Alberto Morato scite author profile

Alberto Morato

4Publications

43Citation Statements Received

33Citation Statements Given

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Affiliations

National Research Council, Institute of Electronics, Computer and Telecommunication Engineering, University of Padua

Publications

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Rate Adaptation by Reinforcement Learning for Wi-Fi Industrial Networks

Peserico

Fedullo

Morato³

et al. 2020

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Wireless technologies play a key role in the Industrial Internet of Things (IIoT) scenario, for the development of increasingly flexible and interconnected factory systems. Wi-Fi remains particularly attracting due to its pervasiveness and high achievable data rates. Furthermore, its Rate Adaptation (RA) capabilities make it suitable to the harsh industrial environments, provided that specifically designed RA algorithms are deployed. To this aim, this paper proposes to exploit Reinforcement Learning (RL) techniques to design an industry-specific RA algorithm. The RL is spreading in many fields since it allows to design intelligent systems by means of a stochastic discrete-time system based approach. In this work we propose to enhance the Robust Rate Adaptation Algorithm (RRAA) by means of a RL approach. The preliminary assessment of the designed RA algorithm is carried out through meaningful OMNeT++ simulations, that allow to recognize the beneficial impact of the introduction of RL with respect to several industry-specific performance indicators.

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Functional Safety Networks and Protocols in the Industrial Internet of Things Era

Peserico

Morato

Tramarin

et al. 2021

Sensors

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Functional safety networks are becoming of paramount importance in industrial systems, due to the progressive innovation introduced by the Industry 4.0 paradigm, characterized by high production flexibility, reliability and scalability. In this context, new and challenging applications have emerged such as hyperautomation, which refers to the combination of machine vision, robotics, communication, and learning, with the explicit involvement of humans. This requires the pervasive and ubiquitous connectivity encompassed by the Industrial Internet of Things, typically achieved via wireless systems. As an example, wireless communications are today fundamental to open up to new categories of autonomous devices that can actively collaborate with human personnel in the production process. This challenging scenario has important implications for safety. Indeed, a reliable coordination among sensors, actuators and computing systems is required to provide satisfactory levels of safety, especially in the case of innovative processes and technologies, such as mobile and collaborative robotics. Hence, it becomes imperative to ensure the correct transfer of safety-critical data via communication networks. In this paper, we address the challenges concerned with functional safety networks and protocols in Industrial Internet of Things ecosystems. We first introduce the design characteristics of functional safety networks and discuss the adoption of safety protocols over wireless networks. Then, we specifically address one of such protocols, namely Fail Safety over EtherCAT (FSoE), and provide the results of an extensive experimental session carried out exploiting a prototype system, implemented using commercial devices based on a WiFi network. Finally, the outcomes of the experiments are used as a basis for a discussion about future trends of functional safety in the Industrial Internet of Things era.

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Adaptive LoRaWAN Transmission exploiting Reinforcement Learning: the Industrial Case

Fedullo

Morato²,

Tramarin

et al. 2021

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Assessment of Different OPC UA Implementations for Industrial IoT-Based Measurement Applications

Morato

Vitturi

Tramarin

et al. 2021

IEEE Trans. Instrum. Meas.

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Alberto Morato

Rate Adaptation by Reinforcement Learning for Wi-Fi Industrial Networks

Functional Safety Networks and Protocols in the Industrial Internet of Things Era

Adaptive LoRaWAN Transmission exploiting Reinforcement Learning: the Industrial Case

Assessment of Different OPC UA Implementations for Industrial IoT-Based Measurement Applications

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