Outline

1. Fractional Order Ultra Low-Speed Position Servo: Improved Performance viaDescribing Function AnalysisCenter for Self-Organizing Intelligent Systems (CSOIS), Dep. Electrical and Computer Engineering, Utah State University, Logan, UT, USA.Speaker: Ying LuoAdvisor: YangQuan Chen2-20-2009

2. Introduction Low Speed Position Tracking using IOPI and FOPD Static / Dynamic Models of Friction and Describing Functions for Friction Models Bode Plots Comparison of IOPI and FOPD using DF Experiment Conclusion Outline 2

3. Introduction Low Speed Position Tracking using IOPI and FOPD Static / Dynamic Models of Friction and Describing Functions for Friction Models Bode Plots Comparison of IOPI and FOPD using DF Experiment Conclusion Outline 3

4. Introduction 4

5. Introduction 5

6. Introduction 6

7. Introduction 7

8. Introduction Low Speed Position Tracking using IOPI and FOPD Static / Dynamic Models of Friction and Describing Functions for Friction Models Bode Plots Comparison of IOPI and FOPD using DF Experiment Conclusion Outline 8

9. Low Speed Position Tracking using IOPI and FOPD 9

10. Low Speed Position Tracking using IOPI and FOPD 10

11. Low Speed Position Tracking using IOPI and FOPD 11

12. Low Speed Position Tracking using IOPI and FOPD 12

13. Low Speed Position Tracking using IOPI and FOPD 13

14. Low Speed Position Tracking using IOPI and FOPD 14

15. Low Speed Position Tracking using IOPI and FOPD 15

16. Low Speed Position Tracking using IOPI and FOPD 16

17. Low Speed Position Tracking using IOPI and FOPD 17

18. Low Speed Position Tracking using IOPI and FOPD 18

19. Low Speed Position Tracking using IOPI and FOPD 19

20. Low Speed Position Tracking using IOPI and FOPD 20

21. Low Speed Position Tracking using IOPI and FOPD 21

22. Low Speed Position Tracking using IOPI and FOPD 22

23. Introduction Low Speed Position Tracking using IOPI and FOPD Static / Dynamic Models of Friction and Describing Functions for Friction Models Bode Plots Comparison of IOPI and FOPD using DF Experiment Conclusion Outline 23

24. Friction Models and DF for Friction Models 24

25. Friction Models and DF for Friction Models 25

26. Friction Models and DF for Friction Models 26

27. Friction Models and DF for Friction Models 27

28. Friction Models and DF for Friction Models 28

29. Friction Models and DF for Friction Models 29

30. Friction Models and DF for Friction Models 30

31. Friction Models and DF for Friction Models 31

32. Friction Models and DF for Friction Models 32

33. Friction Models and DF for Friction Models 33

34. Friction Models and DF for Friction Models 34

35. Friction Models and DF for Friction Models 35

36. Friction Models and DF for Friction Models 36

37. Friction Models and DF for Friction Models 37

38. Friction Models and DF for Friction Models 38

39. Friction Models and DF for Friction Models 39

40. Low Speed Position Tracking using IOPI and FOPD 40

41. Introduction Low Speed Position Tracking using IOPI and FOPD Static / Dynamic Models of Friction and Describing Functions for Friction Models Bode Plots Comparison of IOPI and FOPD using DF Experiment Conclusion Outline 41

42. Bode Plots Comparison of IOPI and FOPD using DF 42

43. Bode Plots Comparison of IOPI and FOPD using DF 43

44. Bode Plots Comparison of IOPI and FOPD using DF 44

45. Bode Plots Comparison of IOPI and FOPD using DF 45

46. Experiment 46

47. Bode Plots Comparison of IOPI and FOPD using DF 47

48. Bode Plots Comparison of IOPI and FOPD using DF 48

49. Experiment 49

50. Introduction Low Speed Position Tracking using IOPI and FOPD Static / Dynamic Models of Friction and Describing Functions for Friction Models Bode Plots Comparison of IOPI and FOPD using DF Experiment Conclusion Outline 50