Among the many electrical load disaggregation methods, often referred to as Non-Intrusive Load Monitoring techniques, the Additive Factorial Approximate MAP (AFAMAP) algorithm has shown outstanding capabilities and, therefore, it is nowadays regarded as a reference model. In order to achieve more accurate disaggregation results, and to satisfy real life environment requirements, further improvements in the algorithm are needed. In this work, the AFAMAP algorithm has been extended, by means of a differential forward model, thus complementing the existing differential backward model. Furthermore, an aggregated data examination method has been employed, aimed to the detection of inadmissible working state combinations of appliances, as well as the constraints setting based on the reactive power disaggregation feedback. The new approach has been evaluated by means of a subset, spanning over 6 months, of the Almanac of Minutely Power dataset (AMPds). On purpose, a real life environment, accounting 6 appliances, has been modelled and the carried out experiments revealed a improvement up to 18% with respect to the baseline AFAMAP.

Improving the performance of the AFAMAP algorithm for Non-Intrusive Load Monitoring / Bonfigli, Roberto; Severini, Marco; Squartini, Stefano; Fagiani, Marco; Piazza, Francesco. - ELETTRONICO. - (2016), pp. 303-310. (Intervento presentato al convegno 2016 IEEE Congress on Evolutionary Computation - IEEE CEC 2016 tenutosi a Vancouver, Canada nel 24-29 July 2016) [10.1109/CEC.2016.7743809].

Improving the performance of the AFAMAP algorithm for Non-Intrusive Load Monitoring

Bonfigli, Roberto;SEVERINI, Marco;SQUARTINI, Stefano;FAGIANI, MARCO;PIAZZA, Francesco
2016-01-01

Abstract

Among the many electrical load disaggregation methods, often referred to as Non-Intrusive Load Monitoring techniques, the Additive Factorial Approximate MAP (AFAMAP) algorithm has shown outstanding capabilities and, therefore, it is nowadays regarded as a reference model. In order to achieve more accurate disaggregation results, and to satisfy real life environment requirements, further improvements in the algorithm are needed. In this work, the AFAMAP algorithm has been extended, by means of a differential forward model, thus complementing the existing differential backward model. Furthermore, an aggregated data examination method has been employed, aimed to the detection of inadmissible working state combinations of appliances, as well as the constraints setting based on the reactive power disaggregation feedback. The new approach has been evaluated by means of a subset, spanning over 6 months, of the Almanac of Minutely Power dataset (AMPds). On purpose, a real life environment, accounting 6 appliances, has been modelled and the carried out experiments revealed a improvement up to 18% with respect to the baseline AFAMAP.
2016
978-1-5090-0623-6
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11566/240731
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