초록 ▼

A system including an input sensor, a summer, a controller, and a feedback sensor. The input sensor: detects a first amount of force or torque applied on a component of an x-ray scanner gantry in a direction; and generates a command signal. The command signal indicates the first amount of force or t

A system including an input sensor, a summer, a controller, and a feedback sensor. The input sensor: detects a first amount of force or torque applied on a component of an x-ray scanner gantry in a direction; and generates a command signal. The command signal indicates the first amount of force or torque. The summer generates an error signal based on the command signal and a feedback signal. The controller controls operation of a motor based on the error signal to: reduce the error signal; provide counterbalancing of the gantry in the direction; and provide a net force or torque on the gantry that is equal to a predetermined value or is within a predetermined range of the predetermined value. The feedback sensor detects a second amount of force or torque applied on the gantry in the direction as a result of the controlled operation and generates the feedback signal.

대표청구항 ▼

1. A system comprising: a first input sensor configured to (i) detect a first amount of force or torque applied by a user on a first component of an x-ray scanner gantry in a first direction, and (ii) generate a first input command signal, wherein the first input command signal indicates the first a

1. A system comprising: a first input sensor configured to (i) detect a first amount of force or torque applied by a user on a first component of an x-ray scanner gantry in a first direction, and (ii) generate a first input command signal, wherein the first input command signal indicates the first amount of force or torque;a first summer configured to generate a first error signal based on the first input command signal and a first feedback signal;a first controller configured to control operation of a motor based on the error signal to (i) reduce the first error signal, (ii) provide counterbalancing of the x-ray scanner gantry in the first direction, and (iii) provide a net force or torque on the x-ray scanner gantry in the first direction that is equal to a predetermined value or is within a predetermined range of the predetermined value; anda first feedback sensor configured to (i) detect a second amount of force or torque applied on the x-ray scanner gantry in the first direction as a result of the controlled operation of the motor, and (ii) generate the first feedback signal based on the detected second amount of force or torque. 2. The system of claim 1, wherein the predetermined value is zero. 3. The system of claim 1, wherein the first component is a handle mounted on the first input sensor. 4. The system of claim 1, wherein: the first controller is configured to generate a motor command signal based on the first error signal; andthe motor is configured to apply the second amount of force or torque on the x-ray scanner gantry in the first direction based on the motor command signal. 5. The system of claim 1, wherein the first input sensor comprises a load cell or a strain gauge. 6. The system of claim 1, further comprising a second controller configured to generate an output signal, wherein the first summer is configured to generate the first error signal based on the output signal. 7. The system of claim 6, further comprising: a second input sensor configured to (i) detect movement of the first component, and (ii) generate a second input command signal, wherein the second input command signal commands movement of the x-ray scanner gantry in the direction;a second summer configured to generate a second error signal based on the second input command signal and a second feedback signal,wherein the second controller is configured to generate the output signal based on the second error signal; anda second feedback sensor configured to generate the second feedback signal based on the result of the controlled operation of the motor. 8. The system of claim 7, further comprising: a switch configured to connect the second input sensor to the second summer to move the x-ray scanner gantry to a user selected position; anda control module configured to change a state of the switch to maintain the user selected position of the x-ray scanner gantry as a result of the first amount of force or torque applied by the user on the first component. 9. The system of claim 7, further comprising: a switch configured to disconnect a position control loop of the system, wherein the position control loop includes the second summer, the second controller and the second feedback sensor; anda control module configured to change a state of the switch to transition between a first mode and a second mode, wherein during the first mode, the position control loop is connected and the first controller is providing the net force or torque based on both the first input command signal and the second input command signal, andduring the second mode, the position control loop is disconnected and the first controller is providing the net force or torque based on the first input command signal and not the second input command signal. 10. A system comprising: an input sensor configured to (i) detect movement of a first component of an x-ray scanner gantry by a user, and (ii) generate an input command signal, wherein the input command signal commands movement of the x-ray scanner gantry in a direction;a summer configured to generate an error signal based on the input command signal and a feedback signal;a controller configured to control operation of a motor based on the error signal to (i) reduce the error signal, (ii) provide counterbalancing of the x-ray scanner gantry in the direction, and (iii) provide a net force on the x-ray scanner gantry in the direction that is equal to a predetermined value or is within a predetermined range of the predetermined value; anda feedback sensor configured to (i) detect movement of the x-ray scanner gantry in the direction as a result of the controlled operation of the motor, and (ii) generate the feedback signal based on the detected movement. 11. The system of claim 10, wherein the predetermined value is zero. 12. The system of claim 10, wherein the first component is a handle mounted on the input sensor. 13. The system of claim 10, wherein: the controller is configured to generate a motor command signal based on the error signal; andthe motor is configured to move the x-ray scanner gantry in the direction based on the motor command signal. 14. The system of claim 10, wherein the movement of the first component is detected based on a change in position of the first component, a change in velocity of the first component, or a change in acceleration of the first component. 15. The system of claim 10, wherein: the input command signal indicates a position of the first component; andthe feedback signal indicates a position of a second component of the x-ray scanner. 16. A method comprising: detecting, via a first input sensor, a first amount of force or torque applied by a user on a component of an x-ray scanner gantry in a first direction;generating a first input command signal, wherein the first input command signal indicates the first amount of force or torque;generating a first error signal based on the first input command signal and a first feedback signal;controlling operation of a motor based on the error signal to (i) reduce the first error signal, (ii) provide counterbalancing of the x-ray scanner gantry in the first direction, and (iii) provide a net force or torque on the x-ray scanner gantry in the first direction that is equal to a predetermined value or is within a predetermined range of the predetermined value;detecting, via a first feedback sensor, a second amount of force or torque applied on the x-ray scanner gantry in the first direction as a result of the controlled operation of the motor; andgenerating the first feedback signal based on the second amount of force or torque. 17. The method of claim 16, further comprising generating an output signal via a controller, wherein the first error signal is generated based on the output signal. 18. The method of claim 17, further comprising: detecting, via a second input sensor, movement of the component;generating a second input command signal, wherein the second input command signal commands movement of the x-ray scanner gantry in the direction;generating a second error signal based on the second input command signal and a second feedback signal,wherein the output signal is generated based on the second error signal; andgenerating, via a second feedback sensor, the second feedback signal based on the result of the controlled operation of the motor. 19. The method of claim 18, further comprising: connecting, via a switch, the second input sensor to a summer to move the x-ray scanner gantry to a user selected position; andchanging a state of the switch to maintain the user selected position of the x-ray scanner gantry as a result of the first amount of force or torque applied by the user on the component. 20. The method of claim 18, further comprising: disconnecting, via a switch, a position control loop, wherein the position control loop includes the second feedback sensor; andchanging a state of the switch to transition between a first mode and a second mode, wherein during the first mode, the position control loop is connected and the net force or torque is provided via the motor based on both the first input command signal and the second input command signal, andduring the second mode, the position control loop is disconnected and the net force or torque is provided based on the first input command signal and not the second input command signal.