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One preferred embodiment of the invention provides systems and methods for controlling a physical system by generating an input to the physical system that does not excite unwanted dynamics. Briefly described, one embodiment of the system among others, can be broadly summarized by as follows. A cont

One preferred embodiment of the invention provides systems and methods for controlling a physical system by generating an input to the physical system that does not excite unwanted dynamics. Briefly described, one embodiment of the system among others, can be broadly summarized by as follows. A control entity generates a desired motion command for a physical system. A command generator then produces a shaped-smooth reference command for the physical system from the desired motion command that will cause the physical system to move in the desired motion without unwanted dynamics. Methods and other systems are also provided.

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1. A system for controlling a physical system by generating an input to the physical system that does not excite unwanted dynamics comprising:a command generator responsive to a motion command to generate a shaped-smooth command as input to the physical system for controlling the physical system whi

1. A system for controlling a physical system by generating an input to the physical system that does not excite unwanted dynamics comprising:a command generator responsive to a motion command to generate a shaped-smooth command as input to the physical system for controlling the physical system while suppressing unwanted dynamics in the physical system, wherein the shaped-smooth command is formed by combining a smooth command profile with an input shaper, the shaped-smooth command suppressing unwanted dynamics within the physical system, the unwanted dynamics including at least one low mode and at least one high mode. 2. The system of claim 1, further comprising:a moveable structure within the physical system; and a control device functionally connected to the moveable structure and operable to generate the motion command for directing a desired movement of the moveable structure. 3. The system of claim 1, wherein the unwanted dynamics include residual vibrations occurring at at least one low mode and a range of high modes.4. The system of claim 1, the command generator further comprising:an apparatus for converting the motion command to a smooth baseline reference command; an apparatus for convolving the smooth baseline reference command with a particular impulse sequence to produce the shaped-smooth command. 5. The system of claim 4, wherein the smooth baseline reference command is designed to have a short rise time to minimize unwanted dynamics at a range of high modes and not at low modes.6. The system of claim 4, wherein the particular impulse sequence is designed to remove unwanted dynamics at a particular low mode based upon characteristics of the physical system.7. The system of claim 4, wherein the particular impulse sequence is designed to remove unwanted dynamics at a plurality of particular low modes based upon characteristics of the physical system.8. The system of claim 4, wherein the smooth baseline reference command comprises a S-curve profile.9. The system of claim 4, wherein the particular impulse sequence contains negative impulses.10. The system of claim 1, wherein the command generator generates a particular shaped-smooth command based upon a particular mode ratio of unwanted dynamics.11. The system of claim 1, wherein the command generator suppresses the unwanted dynamics below a predefined level.12. A system for controlling a physical system by generating an input to the physical system that does not excite unwanted dynamics comprising:means for generating a motion command for the physical system; and means for generating a shaped-smooth command as input to the physical system from the motion command that suppresses unwanted dynamics in the physical system, wherein the shaped-smooth command is formed by combining a smooth command profile with an input shaper, the shaped-smooth command suppressing unwanted dynamics within the physical system, the unwanted dynamics including at least one low mode and at least one high mode. 13. The system of claim 12, the means for generating a shaped-smooth command comprising:means for converting the motion command to a smooth command; and means for convolving the smooth command with an impulse sequence to produce the shaped-smooth command. 14. The system of claim 12, further comprising:means for identifying a mode ratio of unwanted dynamics in the physical system, wherein the motion command is converted to a particular shaped-smooth command based upon the mode ratio. 15. A method for controlling a physical system by generating an input to the physical system that does not excite unwanted dynamics comprising:receiving a motion command for the physical system; and generating a shaped-smooth command as input to the physical system from the motion command that suppresses unwanted dynamics in the physical system, wherein the shaped-smooth command is formed by combining a smooth command profile with an input shaper, the shaped-smooth command suppressing unwanted dynamics within the physical system, the unwanted dynamics including at least one low mode and at least one high mode. 16. The method of claim 15, the generating step comprising:identifying important characteristics about the unwanted dynamics of the physical system; and designing the shaped-smooth command based upon these important characteristics. 17. The method of claim 16, wherein the important characteristics include a low mode of residual vibration and a high mode range of residual vibration.18. The method of claim 16, wherein the important characteristics include a plurality of low modes of residual vibration and a high mode range of residual vibration.19. The method of claim 16, wherein the important characteristics include a damping ratio.20. The method of claim 16, wherein the important characteristics include a mode ratio of unwanted dynamics that determines a particular type of shaped-smooth command that is to be generated for a particular mode ratio.21. The method of claim 15, the generating step comprising:converting the motion command to a smooth command; and convolving the smooth command with an impulse sequence to produce the shaped-smooth command. 22. The method of claim 21, wherein the smooth command is designed to have a short rise time to minimize unwanted dynamics at high modes and not at low modes.23. The method of claim 21, wherein the smooth command comprises a curve profile.24. The method of claim 21, wherein the impulse sequence contains negative impulses.25. The method of claim 15, the generating step comprising:identifying a mode ratio from the unwanted dynamics of the physical system; and for a particular mode ratio, producing a particular shaped-smooth command that minimizes unwanted dynamics characterized by the particular mode ratio. 26. The method of claim 15, the generating step comprising:identifying a mode ratio from the unwanted dynamics of the physical system; generating a shaped step input command if the mode ratio is less than a mode ratio parameter; and generating the shaped-smooth command if the mode ratio is more than the mode ratio parameter. 27. The method of claim 15, the generating step comprising:identifying a mode ratio from the unwanted dynamics of the physical system; generating a shaped step input command if the mode ratio is less than a first mode ratio parameter; generating a first shaped-smooth command if the mode ratio is more than the first mode ratio parameter and less than a second mode ratio parameter; and generating a second shaped-smooth command if the mode ratio is more than the second mode ratio parameter. 28. The method of claim 15, wherein the unwanted dynamics are suppressed below a predefined level.29. A computer readable medium having a computer program for controlling a physical system by generating an input to the physical system that does not excite unwanted dynamics, the program for performing the steps of:receiving a motion command for the physical system; and generating a shaped-smooth command as input to the physical system from the motion command that suppresses unwanted dynamics in the physical system, wherein the shaped-smooth command is formed by combining a smooth command profile with an input shaper, the shaped-smooth command suppressing unwanted dynamics within the physical system, the unwanted dynamics including at least one low mode and at least one high mode. 30. The medium of claim 29, the generating step comprising:identifying important characteristics about the unwanted dynamics of the physical system; and designing the shaped-smooth command based upon these important characteristics. 31. The medium of claim 29, the generating step comprising:converting the motion command to a smooth command; and convolving the smooth command with an impulse sequence to produce the shaped-smooth command. 32. The medium of claim 29, the generating step comprising:identifying a mode ratio from the unwanted dynamics of the physical system; and for a particular mode ratio, producing a particular shaped-smooth command that minimizes unwanted dynamics characterized by the particular mode ratio. 33. The medium of claim 29, the generating step comprising:identifying a mode ratio from the unwanted dynamics of the physical system; generating a shaped step input command if the mode ratio is less than a mode ratio parameter; and generating the shaped-smooth command if the mode ratio is more than the mode ratio parameter. 34. The medium of claim 29, the generating step further comprising:identifying a mode ratio from the unwanted dynamics of the physical system; generating a shaped step input command if the mode ratio is less than a first mode ratio parameter; generating a first shaped-smooth command if the mode ratio is more than the first mode ratio parameter and less than a second mode ratio parameter; and generating a second shaped-smooth command if the mode ratio is more than the second mode ratio parameter.