Matteo Orlando scite author profile

Matteo Orlando

5Publications

19Citation Statements Received

70Citation Statements Given

How they've been cited

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130

Affiliations

Polytechnic University of Turin

Publications

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A Smart Meter Infrastructure for Smart Grid IoT Applications

Orlando

Estebsari

Pons

et al. 2022

IEEE Internet Things J.

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Electric infrastructures have been pushed forward to handle tasks they were not originally designed to perform. To improve reliability and efficiency, state-of-the-art power grids include improved security, reduced peak loads, increased integration of renewable sources, and lower operational costs. In this framework, "smart grids" are built around bidirectional communication technologies, where "smart meters" communicate with all other entities and collect data from the power grid, offering specific features to each actor playing in the energy marketplace. In this paper, to overcome some of the challenges raised by smart grids and smart meters, we propose a distributed metering infrastructure which provides bidirectional communication, self-configuration, and auto-update capabilities. Our 3-phase smart meters follow the basics Internet-of-Things principles and have the ability to run, either on-board or distributed on the network, multiple algorithms for smart grid management. These algorithms can be freely added, updated, or removed on-the-fly thanks to the auto-update feature of the system. Moreover, to reduce costs and improve scalability, we prove that it is possible to implement our smart meters using only off-the-shelf and inexpensive hardware devices. A digital real-time simulator (i.e., Opal-RT) has been used to assess the capabilities of both the infrastructure and the meter. Our experimental analysis shows that the latency introduced by the data transmission over the Internet is compliant with the limits imposed by the IEC 61850 standard. As a consequence, our architecture does not affect the operational status of the smart grid, making it a viable solution to support the deployment of novel services.

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Optimal Configuration and Placement of PV Systems in Building Roofs with Cost Analysis

Orlando

Bottaccioli

Patti

et al. 2020

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A resources ecosystem for digital and heritage-led holistic knowledge in rural regeneration

Tamborrino

Patti

Aliberti

et al. 2022

Journal of Cultural Heritage

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Data-Driven Predictive Maintenance: A Methodology Primer

Cerquitelli

Nikolakis

Morra

et al. 2021

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A Novel Internet-of-Things Infrastructure to Support Self-Healing Distribution Systems

Estebsari

Orlando

Pons

et al. 2018

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In this paper, we present a novel distributed software infrastructure to foster new services in smart grids with particular emphasis on supporting self-healing distribution systems. This infrastructure exploits the rising Internet-of-Things paradigms to build and manage an interoperable peer-to-peer network of our prototype smart meters, also presented in this paper. The proposed three-phase smart meter, called 3-SMA, is a low cost and open-source Internet-connected device that provides features for self-configuration. In addition, it selectively run onboard-algorithms for smart grid management depending on its deployment on the distribution network. Finally, we present the experimental results of Hardware-In-the-Loop simulations we performed.

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Matteo Orlando

A Smart Meter Infrastructure for Smart Grid IoT Applications

Optimal Configuration and Placement of PV Systems in Building Roofs with Cost Analysis

A resources ecosystem for digital and heritage-led holistic knowledge in rural regeneration

Data-Driven Predictive Maintenance: A Methodology Primer

A Novel Internet-of-Things Infrastructure to Support Self-Healing Distribution Systems

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