1 / 16

Zhikui Wang, Fernando Paganini

UCLA. Bounded States and Global Stability of Congestion Control with Time-Delays. Zhikui Wang, Fernando Paganini. Electrical Engineering Department, UCLA. Sep. 30, 2003. Outline. Congestion Controls and Local Stability. Global Performance of the “Dual” Control with Delays.

brinda
Download Presentation

Zhikui Wang, Fernando Paganini

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. UCLA Bounded States and Global Stability of Congestion Control with Time-Delays Zhikui Wang, Fernando Paganini Electrical Engineering Department, UCLA Sep. 30, 2003

  2. Outline • Congestion Controls and Local Stability • Global Performance of the “Dual” Control with Delays • Ultimately Bounded States • Asymptotical Stability • Exponential Stability • Global Performance of the “Primal-Dual” Control • Ultimately Bounded States • Time-scale Analysis • Summary

  3. “Dual” Control: Local Scalable Stability Theorem: Suppose the matrix is of full row rank, and Then link and source control laws that linearize around the equilibrium as shown above give a locally stable system for arbitrary delays and link capacities. [ Paganini, Doyle, Low, CDC’01] Sources : Links :

  4. “Primal-Dual”: Scalable Stability and Free utility Theorem: [ Paganini, Wang, Low, Doyle, Infocom’02] Suppose is of full row rank, and for each source, then the “primal-daul” control is locally stable for a small depending only on . Sources : Slower tracking of fairness by small Faster control of utilization At equilibrium: Links : Maximizing local benefit

  5. Outline • Congestion Controls and Local Stability • Global Performance of the “Dual” Control with Delays • Ultimately Bounded States • Asymptotical Stability • Exponential Stability • Global Performance of the “Primal-Dual” Control • Ultimately Bounded States • Time-scale Analysis • Summary

  6. “Dual” Control: Global stability by Small-Gain Theorem: [ Wang, Paganini, CDC’02 ] The “Dual” system with single flow and single link is globally asymptotically stable if . -

  7. “Dual” Control: Ultimately Bounded States Proposition: [ Wang, Paganini, CDC’02 ] For the “dual” system with single link, the price p(t) is ultimately upper bounded by where (I) (II) (III)

  8. “Dual” Control: Asymptotical Stability (I) Theorem: The “Dual” system is globally asymptotically stable if

  9. “Dual” Control: Asymptotical Stability (2) when Contractive Mapping

  10. “Dual” Control: Asymptotical Stability (3) Corollary: The “Dual” system with single flow and single link is globally asymptotically stable if . Specially, • scalable w.r.t. delay and capacity • globally asymptotically stable if [wright, 1955] Special Case: Single-Flow Single-link

  11. “Dual” Control: Exponential Stability (1) (2) (3) [Deb, CDC’02] (4) Theorem: [ Wang, Paganini, CDC’02 ] For the configuration of figure 1, there exists a positive constant such that for , the origin of the system Is exponentially stable.

  12. Outline • Congestion Controls and Local Stability • Global Performance of the “Dual” Control with Delays • Ultimately Bounded States • Asymptotical Stability • Exponential Stability • Global Performance of the “Primal-Dual” Control • Ultimately Bounded States • Time-scale Analysis • Summary

  13. s.t. Proposition: The rate x(t) is ultimately bounded, independent of the local stability condition, I.E., there exists such that Proposition: The states is ultimately bounded , independent of the local stability condition, if “Primal-Dual” : Global upper bound of Single-source & Single-link: [ Wang, Paganini, CDC’03 ]

  14. “Primal-Dual” : Two time-scales --- Simulation Single-Flow Single-link Quasi-steady states

  15. (I) Boundary-Layer system exponentially stable. (II) Reduced system: exponentially stable uniformly with . “Primal-Dual”: Time-scale analysis Claim: The system with bounded states are exponentially stable by taking small enough and .

  16. Summary • Global Performance of the “Dual” Control with Delays • Stability by Small-Gain theorem • Ultimately Bounded States independent of Stability • Globally Asymptotical Stability • Globally Exponential Stability • Global Performance of the “Primal-Dual” Control • Ultimately Bounded States • Time-scale Analysis • Future work?

More Related