System and method for inoperative inkjet detection in a printer of three-dimensional objects

What is claimed: 1. A three-dimensional object printer comprising: at least one printhead having a plurality of inkjets configured to eject material; a shaft configured to rotate selectively; at least one light source positioned to emit light at a tangent to a circular cross-section of the shaft; at least one light sensor positioned to receive light on the tangent to the circular cross-section of the shaft; and a controller operatively connected to the at least one printhead, the shaft, the at least one light source and the at least one light sensor, the controller being configured to operate a first group of the inkjets in the at least one printhead to eject material onto the shaft, to rotate the shaft to a position that enables the material on the shaft to be on the tangent to the circular cross-section of the shaft between the at least one light source and the at least one light sensor to enable the at least one sensor to generate signals indicative of a height of material at a plurality of positions on the shaft, and to compare the signals generated by the at least one light sensor to an expected height value to identify inoperative inkjets in the at least one printhead. 2. The three-dimensional object printer of claim 1 further comprising: a wiper; and the controller is operatively connected to the wiper, the controller being further configured to move the wiper to remove the material ejected onto the shaft from the shaft. 3. The three-dimensional object printer of claim 2 , the controller being further configured: to operate a second group of inkjets in the at least one printhead to eject material onto the shaft after the controller has rotated the shaft to the position that enables the at least one light sensor to generate signals indicative of the height of material at the plurality of positions on the shaft, the first group of inkjets being different than the second group of inkjets. 4. The three-dimensional object printer of claim 1 further comprising: an actuator operatively connected to the at least one printhead; and the controller being operatively connected to the actuator, the controller being further configured to operate the actuator to move the at least one printhead from an area in which the at least one printhead is operated to build an object to a position proximate the shaft to enable the plurality of inkjets in the at least one printhead to eject material onto the shaft. 5. The three-dimensional object printer of claim 4 , the controller being further configured to operate the actuator to move the at least one printhead to the position proximate the shaft after a predetermined number of operations of the at least one printhead in the area in which the at least one printhead is operated to build an object. 6. The three-dimensional object printer of claim 5 , the controller being further configured to operate the first group of inkjets a predetermined number of times greater than one to accumulate material at the plurality of positions on the shaft corresponding to the first group of inkjets. 7. The three-dimensional object printer of claim 1 , the at least one light source and the at least one light sensor being configured to move along a longitudinal length of the shaft. 8. The three-dimensional object printer of claim 1 , the at least one light source further comprising: a plurality of light emitters arranged to correspond to the plurality of positions on the shaft; and the at least one light sensor further comprising: a plurality of light receptors arranged to be opposite the plurality of light emitters. 9. The three-dimensional object printer of claim 8 , the plurality of light sources and the plurality of light receptors, each being arranged in a linear array across a longitudinal length of the shaft. 10. The three-dimensional object printer of claim 8 , the plurality of light receptors and the plurality of light receptors, each being arranged in a two-dimensional array across a longitudinal length of the shaft. 11. The three-dimensional object printer of claim 8 , the shaft being further configured to rotate through three positions between the at least one light source and the at least one light sensor to enable three-dimensional image data of the ejected drops and the shaft to be generated by the at least one light sensor.