Abstract: A pixel structure includes a substrate, an opposite substrate, a scan line and a data line, an active device, a pixel electrode, and a passivation layer. The pixel electrode has at least one block-shaped electrode and a plurality of first branch electrodes. The passivation layer has at least one block-shaped protrusion pattern, a plurality of branch protrusion patterns, and a plurality of grooves. The first branch electrodes are located on the block-shaped protrusion patterns. An Edge of the block-shaped electrodes further extends to the block-shaped protrusion patterns. An orthogonal projection gap W1 is between an orthogonal projection edge of the block-shaped electrode and an orthogonal projection edge of the nearest first branch electrode, and 0 ?m<W1?5 ?m. An orthogonal projection distance W2 is between the orthogonal projection edge of the block-shaped electrode and an orthogonal projection edge of the block-shaped protrusion pattern, and 0 ?m<W2?10 ?m.

Abstract: A pixel structure includes a substrate, an opposite substrate, a scan line and a data line, an active device, a pixel electrode, and a passivation layer. The pixel electrode has at least one block-shaped electrode and a plurality of first branch electrodes. The passivation layer has at least one block-shaped protrusion pattern, a plurality of branch protrusion patterns, and a plurality of grooves. The first branch electrodes are located on the block-shaped protrusion patterns. An Edge of the block-shaped electrodes further extends to the block-shaped protrusion patterns. An orthogonal projection gap W1 is between an orthogonal projection edge of the block-shaped electrode and an orthogonal projection edge of the nearest first branch electrode, and 0 ?m<W1?5 ?m. An orthogonal projection distance W2 is between the orthogonal projection edge of the block-shaped electrode and an orthogonal projection edge of the block-shaped protrusion pattern, and 0 ?m<W2?10 ?m.

Abstract: A stereoscopic display method includes the following acts. A plurality of stereoscopic images are provided by providing a plurality of stereoscopic display panels. At least one border is disposed between two of the stereoscopic display panels adjacent to each other. At least one stripe segment is added in each of the stereoscopic images. The stripe segments are adjacent to the border, such that the stripe segments and the border form a floating frame when an observer observes the stripe segments and the border using both eyes of the observer. A width of each of the stripe segments is adjusted, such that a depth of field of the floating frame is substantially the same as a depth of field of the stereoscopic images adjacent to the floating frame.

Abstract: A stereoscopic display method includes the following acts. A plurality of stereoscopic images are provided by providing a plurality of stereoscopic display panels. At least one border is disposed between two of the stereoscopic display panels adjacent to each other. At least one stripe segment is added in each of the stereoscopic images. The stripe segments are adjacent to the border, such that the stripe segments and the border form a floating frame when an observer observes the stripe segments and the border using both eyes of the observer. A width of each of the stripe segments is adjusted, such that a depth of field of the floating frame is substantially the same as a depth of field of the stereoscopic images adjacent to the floating frame.