Merging Optimization and Control in Power Systems : Physical and Cyber Restrictions in Distributed Frequency Control and Beyond 1st Edition by Feng Liu, Zhaojian Wang, Changhong Zhao, Peng Yang – Ebook PDF Instant Download/DeliveryISBN: 1119827957 9781119827955
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Product details:
ISBN-10 : 1119827957
ISBN-13 : 9781119827955
Author : Feng Liu, Zhaojian Wang, Changhong Zhao, Peng Yang
Merging Optimization and Control in Power Systems
A novel exploration of distributed control in power systems with insightful discussions of physical and cyber restrictions
In Merging Optimization and Control in Power Systems an accomplished team of engineers deliver a comprehensive introduction to distributed optimal control in power systems. The book re-imagines control design within the framework of cyber-physical systems with restrictions in both the physical and cyber spaces, addressing operational constraints, non-smooth objective functions, rapid power fluctuations caused by renewable generations, partial control coverage, communication delays, and non-identical sampling rates.
Merging Optimization and Control in Power Systems : Physical and Cyber Restrictions in Distributed Frequency Control and Beyond 1st Table of contents:
1 Introduction
1.1 Traditional Hierarchical Control Structure
1.2 Transitions and Challenges
1.3 Removing Central Coordinators: Distributed Coordination
1.4 Merging Optimization and Control
1.5 Overview of the Book
Bibliography
Notes
2 Preliminaries
2.1 Norm
2.2 Graph Theory
2.3 Convex Optimization
2.4 Projection Operator
2.5 Stability Theory
2.6 Passivity and Dissipativity Theory
2.7 Power Flow Model
2.8 Power System Dynamics
Bibliography
Notes
3 Bridging Control and Optimization in Distributed Optimal Frequency Control
3.1 Background
3.2 Power System Model
3.3 Design and Stability of Primary Frequency Control
3.4 Convergence Analysis
3.5 Case Studies
3.6 Conclusion and Notes
Bibliography
Notes
4 Physical Restrictions: Input Saturation in Secondary Frequency Control
4.1 Background
4.2 Power System Model
4.3 Control Design for Per‐Node Power Balance
4.4 Optimality and Uniqueness of Equilibrium
4.5 Stability Analysis
4.6 Case Studies
4.7 Conclusion and Notes
Bibliography
Notes
5 Physical Restrictions: Line Flow Limits in Secondary Frequency Control
5.1 Background
5.2 Power System Model
5.3 Control Design for Network Power Balance
5.4 Optimality of Equilibrium
5.5 Asymptotic Stability
5.6 Case Studies
5.7 Conclusion and Notes
Bibliography
Notes
6 Physical Restrictions: Nonsmoothness of Objective Functions in Load‐Frequency Control
6.1 Background
6.2 Notations and Preliminaries
6.3 Power System Model
6.4 Control Design
6.5 Optimality and Convergence
6.6 Case Studies
6.7 Conclusion and Notes
Bibliography
7 Cyber Restrictions: Imperfect Communication in Power Control of Microgrids
7.1 Background
7.2 Preliminaries and Model
7.3 Distributed Control Algorithms
7.4 Optimality and Convergence Analysis
7.5 Real‐Time Implementation
7.6 Numerical Results
7.7 Experimental Results
7.8 Conclusion and Notes
Bibliography
Notes
8 Cyber Restrictions: Imperfect Communication in Voltage Control of Active Distribution Networks
8.1 Background
8.2 Preliminaries and System Model
8.3 Problem Formulation
8.4 Asynchronous Voltage Control
8.5 Optimality and Convergence
8.6 Implementation
8.7 Case Studies
8.8 Conclusion and Notes
Bibliography
Notes
9 Robustness and Adaptability: Unknown Disturbances in Load‐Side Frequency Control
9.1 Background
9.2 Problem Formulation
9.3 Controller Design
9.4 Equilibrium and Stability Analysis
9.5 Robustness Analysis
9.6 Case Studies
9.7 Conclusion and Notes
Bibliography
Notes
10 Robustness and Adaptability: Partial Control Coverage in Transient Frequency Control
10.1 Background
10.2 Structure‐Preserving Model of Nonlinear Power System Dynamics
10.3 Formulation of Optimal Frequency Control
10.4 Control Design
10.5 Optimality and Stability
10.6 Implementation With Frequency Measurement
10.7 Case Studies
10.8 Conclusion and Notes
Bibliography
Notes
11 Robustness and Adaptability: Heterogeneity in Power Controls of DC Microgrids
11.1 Background
11.2 Network Model
11.3 Optimal Power Flow of DC Networks
11.4 Control Design
11.5 Implementation
11.6 Case Studies
11.7 Conclusion and Notes
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