Petri Nets for Smart Grids: The Story So Far
As an efective approach, Petri Nets (PN) have been applied to model and analyze the com-plex dynamics in Smart Grid (SG) environments. However, we are currently missing an overview of types
The energy management and economic optimization scheduling of
To resolve this issue, a novel hierarchical model of Colored Petri Net (CPN) based dynamic scheduling scheme is first proposed for a class of wind-photovoltaic-storage microgrid,
Multi-agent Control Strategy for Microgrids using Petri Nets
Smart Microgrids require innovative methods to provide decentralized multi-layer autonomous control in order to activate their elements to operate efficiently.
Micro grid fault diagnosis based on redundant embedding Petri net
In this study, a more concise hierarchical Petri net model is built, and the fault reasoning algorithm appropriate for micro-grid based on redundancy embedded Petri net is proposed.
Petri net models of microgrids with distributed generators
To address these two issues, this thesis work applies Petri nets to both modeling and control of a microgrid. Ordinary Petri nets, hybrid Petri nets, and finite capacity Petri nets, are
Generalized Stochastic Petri Nets (GSPN) for Analysis of
This paper describes a proposed microgrid system and the concept of Petri Net has been utilized towards smart modeling of the system using Generalized Stochastic Petri Nets (GSPN) algorithm.
Hybrid Petri Nets for Modeling and Analysis of
Hybrid Petri nets (HPNs) are widely used to describe and analyze various industrial hybrid systems that have both discrete-event and continuous discrete-time
Modeling and Analysis of Energy Micro-Grids Using Hybrid Petri Nets
A new methodology for modeling of power system using hybrid Petri nets (HPNs) is described, which allow the modeling of coupled discrete-event and continuous dynamics within one
A Load-Balance System Design of Microgrid Cluster Based on
In this article, we present a new system design, based on hierarchical PNs, of an intelligent algorithm to automate the load-balancing process, in order to provide reliable and effective
MICROGRID SYSTEM DESIGN BASED ON MODEL BASED
A general schema for the proposed method is de-picted in Figure 1, where the target microgrid requirements is mapped in the architecture IEC 61850, modeled in KAOS to insert details and the
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