling and effectively deploying models in real-world scenarios. This study compares the effectiveness of classical statistical techniques and machine learning methods
for improving complex system analysis in reliability assessments. Our goal is to show that in many practical applications, traditional statistical algorithms frequently produce more accurate and interpretable results compared with black-box machine learning methods. The evaluation is conducted using both real-world data and simulated scenarios. We report the results obtained from
statistical modeling algorithms, as well as from machine learning methods including neural networks, K-nearest neighbors, and random forests.