The increasing growth of electricity usage in buildings points out the significant role of residential users in the programs for the efficient control and management of electrical energy. The shaving of consumption peaks in household is becoming an integral part of the national energy strategies to reduce the risk of blackouts and ensure environmental sustainability of new urban context. This paper investigates the use of the paradigm of swarm intelligence to scheduling the operation of household appliances in order to reduce to smooth the variation and reduce the peak-to-average ratio of total electricity demand at home. Simulation results confirm the proposed approach
Demand management is mechanism to shift the demand of electricity from peak to off-peak to use the a...
With recent developments, smart grids assured for residential customers the opportunity to schedule ...
In a smart grid, several optimization techniques have been developed to schedule load in the residen...
The smart home infrastructure features the automatic control of various household appliances in the ...
The emergence of smart Internet of Things (IoT) devices has highly favored the realization of smart ...
Part 4: Smart Environments, Agents, and RobotsInternational audienceDemand response can potentially ...
The residential sector is a major contributor to the global energy demand. The energy demand for the...
In a Smart Grid (SG) scenario, domestic consumers can gain cost reduction benefit by scheduling thei...
Energy flexibility will play a key role in the proper functioning of energy systems, introducing a s...
With the continuous growth in population and energy demands, more attention is being paid to energy ...
In this work, we propose a Realistic Scheduling Mechanism (RSM) to reduce user frustration and enhan...
In this work, the Genetic Algorithm is explored for solving a predictive based demand side managemen...
To implement demand response in residential sector and facilitate the integration of renewable resou...
Copyright © 2013 Armin Dehnad, Hamed Shakouri G. This is an open access article distributed under th...
Energy management in smart home environment is nowadays a crucial aspect on which technologies have ...
Demand management is mechanism to shift the demand of electricity from peak to off-peak to use the a...
With recent developments, smart grids assured for residential customers the opportunity to schedule ...
In a smart grid, several optimization techniques have been developed to schedule load in the residen...
The smart home infrastructure features the automatic control of various household appliances in the ...
The emergence of smart Internet of Things (IoT) devices has highly favored the realization of smart ...
Part 4: Smart Environments, Agents, and RobotsInternational audienceDemand response can potentially ...
The residential sector is a major contributor to the global energy demand. The energy demand for the...
In a Smart Grid (SG) scenario, domestic consumers can gain cost reduction benefit by scheduling thei...
Energy flexibility will play a key role in the proper functioning of energy systems, introducing a s...
With the continuous growth in population and energy demands, more attention is being paid to energy ...
In this work, we propose a Realistic Scheduling Mechanism (RSM) to reduce user frustration and enhan...
In this work, the Genetic Algorithm is explored for solving a predictive based demand side managemen...
To implement demand response in residential sector and facilitate the integration of renewable resou...
Copyright © 2013 Armin Dehnad, Hamed Shakouri G. This is an open access article distributed under th...
Energy management in smart home environment is nowadays a crucial aspect on which technologies have ...
Demand management is mechanism to shift the demand of electricity from peak to off-peak to use the a...
With recent developments, smart grids assured for residential customers the opportunity to schedule ...
In a smart grid, several optimization techniques have been developed to schedule load in the residen...