Systems for in-process quality control during drill-fill assembly

What is claimed is: 1. A fastener insertion system for use with an assembly stack-up, said fastener insertion system comprising: a one-sided fastener comprising a core bolt and a nut body; an end effector positioned at a location where said one-sided fastener is to be installed on the assembly stack-up, said end effector comprising: a drill bit configured to drill a hole through the assembly stack-up at the location; an automated calibrated probe configured to determine at least one parameter associated with the stack-up proximate the hole; and a fastener feed head configured to install the one-sided fastener into the hole and apply rotational torque to the core bolt to complete installation of the one-sided fastener, wherein said nut body comprises an anti-rotation flange configured to be engaged by said fastener feed head; a processing device; and a rotation angle sensor communicatively coupled to said processing device and to said end effector, said processing device programmed to: measure, with the rotation angle sensor, an amount of angular displacement required to complete installation of the one-sided fastener after applying the rotational torque to the core bolt, wherein said rotation angle sensor is configured to measure rotation of said core bolt; transmit a signal representative of the measured amount of angular displacement from the angle sensor to the processing device; and compare the measurement of angular displacement required to complete installation of the one-sided fastener to a range of angular displacement indicative of correct installation of the fastener. 2. The fastener system according to claim 1 further comprising a torque sensor communicatively coupled to said processing device, said processing device programmed to: measure an amount of torque required to complete installation of the one-sided fastener with said torque sensor; transmit a signal representative of the measured amount of torque from the torque sensor to the processing device; and compare the measurement of the torque required to complete the installation of the one-sided fastener to a monitored torque-angle curve. 3. The fastener system according to claim 1 , wherein said one sided fastener comprises a bulb and installation of said one-sided fastener is completed by securing a portion of the assembly stack-up between the anti-rotation flange and the bulb. 4. The fastener system according to claim 1 , wherein said drill bit is configured to countersink the hole to a specified depth. 5. The fastener system according to claim 1 , wherein the at least one parameter associated with the stack-up to be determined by said calibrated probe includes at least a stack-up thickness. 6. The fastener system according to claim 5 , wherein said one-sided fastener includes a grip length, said one-sided fastener selected based on the determined thickness of the stack-up. 7. The fastener system according to claim 1 , wherein said fastener feed head is operable to rotate said core bolt until a torque required to rotate said core bolt causes a drive head of said core bolt to separate from said core bolt. 8. The fastener system according to claim 7 wherein said processing device is programmed to compare the torque measurement and angle of rotation at which said drive head separated from said core bolt to a torque rotation curve to determine if said one-sided fastener was installed correctly. 9. The fastener system according to claim 8 wherein the torque rotation curve is generated from at least one of fastener installation test data and torque angle data generated from prior fastener installations.