Jorge Sasiain scite author profile

Jorge Sasiain

4Publications

19Citation Statements Received

56Citation Statements Given

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Affiliations

University of the Basque Country

Publications

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Towards Flexible Integration of 5G and IIoT Technologies in Industry 4.0: A Practical Use Case

et al. 2020

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The Industry 4.0 revolution envisions fully interconnected scenarios in the manufacturing industry to improve the efficiency, quality, and performance of the manufacturing processes. In parallel, the consolidation of 5G technology is providing substantial advances in the world of communication and information technologies. Furthermore, 5G also presents itself as a key enabler to fulfill Industry 4.0 requirements. In this article, the authors first propose a 5G-enabled architecture for Industry 4.0. Smart Networks for Industry (SN4I) is introduced, an experimental facility based on two 5G key-enabling technologies—Network Functions Virtualization (NFV) and Software-Defined Networking (SDN)—which connects the University of the Basque Country’s Aeronautics Advanced Manufacturing Center and Faculty of Engineering in Bilbao. Then, the authors present the deployment of a Wireless Sensor Network (WSN) with strong access control mechanisms into such architecture, enabling secure and flexible Industrial Internet of Things (IIoT) applications. Additionally, the authors demonstrate the implementation of a use case consisting in the monitoring of a broaching process that makes use of machine tools located in the manufacturing center, and of services from the proposed architecture. The authors finally highlight the benefits achieved regarding flexibility, efficiency, and security within the presented scenario and to the manufacturing industry overall.

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Achieving Low Latency Communications in Smart Industrial Networks with Programmable Data Planes

Atutxa

Franco

Sasiain

et al. 2021

Sensors

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Industrial networks are introducing Internet of Things (IoT) technologies in their manufacturing processes in order to enhance existing methods and obtain smarter, greener and more effective processes. Global predictions forecast a massive widespread of IoT technology in industrial sectors in the near future. However, these innovations face several challenges, such as achieving short response times in case of time-critical applications. Concepts like in-network computing or edge computing can provide adequate communication quality for these industrial environments, and data plane programming has been proved as a useful mechanism for their implementation. Specifically, P4 language is used for the definition of the behavior of programmable switches and network elements. This paper presents a solution for industrial IoT (IIoT) network communications to reduce response times using in-network computing through data plane programming and P4. Our solution processes Message Queuing Telemetry Transport (MQTT) packets sent by a sensor in the data plane and generates an alarm in case of exceeding a threshold in the measured value. The implementation has been tested in an experimental facility, using a Netronome SmartNIC as a P4 programmable network device. Response times are reduced by 74% while processing, and delay introduced by the P4 network processing is insignificant.

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Data Plane Latency Analysis and Prediction Modeling in P4 Programmable Asic-Based Hardware

Zaballa

Franco

Zang

et al. 2023

Preprint

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Towards integrating hardware Data Plane acceleration in Network Functions Virtualization

Franco¹,

Atutxa²,

Sasiain³

et al. 2022

Preprint

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Jorge Sasiain

Towards Flexible Integration of 5G and IIoT Technologies in Industry 4.0: A Practical Use Case

Achieving Low Latency Communications in Smart Industrial Networks with Programmable Data Planes

Data Plane Latency Analysis and Prediction Modeling in P4 Programmable Asic-Based Hardware

Towards integrating hardware Data Plane acceleration in Network Functions Virtualization

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