System and method for detecting defects in an inkjet printer

What is claimed is: 1. An inkjet printer for imaging a continuous web of recording media as the continuous web of recording media moves in a process direction comprising: an inkjet printhead configured to eject ink onto the continuous web of recording media; a media transport configured to transport the continuous web of recording media past the inkjet printhead, the media transport including a roller having a first end and a second end, the roller disposed in the printer at a location to support the recording media before the inkjet printhead ejects ink onto the continuous web of recording media; a transmitter disposed at the first end of the roller to transmit a beam of laser light across the roller along a first path; a receiver disposed at the second end of the roller to receive the transmitted beam of laser light, the receiver being configured to generate a first voltage signal having a level that corresponds to an intensity of the transmitted beam of laser light received by the receiver, to compare the first voltage signal to a predetermined value that corresponds to only a predetermined portion of the transmitted beam of laser being received by the receiver, and to generate a second signal indicative of whether the first voltage signal exceeded the predetermined value; and a controller operatively connected to the receiver to receive the second signal and to generate a third signal to modify operation of the inkjet printhead and the media transport in response to the second signal indicating the predetermined value is less than the first signal. 2. The inkjet printer of claim 1 wherein the roller includes a substantially cylindrical body having a roller surface and a roller shaft to support the body for rotation about a rotational axis and the first signal is generated in response to one of an irregular roller surface, an irregular cylindrical body, and a roller shaft displaced from the rotational axis. 3. The inkjet printer of claim 1 wherein the roller includes a substantially cylindrical body having a predetermined amount of eccentricity and the controller is configured to identify the predetermined amount of eccentricity as noise when generating the third signal. 4. The inkjet printer of claim 1 further comprising a positioner, operatively connected to the printhead to move the printhead with respect to the media transport, wherein the second signal modifies the position of the positioner. 5. The inkjet printer of claim 4 wherein the positioner is operatively connected to the controller to receive the second signal. 6. The inkjet printer of claim 5 wherein the roller includes an axially disposed shaft defining a rotational axis and a substantially cylindrical body including a surface to directly support the recording media during transport thereof. 7. The inkjet printer of claim 6 wherein the first path is substantially parallel to the rotational axis. 8. The inkjet printer of claim 7 wherein the first path is approximately 0.60 millimeters from the surface of the roller. 9. The inkjet printer of claim 7 wherein the first path is approximately equal to the total amount of the thickness of the recording media plus 0.4millimeters. 10. The inkjet printer of claim 7 wherein the continuous web of recording media includes a substantially consistent thickness in a cross-process direction, and the first signal is generated in response to a change from the substantially consistent thickness at least partially obstructing the transmitted beam of laser light. 11. The inkjet printer of claim 10 wherein the change from the substantially consistent thickness includes a change disposed substantially in the process direction. 12. The inkjet printer of claim 11 wherein the change disposed substantially in the process direction includes one of a trough, a wrinkle, and damage to an edge of the continuous web of recording media.