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A publicação pode ser exportada nos seguintes formatos: referência da APA (American Psychological Association), referência do IEEE (Institute of Electrical and Electronics Engineers), BibTeX e RIS.

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Noetzold, D., Rossetto, A. G. D. M., Leithardt, V. R. Q. & Costa, H. J. de M. (2024). Enhancing infrastructure observability: Machine learning for proactive monitoring and anomaly detection . Journal of Internet Services and Applications. 15 (1), 508-522

Exportar Referência (IEEE)

D. Noetzold et al.,  "Enhancing infrastructure observability: Machine learning for proactive monitoring and anomaly detection ", in Journal of Internet Services and Applications, vol. 15, no. 1, pp. 508-522, 2024

Exportar BibTeX

@article{noetzold2024_1732207136002,
	author = "Noetzold, D. and Rossetto, A. G. D. M. and Leithardt, V. R. Q. and Costa, H. J. de M.",
	title = "Enhancing infrastructure observability: Machine learning for proactive monitoring and anomaly detection ",
	journal = "Journal of Internet Services and Applications",
	year = "2024",
	volume = "15",
	number = "1",
	doi = "10.5753/jisa.2024.4509",
	pages = "508-522",
	url = "https://journals-sol.sbc.org.br/index.php/jisa/about"
}

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TY - JOUR
TI - Enhancing infrastructure observability: Machine learning for proactive monitoring and anomaly detection
T2 - Journal of Internet Services and Applications
VL - 15
IS - 1
AU - Noetzold, D.
AU - Rossetto, A. G. D. M.
AU - Leithardt, V. R. Q.
AU - Costa, H. J. de M.
PY - 2024
SP - 508-522
SN - 1867-4828
DO - 10.5753/jisa.2024.4509
UR - https://journals-sol.sbc.org.br/index.php/jisa/about
AB - This study addresses the critical challenge of proactive anomaly detection and efficient resource man-agement in infrastructure observability. Introducing an innovative approach to infrastructure monitoring, this workintegrates machine learning models into observability platforms to enhance real-time monitoring precision. Employ-ing a microservices architecture, the proposed system facilitates swift and proactive anomaly detection, addressingthe limitations of traditional monitoring methods that often fail to predict potential issues before they escalate. Thecore of this system lies in its predictive models that utilize Random Forest, Gradient Boosting, and Support VectorMachine algorithms to forecast crucial metric behaviors, such as CPU usage and memory allocation. The empiri-cal results underscore the system’s efficacy, with the GradientBoostingRegressor model achieving an R² score of0.86 for predicting request rates, and the RandomForestRegressor model significantly reducing the Mean SquaredError by 2.06% for memory usage predictions compared to traditional monitoring methods. These findings not onlydemonstrate the potential of machine learning in enhancing observability but also pave the way for more resilientand adaptive infrastructure management.
ER -