Ink jet printing method printing a test substrate and a printing target

What is claimed is: 1. An ink-jet printing method, comprising: (i) measuring a first distance between a printing target and at least one nozzle and measuring a second distance between a test substrate and the at least one nozzle; (ii) measuring a flying speed and a flying angle of an ink discharged from the at least one nozzle; (iii) printing an ink spot on the test substrate with the ink from the at least one nozzle to identify a location on which the ink spot is printed on the test substrate, and determining a thickness-related displacement of an ink spot to be printed on the printing target from the location of the ink spot printed on the test substrate, based on a thickness difference between the thickness of the test substrate and the thickness of the printing target, determined by a distance difference between the first distance and the second distance, and the flying speed and the flying angle of the ink measured in Step (ii); and (iv) discharging ink from the at least one nozzle to print the ink spot to be printed on the printing target on the printing target with the ink while correcting the thickness-related displacement of the ink spot to be printed on the printing target from the location on which the ink spot printed on the test substrate is printed on the test substrate. 2. The ink-jet printing method according to claim 1 , wherein, when the location of the ink spot printed on the test substrate in Step (iii) is displaced from a target ink-spotting location in Step (iii), a displacement of the location of the ink spot printed on the test substrate from the target ink-spotting location is regarded as an initial displacement, and said initial displacement is corrected in Step (iv). 3. The ink-jet printing method according to claim 1 , wherein the thickness-related displacement of the ink spot to be printed on the printing target from the location of the ink spot printed on the test substrate is a sum of an angle-related displacement caused by the flying angle of the ink, and a speed-related displacement caused by the flying speed of the ink. 4. The ink-jet printing method according to claim 1 , wherein, in Step (ii), the flying angle of the ink discharged from the at least one nozzle is determined based on the location on the test substrate on which the ink is printed. 5. The ink-jet printing method according to claim 4 , wherein the at least one nozzle comprises multiple nozzles, a mean location of ink spots printed from ink discharged from the multiple nozzles on the test substrate is employed as a standard, and the flying angle of the ink discharged from one of the multiple nozzles is determined from the displacement of the location of a printed ink spot discharged from the one of the nozzles from the location of the standard. 6. The ink-jet printing method according to claim 1 , wherein, in Step (ii), the flying speed of the ink discharged from the at least one nozzle is determined based on the location on which the ink spot is printed on the printing target. 7. The ink-jet printing method according to claim 6 , wherein the flying speed of the ink discharged from the at least one nozzle is determined based on locations on which the ink is printed on the printing target when relative speeds of the printing target and the at least one nozzle are varied. 8. The ink-jet printing method according to claim 1 , wherein, in Step (iv), ink-printing locations on the printing target on which ink spots discharged from the at least one nozzle are printed are corrected based on displacements for the ink-printed locations on the printing target. 9. The ink-jet printing method according to claim 8 , wherein displacements of ink spots printed on the printing target, by discharging ink from the at least one nozzle, from the location of corresponding ink spots printed on the test substrate by discharging ink from the at least one nozzle in an early phase of Step (iv), earlier than a late phase of Step (iv), are larger than displacements of ink spots printed on the printing target, by discharging ink from the at least one nozzle, from the location of corresponding ink spots printed on the test substrate by discharging ink from the at least one nozzle in the late phase of Step (iv). 10. The ink-jet printing method according to claim 8 , wherein the least one nozzle comprises multiple nozzles including central nozzles corresponding to a center of an ink-jet head comprising the multiple nozzles, and edge nozzles corresponding to edges of the ink-jet head, wherein displacements of ink spots printed on the printing target, by discharging ink from the edge nozzles, from the location of corresponding ink spots printed on the test substrate by discharging ink from the edge nozzles are larger than displacements of ink spots printed on the printing target, by discharging ink from the central nozzles, from the location of corresponding ink spots printed on the test substrate by discharging ink from the central nozzles. 11. The ink-jet printing method according to claim 1 , wherein, in Step (iv), rise time and fall time of a discharge waveform are further adjusted without changing an area of the discharge waveform in Step (iv). 12. The ink-jet printing method according to claim 1 , wherein, in Step (i), multiple, evenly spaced points on a surface of the test substrate and on a surface of the printing target are measured in each of vertical and horizontal directions. 13. The ink-jet printing method according to claim 1 , wherein, in Step (ii), the printing target is moving, flying positions of the ink at certain time intervals are stored as two or more pictures, and the flying angle of the ink is determined based on distances from the flying positions of the ink to the moving printing target in normal and horizontal directions. 14. The ink-jet printing method according to claim 1 , wherein, in Step (ii), flying positions of the ink at certain time intervals are stored as two or more pictures, and the flying speed of the ink is determined based on a movement distance of the ink over time.