Wide area smart grid architectural model and control: A survey

  title={Wide area smart grid architectural model and control: A survey},
  author={Sahibzada Muhammad Ali and Muhammad Jawad and Bilal Ahmed Khan and Chaudhry Arshad Mehmood and N. Zeb and Abbas Asif Tanoli and Umar Farid and Jacob S. Glower and Samee Ullah Khan},
  journal={Renewable \& Sustainable Energy Reviews},
Advanced Distribution Measurement Technologies and Data Applications for Smart Grids: A Review
The applications of distribution grid measurement technologies are explored in detail and an input-output table that relates measured quantities from micro-Phasor Measurement Units and Smart Meters needed for each specific application is found in this extensive review.
Research on the model of smart grid wide-area measurement cyber-physical fusion system based on data fusion
A method to optimize the configuration of the phasor measurement unit while ensuring that the power grid is fully observable and can capture the dynamic behavior of the powergrid under transient conditions is proposed.
Need for Mutual Services Interaction Between Smart Grid and Cloud Data Centers
  • S. M. Ali, I. Hussain, A. Haider
  • Engineering
    2018 International Conference on Power Generation Systems and Renewable Energy Technologies (PGSRET)
  • 2018
The goal of this research work is to increase the steady-state performance of the SG through computational capabilities of the DCs through a Service Level Agreement (SLA) between DCs and SGs showing mutual benefits.
Execution of Real-time Wide Area Monitoring System with Big Data Functions and Practices
This paper summarizes the PMU setup and installation overview in the Unified Real-time Dynamic State Measurement project (URTDSM) with the Synchrophasor based wide-area monitoring system in India.
Implementation of a decentralized real-time management system for electrical distribution networks using the internet of things in smart grids
This intelligent multi-criteria solution is based on a graph model and a secure communication architecture using the Internet of Things to ensure flexibility in terms of smart grid management and interoperability and system security.
Overview of the status of smart metering systems in Argentina and future perspectives
Smart grids have become a tangible reality in most of the developed countries. The implementation of a large number of pilot programs and a multi-million dollar investment by major European
An Overview of Energy Scenarios, Storage Systems and the Infrastructure for Vehicle-to-Grid Technology
The increase in the emission of greenhouse gases (GHG) is one of the most important problems in the world. Decreasing GHG emissions will be a big challenge in the future. The transportation sector


A co-simulation framework for Smart Grid wide-area monitoring networks
A co-simulation framework developed using two existing public-domain simulators (OpenDSS and OMNET++ respectively for power systems and communication networks simulation) based on continuous-time and discrete-time simulation is presented.
Multi-objective power management on smart grid
This paper presents several multi-objective optimization models which can provide a deeper insight into operations on smart grid and considers contingency constraints and optimal allocation of these sensor devices on utility systems.
Stochastic information management for voltage regulation in smart distribution systems
This paper formulate a voltage regulation problem in the smart distribution system based on power flow analysis, while taking into account communication delays and mathematically prove that a relatively small amount of information is sufficient for the distribution substation to make an optimal decision.
A Smart Strategy for Voltage Control Ancillary Service in Distribution Networks
The expected impact of distributed generation (DG) into Smart Grid represents a great challenge of the future for power systems. In particular, the integration of DG based on renewable energy sources
Introduction to wide-area control of power systems
The main research challenges that need to be overcome to realize the benefits of wide area control in power systems are presented and two new control paradigms are proposed, namely a scheduling approach for appropriate controller selection based on online estimation of oscillation modes, and distributed phasor-based control using model estimation.
A Wireless Communication Architecture for Smart Grid Distribution Networks
A multihop wireless network with a cellular frequency-reuse structure that can provide the communication infrastructure to the dense low-voltage distribution networks for active monitoring and control purposes and an effective way of data dissemination across the introduced network architecture with prioritized data transfer using a position-based quality-of-service (QoS)-aware routing protocol is proposed.
A platform for wide area monitoring and control system ICT analysis and development
A WAMC testing platform to facilitate the real-time simulation of dynamic power grid, the ICT infrastructure that overlays the grid and WAMS applications and the effect of network protocols on data delay is proposed and developed.
Integration of asset management and smart grid with intelligent grid management system
Electric power transmission and distribution (T and D) systems are composed of a great deal of aged apparatus, which may cause a decrease in reliability owing to their deterioration. In order to
A networked control systems perspective for wide-area monitoring control of smart power grids
This paper presents a networked control systems (NCS) framework for wide area monitoring control of smart power grids. We consider a scenario in which wide area measurements are transmitted to