Yazar "Özkan, Hanife Apaydın" için listeleme
-
Appliance based control for Home Power Management Systems
Özkan, Hanife Apaydın (Pergamon-Elsevier Science LTD, 2016)This study scrutinizes energy-friendly smart home appliances (hereafter 'smart appliances'), control of these appliances and their effects on the efficient use of energy. To accomplish this, smart appliances and their ... -
A home energy management system
İzmitligil, Hasan; Özkan, Hanife Apaydın (SAGE Publications LTD, 2018)In this study, an offline home energy management system that reduces electricity expense and peak demand without deteriorating residents' contentment is considered. The main goal is to improve the system in the sense of ... -
A Home Power Management System Using Mixed Integer Linear Programming for Scheduling Appliances and Power Resources
İzmitligil, Hasan; Özkan, Hanife Apaydın (IEEE, 2016)In this work, a home power management system is proposed to minimize electricity cost and reduce high peak demand while maintaining user comfort. The system is composed of smart electrical appliances, which are divided ... -
A home power management system using mixed integer linear programming for scheduling appliances and power resources
İzmitligil, Hasan; Özkan, Hanife Apaydın (IEEE Computer Society, 2017)In this work, a home power management system is proposed to minimize electricity cost and reduce high peak demand while maintaining user comfort. The system is composed of smart electrical appliances, which are divided ... -
Modeling Basic Components of Railway Systems Using Timed Arc Petri Nets
Yufka, Alpaslan; Özkan, Hanife Apaydın; Aybar, Aydın (IEEE, 2018)Timed Petri Nets is a powerful modeling paradigm for concurrent and dynamic systems such as railway systems. In this work, Timed-Arc Petri nets, which has been recently proposed by authors, is considered for modeling railway ... -
A new real time home power management system
Özkan, Hanife Apaydın (Elsevier Science Sa, 2015)In this work, a real time home power management (RTHPM) scheme and the corresponding rule based control algorithm (RTHPM algorithm) are presented. The proposed system produces a real time solution to reduce the electricity ... -
On Achieving Reachability Paths of Petri nets
Özkan, Hanife Apaydın (IEEE, 2015)Petri net is a powerful graphical and mathematical tool for analysis and design of discrete event systems. This paper focuses on the reachability path problems in Petri nets. Thereby, two algorithms are developed to create ... -
A Real-Time Home Power Resource Management Method
Özkan, Hanife Apaydın (IEEE, 2015)In this work, a real time Home Power Resource Management system is presented. This system includes grid with time-of-use pricing, photovoltaic panels and storage battery as power resources, and uses a main controller and ... -
A reversibility enforcement approach for Petri nets using invariants
Özkan, Hanife Apaydın; Aybar, Aydın (2008)Petri net model which is one of the most common modelling method of discrete event systems, is considered to enforce reversibility in this work. Reversibility guarantees that the intial state is reachable from any state ... -
A Smart Air Conditioner in Smart Home
Özkan, Hanife Apaydın; Aybar, Aydın (IEEE, 2016)In this work, a smart Air Conditioner scheme is proposed and its adaptation to a Smart Home system is presented. Firstly, working principles of conventional Air Conditioner and the proposed smart Air Conditioner are explained ... -
Timed Arc Petri Nets: The Impulsive Approach
Yufka, Alpaslan; Özkan, Hanife Apaydın; Aybar, Aydın (IEEE, 2018)In this work, a new graphical and mathematical model is presented as a new approach for Deterministic Timed Arc Petri Net. In the proposed Timed Arc Petri Net, time is associated with arcs in transition firing process. In ... -
Timed Arc Petri Nets: The Time-Element Approach
Yufka, Alpaslan; Özkan, Hanife Apaydın; Aybar, Aydın (IEEE, 2017)In this work, a novel model is proposed for Deterministic Timed Arc Petri Nets. In the proposed Timed Arc Petri Net, transition firing processes are associated with time, where time is interpreted as firing delays, hence ...
