초록 ▼

An apparatus comprising a refueling controller. The refueling controller is configured to receive a number of operator commands for moving a refueling boom on a tanker aircraft in a desired direction. The number of operator commands defines at least one of an azimuth movement and an elevation moveme

An apparatus comprising a refueling controller. The refueling controller is configured to receive a number of operator commands for moving a refueling boom on a tanker aircraft in a desired direction. The number of operator commands defines at least one of an azimuth movement and an elevation movement of the refueling boom during flight of the tanker aircraft. The refueling controller is further configured to generate a number of intermediate commands for moving the refueling boom in the desired direction as defined by the number of operator commands. The number of intermediate commands defines at least one of a roll movement and a pitch movement such that the refueling boom moves in the desired direction.

대표청구항 ▼

1. An apparatus comprising: a refueling controller configured to receive a number of operator commands for moving a refueling boom on a tanker aircraft in a desired direction, wherein the number of operator commands defines at least one of an azimuth movement and an elevation movement of the refueli

1. An apparatus comprising: a refueling controller configured to receive a number of operator commands for moving a refueling boom on a tanker aircraft in a desired direction, wherein the number of operator commands defines at least one of an azimuth movement and an elevation movement of the refueling boom during flight of the tanker aircraft, generate a number of intermediate commands for moving the refueling boom in the desired direction as defined by the number of operator commands, and include an operator azimuth command and an operator elevation command, and are generated by movement of a control device, wherein the number of intermediate commands defines at least one of a roll movement and a pitch movement such that the refueling boom moves in the desired direction, and wherein the roll movement and the pitch movement result in substantially linear azimuth movement of the refueling boom from the operator azimuth command and substantially linear elevation movement of the refueling boom from the operator elevation command. 2. The apparatus of claim 1, wherein the number of operator commands is generated by the movement of the control device by an operator in a first direction that corresponds to the azimuth movement and in a second direction that corresponds to the elevation movement for the refueling boom. 3. The apparatus of claim 2, wherein the control device is a control stick. 4. The apparatus of claim 1, wherein a command transformer in the refueling controller is configured to receive the number of operator commands for moving the refueling boom on the tanker aircraft in the desired direction, wherein the number of operator commands defines at least one of the azimuth movement and the elevation movement of the refueling boom during flight of the tanker aircraft and generate the number of intermediate commands for moving the refueling boom in the desired direction as defined by the number of operator commands, wherein the number of intermediate commands defines at least one of the roll movement and the pitch movement such that the refueling boom moves in the desired direction. 5. The apparatus of claim 1 further comprising: a number of control laws, wherein the number of control laws is configured to process the number of intermediate commands to cause movement of the refueling boom using at least one of the roll movement and the pitch movement that results in at least one of the azimuth movement and the elevation movement. 6. The apparatus of claim 5, wherein the number of control laws is configured to generate movement commands and send the movement commands to a force generation system. 7. The apparatus of claim 6, wherein the force generation system is comprised of control surfaces. 8. The apparatus of claim 1, wherein the refueling controller is configured to perform a transformation of the number of operator commands to the number of intermediate commands, wherein the transformation is selected from at least one of a linear transformation and a non-linear transformation. 9. The apparatus of claim 8, wherein the transformation is performed using an inverse Jacobian matrix. 10. The apparatus of claim 1, wherein the desired direction comprises one or more of an azimuth direction, an elevation direction, and a telescopic direction. 11. An apparatus comprising: a refueling controller configured to receive a number of operator commands for moving a refueling boom on a tanker aircraft in a desired direction, wherein the number of operator commands defines at least one of an azimuth movement and an elevation movement of the refueling boom during flight of the tanker aircraft and generate a number of intermediate commands for moving the refueling boom in the desired direction as defined by the number of operator commands, wherein the number of operator commands include an operator azimuth command and an operator elevation command, wherein the number of intermediate commands defines at least one of a roll movement and a pitch movement such that the refueling boom moves in the desired direction, and wherein the roll movement and the pitch movement result in substantially linear azimuth movement of the refueling boom from the operator azimuth command and substantially linear elevation movement of the refueling boom from the operator elevation command. 12. The apparatus of claim 11, wherein the number of operator commands is generated by movement of a control device by an operator in a first direction that corresponds to the azimuth movement and in a second direction that corresponds to the elevation movement for the refueling boom. 13. The apparatus of claim 12, wherein the control device is a control stick. 14. The apparatus of claim 11, wherein a command transformer in the refueling controller is configured to receive the number of operator commands for moving the refueling boom on the tanker aircraft in the desired direction, wherein the number of operator commands defines at least one of the azimuth movement and the elevation movement of the refueling boom during flight of the tanker aircraft and generate the number of intermediate commands for moving the refueling boom in the desired direction as defined by the number of operator commands, wherein the number of intermediate commands defines at least one of the roll movement and the pitch movement such that the refueling boom moves in the desired direction. 15. The apparatus of claim 11 further comprising: a number of control laws, wherein the number of control laws is configured to process the number of intermediate commands to cause movement of the refueling boom using at least one of the roll movement and the pitch movement that results in at least one of the azimuth movement and the elevation movement. 16. The apparatus of claim 15, wherein the number of control laws is configured to generate movement commands and send the movement commands to a force generation system. 17. An apparatus comprising: a refueling controller configured to receive a number of operator commands for moving a refueling boom on a tanker aircraft in a desired direction, wherein the number of operator commands are generated by a control stick, wherein the number of operator commands defines at least one of an azimuth movement and an elevation movement of the refueling boom during flight of the tanker aircraft and generate a number of intermediate commands for moving the refueling boom in the desired direction as defined by the number of operator commands, wherein the number of operator commands include an operator azimuth command and an operator elevation command, wherein the number of intermediate commands defines at least one of a roll movement and a pitch movement such that the refueling boom moves in the desired direction and wherein the roll movement and the pitch movement result in substantially linear azimuth movement of the refueling boom from the operator azimuth command and substantially linear elevation movement of the refueling boom from the operator elevation command. 18. The apparatus of claim 17, wherein an operator moves the control stick in a first direction that corresponds to the azimuth movement and in a second direction that corresponds to the elevation movement for the refueling boom. 19. The apparatus of claim 18, wherein the refueling controller is configured to perform a transformation of the number of operator commands to the number of intermediate commands, wherein the transformation is selected from at least one of a linear transformation and a non-linear transformation. 20. The apparatus of claim 19, wherein the transformation is performed using an inverse Jacobian matrix.