Imaging apparatus and method for reducing banding

What is claimed is: 1. An imaging apparatus, comprising: a print engine having a printhead that generates ink drops, and a printhead carrier that carries the printhead in a first direction and in a second direction opposite the first direction; and a controller that determines an initial print direction based on ink drop information obtained by printing patches in the first direction and in the second direction, wherein the ink drop information includes a respective chromatic value of each of the patches, the controller operatively coupled to the print engine to print an image based on the initial print direction. 2. The imaging apparatus of claim 1 , further comprising a scanner to scan the patches to obtain the respective chromatic value of each of the patches. 3. The imaging apparatus of claim 1 , wherein the patches include a first patch and a second patch. 4. The imaging apparatus of claim 3 , wherein the first patch has a first chromatic value and the second patch has a second chromatic value. 5. The imaging apparatus of claim 4 , wherein the controller selects the first direction as the initial print direction if the first chromatic value of the first patch is greater than the second chromatic value of the second patch, and selects the second direction as the initial print direction if the second chromatic value of the second patch is greater than the first chromatic value of the first patch. 6. The imaging apparatus of claim 4 , wherein the initial print direction is selected based on at least the first chromatic value and the second chromatic value to reduce horizontal banding produced by adjacent or overlapping print swaths printed during multiple printing passes printed in generating the image that is printed by the print engine. 7. An imaging apparatus, comprising: a print engine having a printhead that generates ink drops, and having a printhead carrier that carries the printhead in a first direction and in a second direction; a sensor; and a controller operatively coupled to the print engine and to the sensor, the controller executing program instructions to: operate the print engine to print a first patch on a print media sheet with the printhead being moved by the printhead carrier in the first direction; operate the print engine to print a second patch on the print media sheet with the printhead being moved by the printhead carrier in the second direction, the second direction being opposite to the first direction; operate the sensor to determine a first chromatic value of the first patch; operate the sensor to determine a second chromatic value of the second patch; compare the first chromatic value of the first patch with the second chromatic value of the second patch to determine an initial print direction of the printhead to print an image; and operate the print engine to print the image based on the initial print direction. 8. The imaging apparatus of claim 7 , wherein the controller selects as the initial print direction the first direction if the first chromatic value is greater than the second chromatic value, and selects as the initial print direction the second direction if the second chromatic value is greater than the first chromatic value. 9. The imaging apparatus of claim 7 , wherein the initial print direction is selected based on at least the first chromatic value and the second chromatic value to reduce horizontal banding produced by adjacent or overlapping print swaths printed during multiple printing passes printed in generating the image that is printed by the print engine. 10. The imaging apparatus of claim 7 , wherein the sensor is an optical sensor. 11. An imaging apparatus, comprising: an inkjet print engine having a color printhead that generates color ink drops and a monochrome printhead that generates monochrome print drops, and having a printhead carrier that carries the color printhead and the monochrome printhead in a first direction and in a second direction; and a controller that determines an initial print direction based on ink drop information obtained by printing patches in the first direction and in the second direction, wherein the ink drop information includes a respective chromatic value of each of the patches, the controller operatively coupled to the inkjet print engine to print an image based on the initial print direction. 12. The imaging apparatus of claim 11 , further comprising a scanner to scan the patches to obtain the respective chromatic value of each of the patches. 13. The imaging apparatus of claim 12 , wherein the patches include a first patch and a second patch, and wherein the first patch has a first chromatic value and the second patch has a second chromatic value. 14. The imaging apparatus of claim 13 , wherein the controller selects the first direction as the initial print direction if the first chromatic value of the first patch is greater than the second chromatic value of the second patch, and selects the second direction as the initial print direction if the second chromatic value of the second patch is greater than the first chromatic value of the first patch. 15. The imaging apparatus of claim 13 , wherein the initial print direction is selected based on at least the first chromatic value and the second chromatic value to reduce horizontal banding produced by adjacent or overlapping print swaths printed during multiple printing passes printed in generating the image that is printed by the print engine. 16. The imaging apparatus of claim 1 , wherein each chromatic value is an a* value or a b* value in a CIELAB tri-color (L*, a*, b*) color space, wherein the a* value refers to red-green chrominance values (redness-greenness axis), and b* refers to blue-yellow chrominance values (yellowness-blueness axis). 17. The imaging apparatus of claim 7 , wherein each of the first chromatic value and the second chromatic value is an a* value or a b* value in a CIELAB tri-color (L*, a*, b*) color space, wherein the a* value refers to red-green chrominance values (redness-greenness axis), and b* refers to blue-yellow chrominance values (yellowness-blueness axis). 18. The imaging apparatus of claim 11 , wherein each chromatic value is an a* value or a b* value in a CIELAB tri-color (L*, a*, b*) color space, wherein the a* value refers to red-green chrominance values (redness-greenness axis), and b* refers to blue-yellow chrominance values (yellowness-blueness axis).