Access the full text.
Sign up today, get DeepDyve free for 14 days.
A. Abbasi, H. Karegar, T. Aghdam (2019)
Adaptive Protection Coordination with Setting Groups AllocationInternational Journal of Renewable Energy Research
M. Ojaghi, V. Mohammadi (2018)
Use of clustering to reduce the number of different setting groups for adaptive coordination of overcurrent relays, 33
C. Robinson, P. Mendham, T. Clarke (2010)
MACSimJX: a tool for enabling agent modelling with Simulink using JADE, 4
M. Ataei, M. Gitizadeh, M. Lehtonen, R. Razavi-Far (2021)
Multi‐agent based protection scheme using current‐only directional overcurrent relays for looped/meshed distribution systemsIET Generation, Transmission & Distribution
Z. Liu, C. Su, H.K. Høidalen, Z. Chen (2017)
A multi‐agent system‐based protection and control scheme for distribution system with distributed generation integration, 32
Mohamad Norshahrani, H. Mokhlis, A. Bakar, J. Jamian, S. Sukumar (2017)
Progress on Protection Strategies to Mitigate the Impact of Renewable Distributed Generation on Distribution SystemsEnergies, 10
S.A. Hosseini, A. Nasiri, S.H.H. Sadeghi (2018)
A decentralized adaptive scheme for protection coordination of microgrids based on team working of agents
V. Telukunta, J. Pradhan, A. Agrawal (2017)
Protection challenges under bulk penetration of renewable energy resources in power systems: a review, 3
T. Senarathna, K. Hemapala (2020)
Optimized Adaptive Overcurrent Protection Using Hybridized Nature-Inspired Algorithm and Clustering in MicrogridsEnergies, 13
R. Chabanloo, Mohsen Safari, R. Roshanagh (2018)
Reducing the scenarios of network topology changes for adaptive coordination of overcurrent relays using hybrid GA–LPIET Generation, Transmission & Distribution
M. Aman, Muhammad Khan, S. Qazi (2011)
Digital directional and non-directional over current relays: modelling and performance analysis, 8
R. Jain, D.L. Lubkeman, S.M. Lukic (2019)
Dynamic adaptive protection for distribution systems in grid‐connected and islanded modes, 34
S.D.J. McArthur, E.M. Davidson, V.M. Catterson (2007)
Multi‐agent systems for power engineering applications‐part I: concepts, approaches, and technical challenges, 22
Manohar Singh (2017)
Protection coordination in distribution systems with and without distributed energy resources- a reviewProtection and Control of Modern Power Systems, 2
M.N. Alam (2019)
Adaptive protection coordination scheme using numerical directional overcurrent relays, 15
Mi-Gon Choi, Seon-Ju Ahn, Joon-Ho Choi, Sung-Min Cho, Sang-Yun Yun (2020)
Adaptive Protection Method of Distribution Networks Using the Sensitivity Analysis for Changed Network Topologies Based on Base Network TopologyIEEE Access, 8
E. Purwar, S.P. Singh, D.N. Vishwakarma (2020)
A robust protection scheme based on hybrid pick‐up and optimal hierarchy selection of relays in the variable DGs‐distribution system, 35
A. Osman, Mohamed Hassan, M. Sulaiman (2015)
Communication-based Adaptive Protection for Distribution Systems Penetrated with Distributed GeneratorsElectric Power Components and Systems, 43
(2017)
Adaptive protection scheme for distributed systems with DG
P. Mahat, Z. Chen, B.B. Jensen (2011)
A simple adaptive overcurrent protection of distribution systems with distributed generation, 2
V.A. Papaspiliotopoulos, G.N. Korres, V.A. Kleftakis (2017)
Hardware‐In‐the‐Loop design and optimal setting of adaptive protection schemes for distribution systems with distributed generation, 32
S. Katyara, L. Staszewski, Zbigniew Leonowicz (2018)
Protection Coordination of Properly Sized and Placed Distributed Generations–Methods, Applications and Future ScopeEnergies
S. Shen, D. Lin, H. Wang (2017)
An adaptive protection scheme for distribution systems with DGs based on optimized thevenin equivalent parameters estimation, 32
Sergio Saldarriaga-Zuluaga, J. López-Lezama, N. Muñoz-Galeano (2021)
Adaptive protection coordination scheme in microgrids using directional over-current relays with non-standard characteristicsHeliyon, 7
H. Karimi, B. Fani, G. Shahgholian (2020)
Multi agent‐based strategy protecting the loop‐based micro‐grid via intelligent electronic device‐assisted relaysIET Renewable Power Generation
M.Y. Shih, A. Conde, Z. Leonowicz (2017)
An adaptive overcurrent coordination scheme to improve relay sensitivity and overcome drawbacks due to distributed generation in smart grids, 53
V. Terzija, G. Valverde, D. Cai (2011)
Wide‐area monitoring, protection, and control of future electric power networks, 99
J. Serna, J. López-Lezama (2019)
Alternative Methodology to Calculate the Directional Characteristic Settings of Directional Overcurrent Relays in Transmission and Distribution NetworksEnergies
P. Mehta, A.H. Makwana (2018)
Proceedings of the International Conference on Intelligent Systems and Signal Processing
T.S. Ustun, C. Ozansoy, A. Zayegh (2013)
Fault current coefficient and time delay assignment for microgrid protection system with central protection unit, 28
Harikrishna Muda, P. Jena (2017)
Sequence currents based adaptive protection approach for DNs with distributed energy resourcesIet Generation Transmission & Distribution, 11
S.A. Hosseini, S.H.H. Sadeghi, A. Nasiri (2021)
Decentralized adaptive protection coordination based on agents’ social activities for microgrids with topological and operational uncertainties, 57
T. Zheng, Yutong Zhao, Yifan Zhu (2019)
Overcurrent protection scheme for collector lines in wind farm based on fault component current correlation analysis and multi‐agent systemIET Renewable Power Generation
M.G. Maleki, H. Javadi, M. Khederzadeh (2016)
An adaptive and decentralized protection scheme for microgrid protection
Distribution networks are operated in different conditions and the traditional protection systems might not be proper for all available operation conditions by using directional overcurrent relaying. Besides, the presence of distributed generations makes the protection setting and coordination more complex, and may even make it impossible to access a reliable protection system. Therefore, a fully distributed adaptive protection scheme based on the multi‐agent systems is proposed to improve the reliability, selectivity and sensitivity of relays. It uses only numerical directional overcurrent relays with instantaneous characteristics as agents, so that only need to pick‐up settings and react quickly. All agents dynamically update their pickup value to increase the fault detection sensitivity, and make reliable and selective on‐board decisions for fault location and isolation. In addition, in order to achieve high sensitivity and mitigate miscoordination, using setting groups of relays, a novel adaptive backup protection scheme, which does not need complex computational coordination, is proposed. The proposed system is performed in the distributed manner to enhance efficiency and robustness against cyber‐attacks and one‐point failures. The proposed system is tested on the meshed IEEE 14‐bus system and radial IEEE 13‐bus system with distributed generations to evaluate its performance.
"IET Generation, Transmission & Distribution" – Wiley
Published: Apr 1, 2022
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.