Evolution of smart grid concept aims to address the imbalance between electricity demand and supply. Owing to consideration on sustainable energy, user comfort, and cost efficiency, residential Demand Response (DR) has gained a remarkable popularity over the past few years. To further enhance these benefits, herein we propose a residential appliance scheduling algorithm inspired by Least Slack Time (LST) algorithm. The conventional LST algorithm is amended with consumption thresholds and waiting factor constraints to derive proposed Minimum Slack Time (MST) algorithm, which increase cost and comfort efficiency during DR. Proposed algorithm was experimented in a simulated residential community consists of 50 houses. Further experiments were ...
The smart grid opens the possibility for Demand Response (DR) programs. In order for end-users to ob...
Abstract—In this paper, we propose a novel optimization-based real-time residential load management ...
Abstract—Flattening household electricity demand reduces generation costs, since costs are dispropor...
Demand response technology is a key technology for distributing electricity tasks in response to ele...
In a Smart Grid (SG) scenario, domestic consumers can gain cost reduction benefit by scheduling thei...
The emergence of smart devices and smart appliances has highly favored the realization of the smart ...
The residential sector is a major contributor to the global energy demand. The energy demand for the...
Demand Response (DR) in residential sector is considered to play a key role in the smart grid framew...
This paper concerns the problem of optimally scheduling a set of appliances at the end-user premise...
In this paper, residential demand response is studied through the scheduling of typical home applian...
For mitigating the urgency of constructing power plant, alleviating supply pressure of power company...
Demand response (DR) is used mainly to help to schedule a customer’s power utilization based on the ...
Demand response (DR) refers to programs used in endeavors to reduce overall power consumption, manag...
Abstract—In this paper, we propose a novel optimization-based real-time residential load management ...
Smart grid enables consumers to control and schedule the consumption pattern of their appliances, mi...
The smart grid opens the possibility for Demand Response (DR) programs. In order for end-users to ob...
Abstract—In this paper, we propose a novel optimization-based real-time residential load management ...
Abstract—Flattening household electricity demand reduces generation costs, since costs are dispropor...
Demand response technology is a key technology for distributing electricity tasks in response to ele...
In a Smart Grid (SG) scenario, domestic consumers can gain cost reduction benefit by scheduling thei...
The emergence of smart devices and smart appliances has highly favored the realization of the smart ...
The residential sector is a major contributor to the global energy demand. The energy demand for the...
Demand Response (DR) in residential sector is considered to play a key role in the smart grid framew...
This paper concerns the problem of optimally scheduling a set of appliances at the end-user premise...
In this paper, residential demand response is studied through the scheduling of typical home applian...
For mitigating the urgency of constructing power plant, alleviating supply pressure of power company...
Demand response (DR) is used mainly to help to schedule a customer’s power utilization based on the ...
Demand response (DR) refers to programs used in endeavors to reduce overall power consumption, manag...
Abstract—In this paper, we propose a novel optimization-based real-time residential load management ...
Smart grid enables consumers to control and schedule the consumption pattern of their appliances, mi...
The smart grid opens the possibility for Demand Response (DR) programs. In order for end-users to ob...
Abstract—In this paper, we propose a novel optimization-based real-time residential load management ...
Abstract—Flattening household electricity demand reduces generation costs, since costs are dispropor...