AbstractThis paper focuses on demand response in a smart grid scope using a fuzzy subtractive clustering technique for modeling demand response. Domestic consumption is classified into profiles in order to favorable cover the adequate modeling. The fuzzy subtractive clustering technique is applied to a case study of domestic consumption demand response with three scenarios and a comparison of the results is presented. The demand response developed model intends to support consumer's decisions given a compromise between the consumption imperative needs and possible economical benefits due to reshape and reschedule
The use of electricity in household sector has increased, especially during the Covid-19 pandemic. T...
The economic analysis of smart grid capabilities needs to incorporate physical boundaries as hard co...
The use of electricity in household sector has increased, especially during the Covid-19 pandemic. T...
AbstractThis paper focuses on demand response in a smart grid scope using a fuzzy subtractive cluste...
This paper focuses on demand response in a smart grid scope using a fuzzy subtractive clustering tec...
This paper focuses on demand response in a smart grid scope using a fuzzy subtractive clustering tec...
This paper focus on a demand response model analysis in a smart grid context considering a contingen...
This paper proposes a novel demand response model using a fuzzy subtractive cluster approach. The mo...
This paper focuses on an analysis of demand response in a smart grid context, presenting the model c...
This paper focus on a demand response model analysis in a smart grid context considering a contingen...
This paper focuses on computational models development and its applications on demand response, with...
This paper introduces a new clustering approach for multi-customer intelligent demand response for c...
The present study proposes clustering techniques for designing demand response (DR) programs for com...
Load profiling refers to a procedure that leads to the formulation of daily load curves and consumer...
The use of distributed generation and demand-response (DR) programs is needed for improving business...
The use of electricity in household sector has increased, especially during the Covid-19 pandemic. T...
The economic analysis of smart grid capabilities needs to incorporate physical boundaries as hard co...
The use of electricity in household sector has increased, especially during the Covid-19 pandemic. T...
AbstractThis paper focuses on demand response in a smart grid scope using a fuzzy subtractive cluste...
This paper focuses on demand response in a smart grid scope using a fuzzy subtractive clustering tec...
This paper focuses on demand response in a smart grid scope using a fuzzy subtractive clustering tec...
This paper focus on a demand response model analysis in a smart grid context considering a contingen...
This paper proposes a novel demand response model using a fuzzy subtractive cluster approach. The mo...
This paper focuses on an analysis of demand response in a smart grid context, presenting the model c...
This paper focus on a demand response model analysis in a smart grid context considering a contingen...
This paper focuses on computational models development and its applications on demand response, with...
This paper introduces a new clustering approach for multi-customer intelligent demand response for c...
The present study proposes clustering techniques for designing demand response (DR) programs for com...
Load profiling refers to a procedure that leads to the formulation of daily load curves and consumer...
The use of distributed generation and demand-response (DR) programs is needed for improving business...
The use of electricity in household sector has increased, especially during the Covid-19 pandemic. T...
The economic analysis of smart grid capabilities needs to incorporate physical boundaries as hard co...
The use of electricity in household sector has increased, especially during the Covid-19 pandemic. T...