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Simple Chaotic Systems and Circuits

Simple Chaotic Systems and Circuits. J. C. Sprott Department of Physics University of Wisconsin - Madison Presented at University of Catania In Catania, Italy On July 15, 2014. Outline. Abbreviated History Chaotic Equations Chaotic Electrical Circuits. Abbreviated History.

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Simple Chaotic Systems and Circuits

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  1. Simple Chaotic Systems and Circuits J. C. Sprott Department of Physics University of Wisconsin - Madison Presented at University of Catania In Catania, Italy On July 15, 2014

  2. Outline • Abbreviated History • Chaotic Equations • Chaotic Electrical Circuits

  3. Abbreviated History • Poincaré (1892) • Van der Pol (1927) • Ueda (1961) • Lorenz (1963) • Knuth (1968) • Rössler (1976) • May (1976)

  4. Lorenz Equations (1963) dx/dt = Ay – Ax dy/dt = –xz + Bx – y dz/dt = xy – Cz 7 terms, 2 quadratic nonlinearities, 3 parameters

  5. Rössler Equations (1976) dx/dt = –y – z dy/dt = x + Ay dz/dt = B + xz – Cz 7 terms, 1 quadratic nonlinearity, 3 parameters

  6. Lorenz Quote (1993) “One other study left me with mixed feelings. Otto Roessler of the University of Tübingen had formulated a system of three differential equations as a model of a chemical reaction. By this time a number of systems of differential equations with chaotic solutions had been discovered, but I felt I still had the distinction of having found the simplest. Roessler changed things by coming along with an even simpler one. His record still stands.”

  7. Rössler Toroidal Model (1979) “Probably the simplest strange attractor of a 3-D ODE” (1998) dx/dt = –y – z dy/dt = x dz/dt = Ay – Ay2– Bz 6 terms, 1 quadratic nonlinearity, 2 parameters

  8. Sprott (1994) • 14 additional examples with 6 terms and 1 quadratic nonlinearity • 5 examples with 5 terms and 2 quadratic nonlinearities J. C. Sprott, Phys. Rev. E 50, R647 (1994)

  9. Gottlieb (1996) What is the simplest jerk function that gives chaos? Displacement: x Velocity: = dx/dt Acceleration: = d2x/dt2 Jerk: = d3x/dt3

  10. Linz (1997) • Lorenz and Rössler systems can be written in jerk form • Jerk equations for these systems are not very “simple” • Some of the systems found by Sprott have “simple” jerk forms:

  11. Sprott (1997) “Simplest Dissipative Chaotic Flow” dx/dt = y dy/dt = z dz/dt = –az + y2 – x 5 terms, 1 quadratic nonlinearity, 1 parameter

  12. Zhang and Heidel (1997) 3-D quadratic systems with fewer than 5 terms cannot be chaotic. They would have no adjustable parameters.

  13. Eichhorn, Linz and Hänggi (1998) • Developed hierarchy of quadratic jerk equations with increasingly many terms: ...

  14. Weaker Nonlinearity dx/dt = y dy/dt = z dz/dt = –az + |y|b–x Seek path in a-b space that gives chaos as b1.

  15. Regions of Chaos

  16. Linz and Sprott (1999) dx/dt = y dy/dt = z dz/dt = –az – y + |x| – 1 6 terms, 1 abs nonlinearity, 2 parameters (but one =1)

  17. General Form dx/dt = y dy/dt = z dz/dt = – az – y + G(x) G(x) =±(b|x| –c) G(x) = ±b(x2/c – c) G(x) =–b max(x,0) + c G(x) =±(bx–c sgn(x)) etc….

  18. Universal Chaos Approximator?

  19. Operational Amplifiers

  20. First Jerk Circuit 18 components

  21. Bifurcation Diagram for First Circuit

  22. Strange Attractor for First Circuit Calculated Measured

  23. Second Jerk Circuit 15 components

  24. Chaos Circuit

  25. Third Jerk Circuit 11 components

  26. Simpler Jerk Circuit 9 components

  27. Inductor Jerk Circuit 7 components

  28. Delay Lline Oscillator 6 components

  29. http://sprott.physics.wisc.edu/ lectures/cktchaos/ (this talk) http://sprott.physics.wisc.edu/chaos/abschaos.htm sprott@physics.wisc.edu References

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