<p>Part I: INTRODUCTION TO FREQUENCY REGULATION STRATEGIES<br>1. Overview of the renewable-dominated modern power systems and their frequency regulation issues<br>2. Bird’s-eye view of frequency regulation in modern power system: Recent advances, research trends and challenges<br>3. Various frequency regulation schemes and applications: a comprehensive review</p> <p>Part II: FREQUENCY REGULATION IN RESTRUCTURED ELECTRICITY MARKET<br>4. Frequency regulation strategies in the present deregulated electricity market<br>5. Price-based frequency regulation strategies in restructured electricity market<br>6. Frequency regulation incorporating advanced FACTS devices in restructured electricity market</p> <p>Part III: FREQUENCY REGULATION IN THE PRESENCE OF RENEWABLE ENERGY SOURCES<br>7. Various methods/strategies to improve the frequency control in a grid with high penetration of renewables: review and new perspectives<br>8. Impact of wind turbine’s kinetic energy support for frequency regulation in the grid<br>9. Role of virtual power plant and virtual inertia applications in grid frequency control</p> <p>Part IV: FREQUENCY REGULATION USING ARTIFICIAL INTELLIGENCE TECHNIQUES <br>10. Artificial intelligence applications for robust frequency control<br>11. Deep reinforcement learning approaches for fast frequency control in low-inertia power systems<br>12. Role of cyber-security control schemes for frequency regulation in modern power system</p> <p>Part V: OTHER TOPICS RELATED TO FREQUENCY REGULATION<br>13. Role of energy storage technologies in frequency regulation in modern power systems<br>14. Electric vehicles and their impacts on modern power system operation and control in terms of frequency stability<br>15. Frequency regulation through voltage regulation of the power system<br>16. Demand-side management (DSM) and demand response techniques: Role towards frequency management in the power system<br>17. Frequency regulation strategies: Innovations, trends, key issues, challenges, and future scope </p>
