Luigi Scarcello scite author profile

Luigi Scarcello

5Publications

70Citation Statements Received

18Citation Statements Given

How they've been cited

101

How they cite others

Affiliations

Institute for High Performance Computing and Networking, University of Calabria

Publications

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Optimization Model for IoT-Aware Energy Exchange in Energy Communities for Residential Users

2020

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In recent years, the distribution of local and renewable generation plants has introduced significant challenges in the management of electrical energy. In order to increase the usage of renewable energy, the prosumers, i.e., the residential users that can act both as producers and consumers, can benefit from joining together and forming energy communities. The deployment of an energy community is based both on technological advancements and on a deep understanding of human decision-making, which in turn requires knowledge about the factors that influence the behavior of residential users. This new scenario calls for great research investigations aimed to improve the management of energy exchanges inside energy communities. An important role in this context is played by the Internet of Things (IoT) technology, as smart IoT objects are used both as a source of real-time information regarding the energy production and the users’ requirements, and as actuators that can help to regulate the distribution and use of energy. In this paper, an IoT-aware optimization model for the energy management in energy communities is presented. The main novelty consists in modeling the entire energy community as a whole, rather than each prosumer separately, with the goal of optimizing the energy sharing and balance at the community level. Experimental results, performed in an university campus, show the advantages of the approach and its capability of reducing the energy costs and increasing the community’s energy autonomy.

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An Energy Box in a Cloud-Based Architecture for Autonomous Demand Response of Prosumers and Prosumages

et al. 2017

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Abstract:The interest in the implementation of demand response programs for domestic customers within the framework of smart grids is increasing, both from the point of view of scientific research and from the point of view of real applications through pilot projects. A fundamental element of any demand response program is the introduction at customer level of a device, generally named energy box, able to allow interaction between customers and the aggregator. This paper proposes two laboratory prototypes of a low-cost energy box, suitable for cloud-based architectures for autonomous demand response of prosumers and prosumages. Details on how these two prototypes have been designed and built are provided in the paper. Both prototypes are tested in the laboratory along with a demonstration panel of a residential unit, equipped with a real home automation system. Laboratory tests demonstrate the feasibility of the proposed prototypes and their capability in executing the customers' loads scheduling returned by the solution of the demand-response problem. A personal computer and Matlab software implement the operation of the aggregator, i.e., the intermediary of the energy-integrated community constituted by the customers themselves, who participate in the demand response program.

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A Unified Model for the Optimal Management of Electrical and Thermal Equipment of a Prosumer in a DR Environment

Belli

Giordano²,

Mastroianni³

et al. 2019

IEEE Trans. Smart Grid

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An Optimization Model for Efficient Energy Exchange in Energy Communities

Giordano¹,

Mastroianni²,

Scarcello³

et al. 2020

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A Two-Stage Approach for Efficient Power Sharing Within Energy Districts

Giordano

Mastroianni

Menniti

et al. 2021

IEEE Trans. Syst. Man Cybern, Syst.

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Luigi Scarcello

Optimization Model for IoT-Aware Energy Exchange in Energy Communities for Residential Users

An Energy Box in a Cloud-Based Architecture for Autonomous Demand Response of Prosumers and Prosumages

A Unified Model for the Optimal Management of Electrical and Thermal Equipment of a Prosumer in a DR Environment

An Optimization Model for Efficient Energy Exchange in Energy Communities

A Two-Stage Approach for Efficient Power Sharing Within Energy Districts

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