The advent of novel 5G services and applications with binding latency requirements and guaranteed Quality of Service (QoS) hastened the need to incorporate autonomous and proactive decision-making in network management procedures. The objective of our study is to provide a thorough analysis of predictive latency within 5G networks by utilizing real-world network data that is accessible to mobile network operators (MNOs). In particular, (i) we present an analytical formulation of the user-plane latency as a Hypoexponential distribution, which is validated by means of a comparative analysis with empirical measurements, and (ii) we conduct experimental results of probabilistic regression, anomaly detection, and predictive forecasting leveraging on emerging domains in Machine Learning (ML), such as Bayesian Learning (BL) and Machine Learning on Graphs (GML). We test our predictive framework using data gathered from scenarios of vehicular mobility, dense-urban traffic, and social gathering events. Our results provide valuable insights into the efficacy of predictive algorithms in practical applications.

Skocaj, M., Conserva, F., Grande, N.S., Orsi, A., Micheli, D., Ghinamo, G., et al. (2023). Data-driven Predictive Latency for 5G: A Theoretical and Experimental Analysis Using Network Measurements. 345 E 47TH ST, NEW YORK, NY 10017 USA : IEEE [10.1109/pimrc56721.2023.10293861].

Data-driven Predictive Latency for 5G: A Theoretical and Experimental Analysis Using Network Measurements

Skocaj, Marco;Conserva, Francesca;Grande, Nicol Sarcone;Verdone, Roberto
2023

Abstract

The advent of novel 5G services and applications with binding latency requirements and guaranteed Quality of Service (QoS) hastened the need to incorporate autonomous and proactive decision-making in network management procedures. The objective of our study is to provide a thorough analysis of predictive latency within 5G networks by utilizing real-world network data that is accessible to mobile network operators (MNOs). In particular, (i) we present an analytical formulation of the user-plane latency as a Hypoexponential distribution, which is validated by means of a comparative analysis with empirical measurements, and (ii) we conduct experimental results of probabilistic regression, anomaly detection, and predictive forecasting leveraging on emerging domains in Machine Learning (ML), such as Bayesian Learning (BL) and Machine Learning on Graphs (GML). We test our predictive framework using data gathered from scenarios of vehicular mobility, dense-urban traffic, and social gathering events. Our results provide valuable insights into the efficacy of predictive algorithms in practical applications.
2023
2023 IEEE 34th Annual International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC)
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Skocaj, M., Conserva, F., Grande, N.S., Orsi, A., Micheli, D., Ghinamo, G., et al. (2023). Data-driven Predictive Latency for 5G: A Theoretical and Experimental Analysis Using Network Measurements. 345 E 47TH ST, NEW YORK, NY 10017 USA : IEEE [10.1109/pimrc56721.2023.10293861].
Skocaj, Marco; Conserva, Francesca; Grande, Nicol Sarcone; Orsi, Andrea; Micheli, Davide; Ghinamo, Giorgio; Bizzarri, Simone; Verdone, Roberto...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/961754
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