Abstract: A method for generating three-dimensional images is provided. The method is used for a three-dimensional imaging device including a touch panel and a single lens. The method includes steps of: the touch panel showing a image including a predetermined path; using the single lens to shoot at least two different plane images when detecting a contact point on the touch panel moving along the predetermined path; and outputting the at least two different plane images shot by the single lens to make the touch panel show a three-dimensional image.

Abstract: An optical adjusting apparatus having a composite pattern structure is described. The optical adjusting apparatus include a substrate layer, at least one first pattern module and at least one second pattern module. The substrate has a first optical surface and a second optical surface opposite to the first optical surface. The first pattern module positioned on the first optical surface, wherein the first pattern module has a first structure unit along a first arrangement direction. The second pattern module which is adjacent to the first pattern module and positioned on the first optical surface. The second pattern module has the second structure unit along a second arrangement direction. The first structure unit of the first pattern module is connected to the second structure unit of the second pattern module. Therefore, the convergent angle of a light module is adjusted and the brightness of the light module is increased along specific direction.

Abstract: An optical retroreflective apparatus and method thereof are described. The optical retroreflective apparatus includes a substrate, a first material layer, a first taper pattern layer, a reflecting layer, and a second material layer. The first material layer is formed on the substrate. The first taper pattern layer is formed on the first material layer wherein the first taper pattern layer has a plurality of first pyramidal units. The reflecting layer is formed on the first taper pattern layer wherein the reflecting layer has a plurality of reflecting patterns and each of the reflecting patterns is covered with each of first pyramidal units. The second material layer is formed on the reflecting layer wherein the second material layer has a second taper pattern layer having a plurality of second pyramidal units. The second taper pattern layer is covered with the reflecting layer and the second pyramidal units are filled with the spacing region between the reflecting patterns of the reflecting layer.

Abstract: An optical adjusting apparatus having a composite pattern structure is described. The optical adjusting apparatus include a substrate layer, at least one first pattern module and at least one second pattern module. The substrate has a first optical surface and a second optical surface opposite to the first optical surface. The first pattern module positioned on the first optical surface, wherein the first pattern module has a first structure unit along a first arrangement direction. The second pattern module which is adjacent to the first pattern module and positioned on the first optical surface. The second pattern module has the second structure unit along a second arrangement direction. The first structure unit of the first pattern module is connected to the second structure unit of the second pattern module. Therefore, the convergent angle of a light module is adjusted and the brightness of the light module is increased along specific direction.

Abstract: A composite brightness enhancement film having a two-phase hazing layer is provided, and includes a substrate, a two-phase hazing layer and a brightness enhancement structure layer. The substrate has a light inputting surface and a light outputting surface on which the two-phase hazing layer is formed. The two-phase hazing layer includes at least two resin material uniformly mixed with each other. The at least two resin material is incompletely dissolved into each other, and has different refractive indexes from each other, so that the two-phase hazing layer can be used to diffuse and haze a light. The brightness enhancement structure layer is formed on the two-phase hazing layer, and has a plurality of brightness enhancement micro-structures for enhancing the light.

Abstract: A brightness enhancement film having a composite lens and prism structure is described. The brightness enhancement film having a composite lens and prism structure includes a substrate layer and a composite structure layer. The substrate layer has an optical incident surface and an optical emission surface. The composite structure layer is positioned on the optical emission surface of the substrate layer and has a lens-type layer and a prism-type layer. The lens-type layer has a plurality of protrusion units and the prism-type layer has a plurality of prismatic units. The protrusion units are uniformly arranged among the prismatic units. An area ratio of the region of the protrusion units to the region of the prismatic units based on a predetermined unit area of the composite structure layer can be changed for adjusting a convergent angle when a light beam penetrates through the composite structure layer via the optical emission surface of the substrate layer.