An Information-Centric Communication Infrastructure for Real-Time State Estimation of Active Distribution Networks
Authors: Chai, W.K. et al.
Journal: IEEE Transactions on Smart Grid
Volume: 6
Issue: 4
Pages: 2134-2146
ISSN: 1949-3053
DOI: 10.1109/TSG.2015.2398840
Abstract:© 2010-2012 IEEE. The evolution toward emerging active distribution networks (ADNs) can be realized via a real-time state estimation (RTSE) application facilitated by the use of phasor measurement units (PMUs). A critical challenge in deploying PMU-based RTSE applications at large scale is the lack of a scalable and flexible communication infrastructure for the timely (i.e., sub-second) delivery of the high volume of synchronized and continuous synchrophasor measurements. We address this challenge by introducing a communication platform called C-DAX based on the information-centric networking (ICN) concept. With a topic-based publish-subscribe engine that decouples data producers and consumers in time and space, C-DAX enables efficient synchrophasor measurement delivery, as well as flexible and scalable (re)configuration of PMU data communication for seamless full observability of power conditions in complex and dynamic scenarios. Based on the derived set of requirements for supporting PMU-based RTSE in ADNs, we design the ICN-based C-DAX communic ation platform, together with a joint optimized physical network resource provisioning strategy, in order to enable the agile PMU data communications in near real-time. In this paper, C-DAX is validated via a field trial implementation deployed over a sample feeder in a real-distribution network; it is also evaluated through simulation-based experiments using a large set of real medium voltage grid topologies currently operating live in The Netherlands. This is the first work that applies emerging communication paradigms, such as ICN, to smart grids while maintaining the required hard real-time data delivery as demonstrated through field trials at national scale. As such, it aims to become a blueprint for the application of ICN-based general purpose communication platforms to ADNs.
https://eprints.bournemouth.ac.uk/24725/
Source: Scopus
An Information-Centric Communication Infrastructure for Real-Time State Estimation of Active Distribution Networks
Authors: Chai, W.K. et al.
Journal: IEEE Transactions on Smart Grid
ISSN: 1949-3053
DOI: 10.1109/TSG.2015.2398840
Abstract:The evolution toward emerging active distribution networks (ADNs) can be realized via a real-time state estimation (RTSE) application facilitated by the use of phasor measurement units (PMUs). A critical challenge in deploying PMU-based RTSE applications at large scale is the lack of a scalable and flexible communication infrastructure for the timely (i.e., sub-second) delivery of the high volume of synchronized and continuous synchrophasor measurements. We address this challenge by introducing a communication platform called C-DAX based on the information-centric networking (ICN) concept. With a topic-based publish-subscribe engine that decouples data producers and consumers in time and space, C-DAX enables efficient synchrophasor measurement delivery, as well as flexible and scalable (re)configuration of PMU data communication for seamless full observability of power conditions in complex and dynamic scenarios. Based on the derived set of requirements for supporting PMU-based RTSE in ADNs, we design the ICN-based C-DAX communication platform, together with a joint optimized physical network resource provisioning strategy, in order to enable the agile PMU data communications in near real-time. In this paper, C-DAX is validated via a field trial implementation deployed over a sample feeder in a real-distribution network; it is also evaluated through simulation-based experiments using a large set of real medium voltage grid topologies currently operating live in The Netherlands. This is the first work that applies emerging communication paradigms, such as ICN, to smart grids while maintaining the required hard real-time data delivery as demonstrated through field trials at national scale. As such, it aims to become a blueprint for the application of ICN-based general purpose communication platforms to ADNs.
https://eprints.bournemouth.ac.uk/24725/
Source: Scopus
An Information-Centric Communication Infrastructure for Real-Time State Estimation of Active Distribution Networks
Authors: Chai, W.K. et al.
Journal: IEEE Transactions on Smart Grid
Volume: 6
Issue: 4
Pages: 2134-2146
ISSN: 1949-3053
DOI: 10.1109/TSG.2015.2398840
Abstract:The evolution toward emerging active distribution networks (ADNs) can be realized via a real-time state estimation (RTSE) application facilitated by the use of phasor measurement units (PMUs). A critical challenge in deploying PMU-based RTSE applications at large scale is the lack of a scalable and flexible communication infrastructure for the timely (i.e., sub-second) delivery of the high volume of synchronized and continuous synchrophasor measurements. We address this challenge by introducing a communication platform called C-DAX based on the information-centric networking (ICN) concept. With a topic-based publish-subscribe engine that decouples data producers and consumers in time and space, C-DAX enables efficient synchrophasor measurement delivery, as well as flexible and scalable (re)configuration of PMU data communication for seamless full observability of power conditions in complex and dynamic scenarios. Based on the derived set of requirements for supporting PMU-based RTSE in ADNs, we design the ICN-based C-DAX communication platform, together with a joint optimized physical network resource provisioning strategy, in order to enable the agile PMU data communications in near real-time. In this paper, C-DAX is validated via a field trial implementation deployed over a sample feeder in a real-distribution network; it is also evaluated through simulation-based experiments using a large set of real medium voltage grid topologies currently operating live in The Netherlands. This is the first work that applies emerging communication paradigms, such as ICN, to smart grids while maintaining the required hard real-time data delivery as demonstrated through field trials at national scale. As such, it aims to become a blueprint for the application of ICN-based general purpose communication platforms to ADNs.
https://eprints.bournemouth.ac.uk/24725/
Source: Scopus
An Information-Centric Communication Infrastructure for Real-Time State Estimation of Active Distribution Networks
Authors: Chai, W.K. et al.
Journal: IEEE TRANSACTIONS ON SMART GRID
Volume: 6
Issue: 4
Pages: 2134-2146
eISSN: 1949-3061
ISSN: 1949-3053
DOI: 10.1109/TSG.2015.2398840
https://eprints.bournemouth.ac.uk/24725/
Source: Web of Science (Lite)
An Information-Centric Communication Infrastructure for Real-Time State Estimation of Active Distribution Networks
Authors: Chai, W.K. et al.
Journal: IEEE Transactions on Smart Grid
Volume: 6
Issue: 4
Pages: 2134-2146
DOI: 10.1109/TSG.2015.2398840
https://eprints.bournemouth.ac.uk/24725/
Source: Manual
An Information-Centric Communication Infrastructure for Real-Time State Estimation of Active Distribution Networks
Authors: Chai, W.K. et al.
Journal: IEEE Transactions on Smart Grid
Volume: 6
Issue: 4
Pages: 2134-2146
ISSN: 1949-3053
Abstract:© 2010-2012 IEEE.The evolution toward emerging active distribution networks (ADNs) can be realized via a real-time state estimation (RTSE) application facilitated by the use of phasor measurement units (PMUs). A critical challenge in deploying PMU-based RTSE applications at large scale is the lack of a scalable and flexible communication infrastructure for the timely (i.e., sub-second) delivery of the high volume of synchronized and continuous synchrophasor measurements. We address this challenge by introducing a communication platform called C-DAX based on the information-centric networking (ICN) concept. With a topic-based publish-subscribe engine that decouples data producers and consumers in time and space, C-DAX enables efficient synchrophasor measurement delivery, as well as flexible and scalable (re)configuration of PMU data communication for seamless full observability of power conditions in complex and dynamic scenarios. Based on the derived set of requirements for supporting PMU-based RTSE in ADNs, we design the ICN-based C-DAX communication platform, together with a joint optimized physical network resource provisioning strategy, in order to enable the agile PMU data communications in near real-time. In this paper, C-DAX is validated via a field trial implementation deployed over a sample feeder in a real-distribution network; it is also evaluated through simulation-based experiments using a large set of real medium voltage grid topologies currently operating live in The Netherlands. This is the first work that applies emerging communication paradigms, such as ICN, to smart grids while maintaining the required hard real-time data delivery as demonstrated through field trials at national scale. As such, it aims to become a blueprint for the application of ICN-based general purpose communication platforms to ADNs.
https://eprints.bournemouth.ac.uk/24725/
Source: BURO EPrints