One of the main issues in electrophoretic displays (EPDs) is ghost image, also named ghosting. To suppress ghosting, the most common way is to apply shaking driving waveform with quickly changing polarity of electric field to neutralize the internal electric field which is considered as the cause of ghosting inside EPDs. However, the shaking driving waveform not only requires long driving time, but also makes the device flicker to discomfort human eyes. Therefore, our target is to design a new driving waveform with shorter driving, less ghosting, and with invisible flickers. Before we design the new driving waveform, the characteristics of EPDs have been studied by observing optical responses to input driving pulses with different voltages different waveform shapes, and with different pulse widths. Then, according to the results and the physical model based on electrophoresis, we design the new two-phased weakly-indirect transition driving waveform and compare its performance with the conventional shaking driving waveform. Finally, the experimental results show that our proposed new driving waveform not only improved ghosting by 26~37%, reduces driving time by 42~52%, but also comes with more invisible flickers. Thus, the proposed new driving waveform shows great potential to replace the conventional shaking driving waveform, and become the next driving waveform to display high quality images on EPDs.