Feedback Control of Hybrid Dynamical Systems

Feedback Control of Hybrid Dynamical Systems

Society for Industrial and Applied Mathematics via YouTube Direct link

The Boost Converter

7 of 16

7 of 16

The Boost Converter

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Feedback Control of Hybrid Dynamical Systems

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  1. 1 Intro
  2. 2 Scope of Hybrid Systems Research
  3. 3 Motivation and Approach Common features in applications
  4. 4 Recent Contributions to Hybrid Systems Theory Autonomous Hybrid Systems
  5. 5 Related Work A (rather incomplete) list of related contributions: Differential equations with multistable elements
  6. 6 A Genetic Network Consider a genetic regulatory network with two genes (A and B). each encoding for a protein
  7. 7 The Boost Converter
  8. 8 Modeling Hybrid Systems A wide range of systems can be modeled within the framework Switched systems Impulsive systems
  9. 9 General Control Problem Given a set A and a hybrid system H to be controlled
  10. 10 Lyapunov Stability Theorem Theorem
  11. 11 Hybrid Basic Conditions The data (C1,D, 9) of the hybrid system
  12. 12 Sequential Compactness Theorem Given a hybrid system satisfying the hybrid basic conditions, let
  13. 13 Invariance Principle Lemma Letz be a bounded and complete solution to a hybrid system H satisfying the hybrid basic conditions. Then, its w-limit set
  14. 14 Other Consequences of the Hybrid Basic Conditions
  15. 15 Back to Boost Converter
  16. 16 Conclusion Introduction to Hybrid Systems and Modeling Hybrid Basic Conditions and Consequences

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