The ability to reliably predict the future quality of a wireless channel, as seen by the media access control layer, is a key enabler to improve performance of future industrial networks that do not rely on wires. Knowing in advance how much channel behavior may change can speed up procedures for adaptively selecting the best channel, making the network more deterministic, reliable, and less energy-hungry, possibly improving device roaming capabilities at the same time.To this aim, popular approaches based on moving averages and regression were compared, using multiple key performance indicators, on data captured from a real Wi-Fi setup. Moreover, a simple technique based on a linear combination of outcomes from different techniques was presented and analyzed, to further reduce the prediction error, and some considerations about lower bounds on achievable errors have been reported. We found that the best model is the exponential moving average, which managed to predict the frame delivery ratio with a 2.10% average error and, at the same time, has lower computational complexity and memory consumption than the other models we analyzed.

Predicting Wireless Channel Quality by means of Moving Averages and Regression Models / Formis, G; Scanzio, S; Cena, G; Valenzano, A. - (2023), pp. 1-8. (Intervento presentato al convegno 2023 IEEE 19th International Conference on Factory Communication Systems (WFCS) tenutosi a Pavia nel 26-28 April 2023) [10.1109/WFCS57264.2023.10144122].

Predicting Wireless Channel Quality by means of Moving Averages and Regression Models

Formis, G;Scanzio, S;Cena, G;Valenzano, A
2023

Abstract

The ability to reliably predict the future quality of a wireless channel, as seen by the media access control layer, is a key enabler to improve performance of future industrial networks that do not rely on wires. Knowing in advance how much channel behavior may change can speed up procedures for adaptively selecting the best channel, making the network more deterministic, reliable, and less energy-hungry, possibly improving device roaming capabilities at the same time.To this aim, popular approaches based on moving averages and regression were compared, using multiple key performance indicators, on data captured from a real Wi-Fi setup. Moreover, a simple technique based on a linear combination of outcomes from different techniques was presented and analyzed, to further reduce the prediction error, and some considerations about lower bounds on achievable errors have been reported. We found that the best model is the exponential moving average, which managed to predict the frame delivery ratio with a 2.10% average error and, at the same time, has lower computational complexity and memory consumption than the other models we analyzed.
2023
978-1-6654-6432-1
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2982029