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Publicações

Publicações por Tiago Manuel Campelos

2019

ALBidS: A Decision Support System for Strategic Bidding in Electricity Markets

Autores
Pinto, T; Vale, ZA;

Publicação
Proceedings of the 18th International Conference on Autonomous Agents and MultiAgent Systems, AAMAS '19, Montreal, QC, Canada, May 13-17, 2019

Abstract

2019

Practical Application of a Multi-Agent Systems Society for Energy Management and Control

Autores
Pinto, T; Santos, G; Vale, ZA;

Publicação
Proceedings of the 18th International Conference on Autonomous Agents and MultiAgent Systems, AAMAS '19, Montreal, QC, Canada, May 13-17, 2019

Abstract

2020

MARTINE: Multi-Agent based Real-Time INfrastructure for Energy

Autores
Pinto, T; Gomes, L; Faria, P; Sousa, F; Vale, ZA;

Publicação
Proceedings of the 19th International Conference on Autonomous Agents and Multiagent Systems, AAMAS '20, Auckland, New Zealand, May 9-13, 2020

Abstract

2021

Sparse Training Theory for Scalable and Efficient Agents

Autores
Mocanu, DC; Mocanu, E; Pinto, T; Curci, S; Nguyen, PH; Gibescu, M; Ernst, D; Vale, ZA;

Publicação
AAMAS '21: 20th International Conference on Autonomous Agents and Multiagent Systems, Virtual Event, United Kingdom, May 3-7, 2021.

Abstract

2023

Artificial Intelligence as a Booster of Future Power Systems

Autores
Pinto, T;

Publicação
ENERGIES

Abstract
Worldwide power and energy systems are changing significantly [...]

2021

Electrical Load Demand Forecasting Using Feed-Forward Neural Networks

Autores
Machado, E; Pinto, T; Guedes, V; Morais, H;

Publicação
ENERGIES

Abstract
The higher share of renewable energy sources in the electrical grid and the electrification of significant sectors, such as transport and heating, are imposing a tremendous challenge on the operation of the energy system due to the increase in the complexity, variability and uncertainties associated with these changes. The recent advances of computational technologies and the ever-growing data availability allowed the development of sophisticated and efficient algorithms that can process information at a very fast pace. In this sense, the use of machine learning models has been gaining increased attention from the electricity sector as it can provide accurate forecasts of system behaviour from energy generation to consumption, helping all the stakeholders to optimize their activities. This work develops and proposes a methodology to enhance load demand forecasts using a machine learning model, namely a feed-forward neural network (FFNN), by incorporating an error correction step that involves the prediction of the initial forecast errors by another FFNN. The results showed that the proposed methodology was able to significantly improve the quality of load demand forecasts, demonstrating a better performance than the benchmark models.

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