Patent ID: 7567271
Filing Date: 2009-07-28
Classification: H04N

Abstract:
1. An apparatus for three-dimensional image acquisition, the apparatus comprising: first and second lenses configured to receive light from a scene, wherein the first and second lenses are in alignment with each other along diameters thereof; a first sensor coupled to a red color filter such that the first sensor is configured to acquire only a red color from the received light, wherein the first sensor is in alignment with an axis of the first lens and the first sensor is parallel to a diameter of the first lens; a second sensor coupled to a first green color filter such that the second sensor is configured to acquire only a green color from the received light, wherein the second sensor is parallel to the diameter of the first lens and the second sensor is in alignment with the first sensor; a first beam splitter arranged proximate to the first lens and in alignment with the axis of the first lens, wherein the first beam splitter is configured to receive light directly from the first lens, and to provide therefrom, a first split beam to the first sensor, and a second split beam to a first mirror, the first and second split beams traveling on independent paths, the first mirror being configured to receive the second split beam from the first beam splitter, and to provide therefrom a first reflected beam to the second sensor; a third sensor coupled to a second green color filter such that the third sensor is configured to acquire only a green color from the received light, wherein the third sensor is parallel to a diameter of the second lens and the third sensor is in alignment with the second sensor; a fourth sensor coupled to a blue color filter such that the fourth sensor is configured to acquire only a blue color from the received light, wherein the fourth sensor is in alignment with an axis of the second lens and the fourth sensor is parallel to the diameter of the second lens, the fourth sensor being in alignment with the third sensor; and a second beam splitter arranged proximate to the second lens and in alignment with the axis of the second lens, wherein the second beam splitter is configured to receive light directly from the second lens, and to provide therefrom, a third split beam to a second mirror, and a fourth split beam to the fourth sensor, the third and fourth split beams traveling on independent paths, the second mirror being configured to receive the third split beam from the second beam splitter, and to provide therefrom a second reflected beam to the third sensor.