Verification of tow placement by a robot

The invention claimed is: 1. A method comprising: directing an end effector of a robot to lay up tows of material based on a Numerical Control (NC) program; acquiring images of the tows as the tows are laid-up by the end effector; receiving input from a measuring device as tows are laid-up by the end effector; detecting a pause by identifying a set of consecutive pulse signals in the input that are separated in time by an average period that is greater than a threshold; and updating stored data to correlate the images with instructions in the NC program, based on the detected pause. 2. The method of claim 1 further comprising: receiving a signal indicating a start of a new tow; reviewing the input from the measuring device to detect a pause in tow layup that occurred prior to the signal; determining a period of time during which a tow indicated in the NC program was laid-up based on the pause; and updating stored data to correlate images acquired during the period of time with the tow. 3. The method of claim 2 wherein: the input comprises pulse signals that are generated each time a predefined length of tow is dispensed by the end effector. 4. The method of claim 1 wherein: the threshold is one second. 5. The method of claim 1 further comprising: directing the end effector to lay up multiple tows concurrently. 6. The method of claim 1 further comprising: in response to receiving user input selecting a tow defined the NC program, displaying each image correlated with the selected tow. 7. A non-transitory computer readable medium embodying programmed instructions which, when executed by a processor, are operable for performing a method comprising: directing an end effector of a robot to lay up tows of material based on a Numerical Control (NC) program; acquiring images of the tows as the tows are laid-up by the end effector; receiving input from a measuring device as tows are laid-up by the end effector; detecting a pause by identifying a set of consecutive pulse signals in the input that are separated in time by an average period that is greater than a threshold; and updating stored data to correlate the images with instructions in the NC program, based on the detected pause. 8. The medium of claim 7 wherein the method further comprises: receiving a signal indicating a start of a new tow; reviewing the input from the measuring device to detect a pause in tow layup that occurred prior to the signal; determining a period of time during which a tow indicated in the NC program was laid-up based on the pause; and updating stored data to correlate images acquired during the period of time with the tow. 9. The medium of claim 8 wherein: the input comprises pulse signals that are generated each time a predefined length of tow is dispensed by the end effector. 10. The medium of claim 7 wherein: the threshold is one second. 11. The medium of claim 7 wherein the method further comprises: directing the end effector to lay up multiple tows concurrently. 12. The medium of claim 7 wherein the method further comprises: in response to receiving user input selecting a tow defined in the NC program, displaying each image correlated with the selected tow. 13. A method comprising: acquiring images of work performed by an end effector of a robot based on instructions in a Numerical Control (NC) program; receiving input from a measuring device indicating end effector activity; detecting a pause by identifying a set of consecutive pulse signals in the input that are separated in time by an average period that is greater than a threshold; and updating stored data to correlate the images with instructions in the NC program, based on the detected pause. 14. A non-transitory computer readable medium embodying programmed instructions which, when executed by a processor, are operable for performing a method comprising: acquiring images of work performed by an end effector of a robot based on instructions in a Numerical Control (NC) program; receiving input from a measuring device indicating end effector activity; detecting a pause by identifying a set of consecutive pulse signals in the input that are separated in time by an average period that is greater than a threshold; and updating stored data to correlate the images with instructions in the NC program, based on the detected pause.