Flexible truss systems and methods of transferring flexible composite parts using such systems

What is claimed is: 1. A flexible truss mechanism comprising: flexible elongated members, extending along a principal axis of the flexible truss mechanism; slidable ribs, coupled to each of the flexible elongated members and supporting the flexible elongated members with respect to each other, wherein: the slidable ribs are spaced apart from each other along the principal axis of the flexible truss mechanism; the slidable ribs are configured to receive and support one or more composite pick-and-place mechanisms; and each of the slidable ribs is slidably coupled to at least one of the flexible elongated members, thereby allowing each of the slidable ribs to slide relative to the at least one of the flexible elongated members along the principal axis and allowing the flexible elongated members to bend about at least one axis, perpendicular to the principal axis. 2. The flexible truss mechanism of claim 1 , wherein: each of the slidable ribs comprises a position lock, for each of the flexible elongated members, slidable relative to the slidable ribs; and the position lock is configured to lock a corresponding one of the slidable ribs in a set position, relative to the at least one of the flexible elongated members. 3. The flexible truss mechanism of claim 2 , wherein: the position lock is switchable between a locked position and an unlocked position; when the position lock is in the locked position, the position lock prevents the corresponding one of the slidable ribs from sliding relative to the at least one of the flexible elongated members; and when the position lock is in the unlocked position, the position lock allows the corresponding one of the slidable ribs to slide relative to the at least one of the flexible elongated members. 4. The flexible truss mechanism of claim 3 , wherein: the position lock comprises a linear actuator, a cutout nut, and a threaded position shaft, fixedly connected to the at least one of the flexible elongated members; the linear actuator is coupled to the cutout nut and configured to move the cutout nut relative to the threaded position shaft between a shaft-engaging position and a shaft-disengaging position; the shaft-engaging position corresponds to the locked position of the position lock; and the shaft-disengaging position corresponds to the unlocked position of the position lock. 5. The flexible truss mechanism of claim 1 , wherein each of the slidable ribs is slidably coupled to at least two of the flexible elongated members, thereby allowing each of the slidable ribs to slide relative to the at least two of the flexible elongated members along the principal axis. 6. The flexible truss mechanism of claim 1 , wherein: each of the slidable ribs comprises a sliding mechanism for each of the flexible elongated members, slidable relative to the slidable ribs; and the sliding mechanism comprises one or more rollers, rollably engaging the at least one of the flexible elongated members. 7. The flexible truss mechanism of claim 1 , wherein each of the slidable ribs comprises a plurality of supporting arms, wherein each of the plurality of supporting arms defines, at least in part, a distance between a corresponding pair of the flexible elongated members. 8. A flexible truss system comprising: a flexible truss mechanism, comprising flexible elongated members, extending along a principal axis of the flexible truss mechanism, and slidable ribs, coupled to each of the flexible elongated members; and pick-and-place mechanisms, wherein: each of the pick-and-place mechanisms is supported by a corresponding one of the slidable ribs; and each of the slidable ribs is slidably coupled to at least one of the flexible elongated members, thereby allowing each of the slidable ribs to slide relative to the at least one of the flexible elongated members along the principal axis and allowing the flexible elongated members to bend about at least one axis, perpendicular to the principal axis. 9. The flexible truss system of claim 8 , further comprising a vacuum source, wherein each of the pick-and-place mechanisms comprises a suction cup, configured to be controllably connected to the vacuum source. 10. The flexible truss system of claim 8 , wherein: each of the slidable ribs comprises a position lock, for each of the flexible elongated members, slidable relative to the slidable ribs; and the position lock is configured to lock a corresponding one of the slidable ribs in a set position, relative to the at least one of the flexible elongated members. 11. The flexible truss system of claim 10 , wherein: the position lock is switchable between a locked position and an unlocked position; when the position lock is in the locked position, the position lock prevents the corresponding one of the slidable ribs from sliding relative to the at least one of the flexible elongated members; and when the position lock is in the unlocked position, the position lock allows the corresponding one of the slidable ribs to slide relative to the at least one of the flexible elongated members. 12. The flexible truss system of claim 11 , wherein: the position lock comprises a linear actuator, a cutout nut, and a threaded position shaft, fixedly connected to the at least one of the flexible elongated members; the linear actuator is coupled to the cutout nut and configured to move the cutout nut relative to the threaded position shaft between a shaft-engaging position and a shaft-disengaging position; the shaft-engaging position corresponds to the locked position of the position lock; and the shaft-disengaging position corresponds to the unlocked position of the position lock. 13. The flexible truss system of claim 12 , further comprising a pressure source, wherein the linear actuator of the position lock of each of the slidable ribs is a pneumatic cylinder, controllably coupled to the pressure source. 14. The flexible truss system of claim 13 , further comprising a system controller, communicatively coupled to the pressure source and configured to selectively connect and disconnect the linear actuator of the position lock of each of the slidable ribs from the pressure source. 15. A method of transferring a flexible composite part using a flexible truss system comprising a flexible truss mechanism and pick-and-place mechanisms, wherein the flexible truss mechanism comprises flexible elongated members and slidable ribs, coupled to each of the flexible elongated members and supporting the flexible elongated members with respect to each other, the method comprising: sliding at least one of the slidable ribs relative to at least one of the flexible elongated members, thereby allowing the flexible elongated members to bend and allowing each of the pick-and-place mechanisms to form contact with the flexible composite part; locking the slidable ribs relative to the at least one of the flexible elongated members in set positions, thereby preserving shape of the flexible elongated members and maintaining the contact between each of the pick-and-place mechanisms and the flexible composite part; and transferring the flexible composite part using the flexible truss system while maintaining the contact between each of the pick-and-place mechanisms and the flexible composite part. 16. The method of claim 15 , further comprising: disengaging the flexible composite part from each of the pick-and-place mechanisms; and unlocking the positions of the slidable ribs relative to the at least one of the flexible elongated members. 17. The method of claim 15 , further com