IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0152662
(2002-05-20)
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발명자
/ 주소 |
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
4 |
초록
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A control system (102) operates within a dynamic range, and a follow-up system (104) is commanded to reduce a positional error between the follow-up system and the control system when the dynamic range is exceeded. A linear follow-up command may be initially provided once a dead band value (208) is
A control system (102) operates within a dynamic range, and a follow-up system (104) is commanded to reduce a positional error between the follow-up system and the control system when the dynamic range is exceeded. A linear follow-up command may be initially provided once a dead band value (208) is exceeded. The follow-up system (104) is driven relative to its base mount (103) in a direction to reduce the positional error to within a null value range (214). The follow-up command may also implement a decay function to control the follow-up system (104). A control variable transfer function may also be utilized to gradually subtract the dead band value from the follow-up system position error command as a function of time. The decaying function may include linear as well as non-linear decaying functions. In one embodiment, a figure eight-type hysteresis control function may be implemented to control the inertial position of an inertial element. The various embodiments of the present invention may be suitable for space-based laser designating and targeting systems, space-based camera-positioning systems, space-based telescopes, and radar antenna positioning systems.
대표청구항
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1. A method for controlling a follow-up system comprising:providing a first position control command to the follow-up system when a relative position between the follow-up system and a controlling system initially exceeds a dead-band value; and providing a second position control command to the foll
1. A method for controlling a follow-up system comprising:providing a first position control command to the follow-up system when a relative position between the follow-up system and a controlling system initially exceeds a dead-band value; and providing a second position control command to the follow-up system while the relative position exceeds a null value, the null value being less than the dead-band values, wherein the first position control command implements a substantially linear function increasing from a zero initial value in relation to an amount the dead-band value is exceeded to provide a smooth transition for controlling the follow-up system, the first position control command allowing an increase in the relative position beyond the dead-band value. 2. The method of claim 1 wherein the follow-up system is responsive to the first and second position control commands, the first position control command placing the follow-up system in motion, the second position control command to reduce the relative position, andwherein the second position control command is initially provided at approximately a current value of the first position control command. 3. The method of claim 1 further comprising:refraining from providing the first position control command to the follow-up system until the dead-band value is initially exceeded; and refraining from providing the second position control command to the follow-up system once the relative position no longer exceeds the null value. 4. The method of claim wherein 1 the follow-up system is part of a outer gimbal and the controlling system is part of an inner gimbal located within the outer gimbal, the inner and outer gimbals having either a common or orthogonal axis of rotation, and wherein the relative position is a relative inertial position.5. The method of claim 2 wherein the second position control command is provided after the first position control command and while the follow-up system is still in motion.6. The method of claim 1 wherein the substantially linear function implemented by the first position control command is approximately linearly proportional to the amount the dead-band value is exceeded, andwherein the second position control command implements a decaying function being initially provided at approximately a current value of the first position control command. 7. A method for controlling a follow-up system comprising:providing a first position control command to the follow-up system when a relative position between the follow-up system and a controlling system initially exceeds a dead-band value; and providing a second position control command to the follow-up system while the relative position exceeds a null value, the null value being less than the dead-band value, wherein the first position control command implements a substantially linear function, and the second position control command implements a decaying function, and wherein the decaying function includes at least one of an exponential decaying function, a powered decaying function, a piecewise linear decaying function, a non-linear decaying function, a discrete decaying function or a linear decaying function. 8. A method for controlling a follow-up system comprising:providing a first position control command to the follow-up system when a relative position between the follow-up system and a controlling system initially exceeds a dead-band value; providing a second position control command to the follow-up system while the relative position exceeds a null value, the null value being less than the dead-band value; refraining from providing the first position control command to the follow-up system until the dead-band value is initially exceeded; refraining from providing the second position control command to the follow-up system once the relative position no longer exceeds the null value; and providing a third position control command to the follow-up system once the relative position no longer exceeds the null value, the third position control command instructing the follow-up system to refrain from motion. 9. A follow-up system comprising:a relative position sensor to determine a relative position between the follow-up system and a controlling system; and a controller to generate a first position control command when the relative position initially exceeds a dead-band value, and to generate a second position control command while the relative position exceeds a null value, the null value being less than the dead-band value, wherein the first position control command implements a substantially linear function increasing from a zero initial value in relation to an amount the dead-band value is exceeded to provide a smooth transition for controlling the follow-up system, the first position control command allowing an increase in the relative position beyond the dead-band value. 10. The follow-up system of claim 9 further comprising electro-mechanical elements responsive to the first position control command to place the follow-up system in motion, and responsive to the second position control command to move the follow-up system to reduce the relative position.11. The follow-up system of claim 10 wherein the second position control command is provided by the controller after the first position control command and while the follow-up system is in motion caused by the first position control command, andwherein the first position control command causes the electro-mechanical elements to implement the substantially linear function, and the second position control command causes the electro-mechanical elements to implement a decaying function, wherein the substantially linear function is approximately linearly proportional to the amount the dead-band value is exceeded, and wherein the decaying function is initially provided at approximately a current value of the first position control command. 12. The follow-up system of claim 11 wherein the follow-up system is part of an outer gimbal and the controlling system is part of an inner gimbal located within the outer gimbal, the inner and outer gimbals having either a common or orthogonal axis of rotation, and wherein the relative position is a relative inertial position.13. The follow-up system of claim 11 wherein the controlling system includes a fine laser-positioning device.14. The follow-up system of claim 11 wherein the follow-up system is part of a camera positioning system for use on a spacecraft.15. The follow-up system of claim 11 wherein the follow-up system is part of a telescope positioning system for use on a spacecraft.16. The follow-up system of claim 11 wherein the follow-up system is part of a radar antenna positioning system.17. The follow-up system of claim 12 wherein the first and second position control command instructs the outer gimbal to roll to null yaw of the inner gimbal.18. A method of controlling an optical sensing device located on a controlling system comprising:providing a first position control command to a follow-up system when a relative position between the follow-up system and the controlling system initially exceeds a dead-band value; and providing a second position control command to the follow-up system while the relative position exceeds a null value, the null value being less than the dead-band value, wherein the first position control command implements a substantially linear function increasing from a zero initial value in relation to an amount the dead-band value is exceeded to provide a smooth transition for controlling the follow-up system, the first position control command allowing an increase in the relative position beyond the dead-band value. 19. The method of claim 18 wherein the follow-up system is responsive to the first and second position control commands, the first position control command placing the follow-up system in motion, the second position control command to reduce the relative position,wherein the second position control command is provided after the first position control command and while the follow-up system is still in motion, and wherein the substantially linear function implemented by the first position control command is approximately linearly proportional to the amount the dead-band value is exceeded, and wherein the second position control command implements a decaying function that is initially provided at approximately a current value of the first position control command. 20. A method of controlling an optical sensing device located on a controlling system comprising:providing a first position control command to a follow-up system when a relative position between the follow-up system and the controlling system initially exceeds a dead-band value; and providing a second position control command to the follow-up system while the relative position exceeds a null value, the null value being less than the dead-band value, wherein the follow-up system is responsive to the first and second position control commands, the first position control command placing the follow-up system in motion, the second position control command to reduce the relative position, wherein the second position control command is provided after the first position control command and while the follow-up system is still in motion, wherein the first position control command implements a substantially linear function, and the second position control command implements a decaying function, and wherein the method further comprises: refraining from providing the first position control command to the follow-up system until the dead-band value is initially exceeded; refraining from providing the second position control command to the follow-up system once the relative position no longer exceeds the null value; providing a third position control command to the follow-up system once the relative position no longer exceeds the null value, the third position control command instructing the follow-up system to refrain from motion; and providing the third position control command to the follow-up system until the controlling system subsequently exceeds the dead-band value. 21. A laser designating system comprising:a relative position sensor to determine a relative position between a follow-up system and a controlling system; a controller to generate a first position control command when the relative position initially exceeds a dead-band value, and to generate a second position control command while the relative position exceeds a null value, the null value being less than the dead-band value; and electro-mechanical elements responsive to the first position control commands to place the follow-up system in motion to reduce the relative position, and responsive to the second position control command to move the follow-up system to further reduce the relative position, wherein the first position control command implements a substantially linear function increasing from a zero initial value in relation to an amount the dead-band value is exceeded to provide a smooth transition for controlling the follow-up system, the first position control command allowing an increase in the relative position beyond the dead-band value. 22. The system of claim 21 wherein the second position control command is provided by the controller after the first position control command and while the follow-up system is in motion, and wherein the first position control command causes the electro-mechanical elements to implement the substantially linear function, and the second position control command causes the electro-mechanical elements to implement a decaying function,wherein the substantially linear function is approximately linearly proportional to the amount the dead-band value is exceeded, and wherein the decaying function is initially provided at approximately a current value of the first position control command. 23. The system of claim 22 wherein the follow-up system is part of an outer gimbal and the controlling system is part of an inner gimbal located within the outer gimbal, the inner and outer gimbals having either a common or orthogonal axis of rotation, and wherein the relative position is a relative inertial position,wherein the first and second position control command instructs the outer gimbal to roll to null yaw of the inner gimbal. 24. An article comprising a storage medium having stored thereon instructions, that when executed by a computing platform, result in:providing a first position control command to a follow-up system when a relative position between a follow-up system and the controlling system initially exceeds a dead-band value; and providing a second position control command to the follow-up system while the relative position exceeds a null value, the null value being less than the dead-band value, wherein the follow-up system is responsive to the first and second position control commands, the first position control command placing the follow-up system in motion, the second position control command to reduce the relative position, wherein the second position control command is provided after the first position control command and while the follow-up system is still in motion, wherein the first position control command implements the substantially linear function, and the second position control command implements a decaying function, wherein the first position control command implements a substantially linear function increasing from a zero initial value in relation to an amount the dead-band value is exceeded to provide a smooth transition for controlling the follow-up system, the first position control command allowing an increase in the relative position beyond the dead-band value, wherein the substantially linear function is approximately linearly proportional to the amount the dead-band value is exceeded, and wherein the decaying function is initially provided at approximately a current value of the first position control command.
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