System and method of manufacturing suspension seating

What is claimed is: 1. A method of manufacturing suspension seating with a stretching machine, the stretching machine including a support frame and a tensioning mechanism movably coupled to the support frame, the tensioning mechanism having a clamping element and an actuator coupled to the clamping element to move the clamping element, the method comprising: providing a blank to be used in a suspension member, the blank having a non-visible marker, wherein the non-visible marker is a monofilament fiber having luminescent properties; gripping a portion of the blank with the clamping element; illuminating the non-visible marker with an excitation source, wherein the non-visible marker becomes detectable when illuminated by the excitation source; sensing the non-visible marker with a sensor, the sensor configured to detect the non-visible marker when illuminated by the excitation source; determining, by a controller, a characteristic of the blank using the non-visible marker, the controller in communication with the sensor and configured to receive information related to the non-visible marker from the sensor; comparing, by the controller, the characteristic of the blank to a desired characteristic; and adjusting the blank to achieve the desired characteristic. 2. The method of claim 1 , wherein the characteristic includes at least one selected from the group consisting of a position of the blank, a tension of the blank, an alignment of fibers of the blank, and an orientation of the blank. 3. The method of claim 1 , wherein adjusting the blank includes aligning the blank using the non-visible marker for guidance. 4. The method of claim 1 , wherein adjusting the blank includes stretching the blank with a plurality of tensioning mechanisms. 5. The method of claim 4 , wherein each tensioning mechanism includes a clamping element and an actuator coupled to the clamping element to move the clamping element, and further comprising gripping a portion of the blank with each clamping element. 6. The method of claim 5 , wherein adjusting the blank includes independently moving the clamping elements of the plurality of tensioning mechanisms by the actuators. 7. The method of claim 1 , wherein the blank has a plurality of non-visible markers, wherein adjusting the blank includes creating zones of varying tensions within the blank using the plurality of non-visible markers for guidance. 8. The method of claim 1 , further comprising determining, by the controller, tension within the blank by measuring a strain of the non-visible marker based on luminescence of the non-visible marker in response to the excitation source. 9. The method of claim 1 , wherein the blank has a plurality of non-visible markers, and further comprising determining tension within the blank by measuring displacement between two of the plurality of non-visible markers. 10. The method of claim 1 , wherein illuminating the non-visible marker with the excitation source includes illuminating the non-visible marker with an ultraviolet light, an infrared light, or both. 11. The method of claim 1 , wherein sensing the non-visible marker with the sensor includes sensing the non-visible marker with a camera. 12. The method of claim 1 , further comprising coupling a carrier of a chair seat or a chair backrest to the blank after the blank is adjusted to achieve the desired characteristic. 13. The method of claim 12 , wherein coupling the carrier to the blank includes molding the carrier to the blank. 14. A combination comprising: a blank having a non-visible marker, wherein the non-visible marker is a monofilament fiber having luminescent properties; and a stretching machine for creating a suspension member from the blank, the stretching machine comprising: a support frame; a tensioning mechanism movably coupled to the support frame, the tensioning mechanism including a clamping element configured to grip a portion of the blank and an actuator coupled to the clamping element to move the clamping element; an excitation source directed towards the blank and operable to selectively illuminate the non-visible marker in the blank, wherein the non-visible marker becomes visible when illuminated by the excitation source; a sensor configured to detect the non-visible marker when the non-visible marker is illuminated by the excitation source; and a controller in operative communication with the sensor and the tensioning mechanism, the controller operable to determine a characteristic of the blank based on information received from the sensor related to the non-visible marker, compare the characteristic of the blank to a desired characteristic, and send instructions to the tensioning mechanism to adjust the blank to achieve the desired characteristic. 15. The combination of claim 14 , wherein the characteristic includes at least one selected from the group consisting of a position of the blank, a tension of the blank, an alignment of fibers of the blank, and an orientation of the blank. 16. The combination of claim 14 , wherein the stretching machine further comprises a plurality of tensioning mechanisms movably coupled to the support frame, wherein each tensioning mechanism includes a clamping element and an actuator, and wherein the clamping elements of the plurality of tensioning mechanisms are configured to grip different edges of the blank. 17. The combination of claim 16 , wherein the clamping elements of the plurality of tensioning mechanisms are independently movable by the actuators. 18. The combination of claim 14 , wherein the controller is also operable to determine tension within the blank by measuring a strain of the non-visible marker based on luminescence of the non-visible maker in response to the excitation source. 19. The combination of claim 14 , wherein the blank includes a plurality of non-visible markers, and wherein the controller is also operable to determine tension within the blank by measuring displacement between two of the plurality of non-visible markers. 20. The combination of claim 14 , wherein the excitation source includes an ultraviolet light, an infrared light, or both. 21. The combination of claim 14 , wherein the controller is operable to repeatedly determine the characteristic, compare the characteristic to the desired characteristic, and send instructions to the tensioning mechanism to move the clamping element until the characteristic satisfies the desired characteristic. 22. The combination of claim 14 , wherein the tensioning mechanism is a first tensioning mechanism, further comprising a second tensioning mechanism, and wherein the first tensioning mechanism stretches the blank in a first direction and the second tensioning mechanism stretches the blank in a second direction perpendicular to the first direction. 23. The combination of claim 14 , wherein the tensioning mechanism stretches the blank in a first direction that is perpendicular to a second direction in which the non-visible marker extends. 24. The combination of claim 14 , wherein the blank has a plurality of non-visible markers, and wherein the controller is further operable to: monitor a change in distance between two of the plurality of non-visible markers, and compare the change in distance to a desired change in distance. 25. The combination of claim 14 , wherein the characteristic is an arrangement of a plurality of zones of the blank.