Non-cooperative scheduling games can be used to coordinate residential loads in order to achieve a common goal while accounting for individual consumer’s interests, privacy, and autonomy. However, a significant portion of the residential flexibility—Thermostatically Controlled Loads (TCLs) such as water and space heating/cooling appliances—has not been fully addressed under this game theoretic approach: their comfort constraints and integer control were not considered. This paper presents a method for properly including TCLs in this framework and discusses its application in energy communities. Specifically, we propose a general mathematical formulation for considering users’ comfort in non-cooperative games. We model the integer nature of ...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...
This paper studies a three party energy management problem in a user interactive smart community tha...
To achieve a high level of reliability, efficiency, and robustness in electric systems, the concept ...
Thermostatically controlled loads (TCLs) are regarded as one of the promising resources for suppress...
Abstract—Smart Grids have recently gained increasing at-tention as a means to efficiently manage the...
Smart Grids have recently gained increasing at- tention as a means to efficiently manage the houses ...
In this paper, we study the demand response of the thermostatically controlled loads (TCLs) to contr...
Demand side management strategies are used in many application scenarios in order to mitigate high p...
In this paper, we study the demand response of the thermostatically controlled loads (TCLs) to contr...
Recent developments in smart grid technologies have enabled interactions between energy suppliers an...
This paper proposes a novel distributed solution for the operation of large populations of thermosta...
This paper addresses the assumptions underpinning many control schemes for residential demand respon...
Motivated by the potential ability of air conditioning (A/C) units in demand response, this paper ex...
Abstract — Most of the existing demand side management programs focus primarily on the interactions ...
In this paper, Demand Side Management scheme in a smart grid environment is proposed as a feature of...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...
This paper studies a three party energy management problem in a user interactive smart community tha...
To achieve a high level of reliability, efficiency, and robustness in electric systems, the concept ...
Thermostatically controlled loads (TCLs) are regarded as one of the promising resources for suppress...
Abstract—Smart Grids have recently gained increasing at-tention as a means to efficiently manage the...
Smart Grids have recently gained increasing at- tention as a means to efficiently manage the houses ...
In this paper, we study the demand response of the thermostatically controlled loads (TCLs) to contr...
Demand side management strategies are used in many application scenarios in order to mitigate high p...
In this paper, we study the demand response of the thermostatically controlled loads (TCLs) to contr...
Recent developments in smart grid technologies have enabled interactions between energy suppliers an...
This paper proposes a novel distributed solution for the operation of large populations of thermosta...
This paper addresses the assumptions underpinning many control schemes for residential demand respon...
Motivated by the potential ability of air conditioning (A/C) units in demand response, this paper ex...
Abstract — Most of the existing demand side management programs focus primarily on the interactions ...
In this paper, Demand Side Management scheme in a smart grid environment is proposed as a feature of...
Abstract—Most of the existing demand-side management programs focus primarily on the interactions be...
This paper studies a three party energy management problem in a user interactive smart community tha...
To achieve a high level of reliability, efficiency, and robustness in electric systems, the concept ...