This study reported the successful development of patterning on indium tin oxide films by using the ultraviolet (UV) laser processing system for stitching the electrode structures. The proposed laser direct imaging of large-area indium tin oxide films was used for projected capacitive touch screens. The UV laser with a wavelength of 355 nm was used in the direct writing on indium tin oxide films deposited on glass substrates. The experiment parameters including laser powers, laser spot sizes, scan speeds of galvanometers, and pulse repetition rates were used to ablate ITO films and to investigate machined quality, such as the electrical resistance and the surface morphology. To calculate the best amount of laser energy and the suitable laser spot overlap from the results of experiment by Taguchi method, the ablated lines could be obtain the better depth and diameter along the processing path without damaging glass substrates. In addition, the laser pulse repetition rate and the scan speed of galvanometers were used to adjust the overlap of laser spot for achieving the perfect electrode structures. After the Taguchi experiment, the optimal parameters included the laser pulse repetition rate of 50 kHz, the scan speed of galvanometers of 800 mm/s, and the laser power of 2 W. Large-area electrode structures were formed by using laser stitching technologies combined with the error compensation technique of an XY-axis feeding stage. The experimental results showed that the ablated depth and diameter of ITO films were 0.123 μm and 40.54 μm, respectively. The ITO film could be fully removed along the ablating path. Furthermore, the ablated lines of large-area electrode structures had smooth and straight edges.