Dual laser closure scan and method of using the same

What is claimed is: 1. A closure monitoring system comprising: a conveyer that moves a container with a closure in a direction, the closure having a top surface with a leading half towards the direction the conveyer is moving and a trailing half away from the direction the conveyer is moving; a first device supported along a direction of the conveyer to generate a first plurality of distance signals representative of first distances to a top surface of the closure along a first path that traverses the top surface of the closure, the first plurality of distance signals including a first leading set and a first trailing set, the first leading set consisting of measurements from the leading half of the first path and the first trailing set consisting of measurements from the trailing half of the first path; a second device supported along a direction of the conveyer to generate a second plurality of distance signals representative of second distances to the top surface of the closure along a second path that traverses the top surface of the closure, the second plurality of distance signals including a second leading set and a second trailing set, the second leading set consisting of measurements from the leading half of the second path and the second trailing set consisting of measurements from the trailing half of the second path; and a processor coupled to the first and second devices and configured to analyze the first plurality of distance signals and the second plurality of distance signals, calculate an average, and generate a signal based on the analysis indicating whether the closure is properly affixed to the container. 2. The closure monitoring system of claim 1 , wherein the processor is configured to: calculate an average for at least two of the first leading set, the second leading set, the first trailing set, and the second trailing set; determine the closure is properly affixed as a result of each of the calculated averages being less than a first threshold; and determine the closure is not properly affixed as a result of at least one of the calculated averages being above the first threshold. 3. The closure monitoring system of claim 2 , wherein the at least two of the first leading set, the first trailing set, the second leading set, and the second trailing set each comprise between 10% and 35% of the path from which they were selected. 4. The closure monitoring system of claim 1 , wherein the processor is further configured to: calculate an average for at least two of the first leading set, the second leading set, the first trailing set, and the second trailing set; identify a highest average and a lowest average of the calculated averages; calculate a difference between the highest average and the lowest average; determine the closure is properly affixed as a result of the difference being less than a second threshold; and determine the closure is not properly affixed as a result of the difference being above the second threshold. 5. The closure monitoring system of claim 4 , wherein the at least two of the first leading set, the first trailing set, the second leading set, and the second trailing set each comprise between 10% and 35% of the path from which they were selected. 6. The closure monitoring system of claim 1 , wherein the processor is configured to: determine a slope for at least two of the first leading set, the second leading set, the first trailing set, and the second trailing set; and determine whether the closure is properly affixed at least in part based on the determining the slope for at least two of the first leading set, the second leading set, the first trailing set, and the second trailing set. 7. The closure monitoring system of claim 6 , wherein the at least two of the first leading set, the first trailing set, the second leading set, and the second trailing set each comprise between 10% and 35% of the path from which they were selected. 8. The closure monitoring system of claim 1 , wherein the processor is configured to: determine a slope for each of the first leading set, the second leading set, the first trailing set, and the second trailing set; and determine whether the closure is properly affixed at least in part as a result of at least one of the following statements being true: the slope of the first leading set being symmetrical to the slope of the first trailing set; and the slope of the second leading set being symmetrical to the slope of the second trailing set. 9. The closure monitoring system of claim 8 , wherein each of the first leading set, the first trailing set, the second leading set, and the second trailing set comprise between 10% and 35% of the path from which they were selected. 10. The closure monitoring system of claim 8 , wherein the processor is configured to determine whether the closure is properly affixed at least in part as a result of both of the following statements being true: the slope of the first leading set being symmetrical to the slope of the first trailing set; and the slope of the second leading set being symmetrical to the slope of the second trailing set. 11. The closure monitoring system of claim 1 , wherein the processor is configured to: identify a first middle set from the first plurality of distance signals, the first middle set collectively being centered on the first path; calculate a first leading average of the first leading set; calculate a first middle average of the first middle set; calculate a first trailing average of the first trailing set; calculate a first difference between the first middle average and the first leading average; calculate a second difference between the first middle average and the first trailing average; and determine whether the closure is properly affixed at least in part based on analyzing the first difference and the second difference. 12. The closure monitoring system of claim 11 , wherein the processor is configured to: identify a second middle set from the second plurality of distance signals, the second middle set collectively being centered on the second path; calculate a second leading average of the second leading set; calculate a second middle average of the second middle set; calculate a second trailing average of the second trailing set; calculate a third difference between the second middle average and the second leading average; calculate a fourth difference between the second middle average and the second trailing average; and determine whether the closure is properly affixed at least in part based on analyzing the third difference and the fourth difference. 13. A closure monitoring system comprising: a conveyer that moves a container with a closure in a direction, the closure having a leading surface generally facing the direction the conveyer is moving, and an opposing trailing surface; a first device supported along a direction of the conveyer to generate a first plurality of distance signals representative of first distances to a top surface of the closure along a first path that traverses the top surface of the closure; a second device supported along a direction of the conveyer to generate a second plurality of distance signals representative of second distances to the top surface of the closure along a second path that traverses the top surface of the closure; and a processor coupled to the first and second devices configured to: identify a first pair from the first plurality of distance signals, the first and second elements of the first pair being corresponding distances from the leading and trailing surfaces, respectively; identify a second pair from the s