Book contents
- Frontmatter
- Dedication
- Contents
- Preface
- Notation
- Part I Fundamentals
- Part II Networked Microgrids
- 3 Compositional Networked Microgrid Power Flow
- 4 Resilient Networked Microgrids through Software-Defined Networking
- 5 Formal Analysis of Networked Microgrids Dynamics
- 6 Active Fault Management for Networked Microgrids
- 7 Cyberattack-Resilient Networked Microgrids
- 8 Networked DC Microgrids
- Part III Prospect
- Index
4 - Resilient Networked Microgrids through Software-Defined Networking
from Part II - Networked Microgrids
Published online by Cambridge University Press: 15 April 2021
- Frontmatter
- Dedication
- Contents
- Preface
- Notation
- Part I Fundamentals
- Part II Networked Microgrids
- 3 Compositional Networked Microgrid Power Flow
- 4 Resilient Networked Microgrids through Software-Defined Networking
- 5 Formal Analysis of Networked Microgrids Dynamics
- 6 Active Fault Management for Networked Microgrids
- 7 Cyberattack-Resilient Networked Microgrids
- 8 Networked DC Microgrids
- Part III Prospect
- Index
Summary
This chapter discusses an SDN-enabled architecture that transforms isolated local microgrids into integrated networked microgrids capable of achieving the desired resiliency, elasticity, and efficiency. It provides an overview of SDN architecture, OpenFlow protocol, and SDN-based microgrid communication architecture. A distributed power-sharing scheme is developed on the SDN architecture. Event-triggered communication and control are introduced to networked microgrids to allow for unprecedentedly resiliene and efficient control and plug-and-play in networked microgrids.
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- Information
- Networked Microgrids , pp. 43 - 90Publisher: Cambridge University PressPrint publication year: 2021