Nowadays, the Internet of Things is spreading in several different research fields, such as factory automation, instrumentation and measurement, and process control, where it is referred to as Industrial Internet of Things. In these scenarios, wireless communication represents a key aspect to guarantee the required pervasive connectivity required. In particular, Wi-Fi networks are revealing ever more attractive also in time- and mission-critical applications, such as distributed measurement systems. Also, the multi-rate support feature of Wi-Fi, which is implemented by rate adaptation (RA) algorithms, demonstrated its effectiveness to improve reliability and timeliness. In this paper, we propose an enhancement of RSIN, which is a RA algorithm specifically conceived for industrial real-time applications. The new algorithm starts from the assumption that an SNR measure has been demonstrated to be effective to perform RA, and bases on Reinforcement Learning techniques. In detail, we start from the design of the algorithm and its implementation on the OmNet++ simulator. Then, the simulation model is adequately calibrated exploiting the results of a measurement campaign, to reflect the channel behavior typical of industrial environments. Finally, we present the results of an extensive performance assessment that demonstrate the effectiveness of the proposed technique.

SNR-based Reinforcement Learning Rate Adaptation for Time Critical Wi-Fi Networks: Assessment through a Calibrated Simulator / Peserico, G.; Fedullo, T.; Morato, A.; Tramarin, F.; Rovati, L.; Vitturi, S.. - 2021-:(2021), pp. 1-6. (Intervento presentato al convegno 2021 IEEE International Instrumentation and Measurement Technology Conference, I2MTC 2021 tenutosi a Technology and Innovation Centre (TIC), gbr nel 2021) [10.1109/I2MTC50364.2021.9460075].

SNR-based Reinforcement Learning Rate Adaptation for Time Critical Wi-Fi Networks: Assessment through a Calibrated Simulator

Tramarin F.
;
Rovati L.;
2021

Abstract

Nowadays, the Internet of Things is spreading in several different research fields, such as factory automation, instrumentation and measurement, and process control, where it is referred to as Industrial Internet of Things. In these scenarios, wireless communication represents a key aspect to guarantee the required pervasive connectivity required. In particular, Wi-Fi networks are revealing ever more attractive also in time- and mission-critical applications, such as distributed measurement systems. Also, the multi-rate support feature of Wi-Fi, which is implemented by rate adaptation (RA) algorithms, demonstrated its effectiveness to improve reliability and timeliness. In this paper, we propose an enhancement of RSIN, which is a RA algorithm specifically conceived for industrial real-time applications. The new algorithm starts from the assumption that an SNR measure has been demonstrated to be effective to perform RA, and bases on Reinforcement Learning techniques. In detail, we start from the design of the algorithm and its implementation on the OmNet++ simulator. Then, the simulation model is adequately calibrated exploiting the results of a measurement campaign, to reflect the channel behavior typical of industrial environments. Finally, we present the results of an extensive performance assessment that demonstrate the effectiveness of the proposed technique.
2021
2021 IEEE International Instrumentation and Measurement Technology Conference, I2MTC 2021
Technology and Innovation Centre (TIC), gbr
2021
2021-
1
6
Peserico, G.; Fedullo, T.; Morato, A.; Tramarin, F.; Rovati, L.; Vitturi, S.
SNR-based Reinforcement Learning Rate Adaptation for Time Critical Wi-Fi Networks: Assessment through a Calibrated Simulator / Peserico, G.; Fedullo, T.; Morato, A.; Tramarin, F.; Rovati, L.; Vitturi, S.. - 2021-:(2021), pp. 1-6. (Intervento presentato al convegno 2021 IEEE International Instrumentation and Measurement Technology Conference, I2MTC 2021 tenutosi a Technology and Innovation Centre (TIC), gbr nel 2021) [10.1109/I2MTC50364.2021.9460075].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1269479
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