Method and apparatus for bonding stringers to a fuselage skin

What is claimed is: 1. A joining system, comprising: a holding fixture assembly configured to hold a fuselage skin, wherein at least one of a plurality of stringers is temporarily attached to the fuselage skin, and each of the plurality of stringers includes at least one flange; an upper beam assembly including an upper beam; a lower beam assembly including a lower beam and at least one lower heating element, the holding fixture assembly being coupled to the upper beam assembly, and the holding fixture assembly being coupled to the lower beam assembly, and the at least one lower heating element is configured to apply heat to the at least one flange to weld the fuselage skin to the at least one flange; wherein the upper beam is movable relative to the lower beam to clamp the at least one of the plurality of stringers and the fuselage skin together prior to and during welding; and wherein the holding fixture assembly comprises a plurality of rings and a plurality of longitudinal members coupled to the plurality of rings, wherein the plurality of rings and the plurality of longitudinal members hold the fuselage skin in an approximately nominal condition. 2. The joining system of claim 1 , wherein the at least one lower heating element is a welder, and the welder is configured to weld the fuselage skin to an entirety of the at least one flange all at once. 3. The joining system of claim 2 , wherein the upper beam assembly includes a plurality of pressure feet coupled to the upper beam, each of the plurality of pressure feet is configured to apply pressure to the fuselage skin and the plurality of stringers, the upper beam assembly further includes an inflatable bladder coupled to each of the plurality of pressure feet, the holding fixture assembly is configured to orient the fuselage skin and the plurality of stringers in a normal orientation relative to the upper beam and the lower beam, each of the plurality of pressure feet is movable relative to the lower beam to hold the at least one of the plurality of stringers against the fuselage skin, each of the plurality of pressure feet is configured to compress the at least one of the plurality of stringers and the fuselage skin together using the inflatable bladder, and the welder is configured to conduct a conductive thermoplastic welding process. 4. The joining system of claim 3 , wherein the upper beam assembly further includes a plurality of pneumatic cylinders each coupled to the upper beam and a respective one of the plurality of pressure feet. 5. The joining system of claim 1 , wherein the joining system further includes a plurality of cradles coupled to the plurality of rings to rotate the plurality of rings. 6. The joining system of claim 1 , further comprising a first end support and a second end support, the upper beam includes a first beam end and a second beam end opposite the first beam end, the first end support is coupled at the first beam end, the second end support is coupled at the upper beam, and each of the first end support and the second end support includes a guide and a mechanical linear actuator to move the upper beam in a vertical direction relative to the lower beam. 7. A joining system, comprising: a holding fixture assembly configured to hold a fuselage skin, wherein at least one of a plurality of stringers is temporarily attached to the fuselage skin, and each of the plurality of stringers includes at least one flange; an upper beam assembly including an upper beam; a lower beam assembly including a lower beam and at least one lower heating element, the holding fixture assembly being coupled to the upper beam assembly, and the holding fixture assembly being coupled to the lower beam assembly, and the at least one lower heating element is configured to apply heat to the at least one flange to weld the fuselage skin to the at least one flange; wherein the upper beam is movable relative to the lower beam to clamp the at least one of the plurality of stringers and the fuselage skin together prior to and during welding; and wherein the lower beam assembly comprises at least one thermally insulative block disposed on the lower beam, the at least one lower heating element is disposed on the at least one thermally insulative block, and the lower beam assembly further includes a plurality of platen plates disposed on the at least one lower heating element. 8. A joining system, comprising: a holding fixture assembly configured to hold a fuselage skin, wherein at least one stringer is temporarily attached to the fuselage skin, the at least one stringer includes at least one flange; an upper beam assembly including an upper beam; a lower beam assembly including a lower beam and at least one lower heating element, the holding fixture assembly being coupled to the upper beam assembly, and the holding fixture assembly being coupled to the lower beam assembly; wherein the upper beam is movable relative to the lower beam to clamp the at least one stringer and the fuselage skin together prior to and during welding; wherein the at least one lower heating element is configured to weld an entirety of the at least one flange of the at least one stringer to the fuselage skin all at once; wherein the upper beam assembly includes a plurality of pressure feet coupled to the upper beam, wherein each of the plurality of pressure feet is configured to apply pressure to the fuselage skin and the at least one stringer; and wherein the upper beam assembly further includes an inflatable bladder coupled to each of the plurality of pressure feet, wherein each of plurality of pressure feet is configured to compress the at least one stringer and the fuselage skin together using the inflatable bladder prior to and during the welding. 9. The joining system of claim 8 , wherein the holding fixture assembly is configured to orient the fuselage skin and the at least one stringer in a normal orientation relative to the upper beam and the lower beam, each of the plurality of pressure feet is movable relative to the lower beam to hold the at least one stringer against the fuselage skin, wherein the at least one lower heating element is a welder, and the welder is configured to conduct a conductive thermoplastic welding process. 10. The joining system of claim 9 , wherein the upper beam assembly further includes a plurality of pneumatic cylinders each coupled to the upper beam and a respective one of the plurality of pressure feet. 11. The joining system of claim 10 , wherein the upper beam assembly further includes a plurality of heim joints each coupled between a respective one of the plurality of pneumatic cylinders and the respective one of the plurality of pressure feet. 12. A method of joining a stringer to a fuselage skin, comprising: holding the fuselage skin via a holding fixture assembly, wherein the stringer is temporarily attached to the fuselage skin, and wherein the holding fixture assembly is coupled to an upper beam assembly and a lower beam assembly; clamping at least one flange of the stringer and the fuselage skin together; welding the at least one flange of the stringer to the fuselage skin by applying heat, via at least one lower heating element of the lower beam assembly, to the at least one flange to weld the fuselage skin to the at least one flange; wherein clamping the at least one flange of the stringer and the fuselage skin together includes moving an upper beam of the upper beam assembly relative to a lower beam of the lower beam assembly to clamp the stringer and the fuselage skin together prior to and during welding; and wherein the lower beam assembly includes at least one thermally insulative block dispos