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A self-illuminating solid-state color image capture device, includes: an array of light emitting elements and light sensing elements formed on a common substrate; the light emitting elements including first color elements adapted to emit light of a first color and second color elements adapted to em

A self-illuminating solid-state color image capture device, includes: an array of light emitting elements and light sensing elements formed on a common substrate; the light emitting elements including first color elements adapted to emit light of a first color and second color elements adapted to emit light of a second color, and the light sensing elements being responsive to all emitted colors; and electronics coupled to the light emitting and light sensing elements for sequentially causing the first and second color elements to emit light and sensing the light reflected from a scene being captured with the light sensing elements.

대표청구항 ▼

A self-illuminating solid-state color image capture device, includes: an array of light emitting elements and light sensing elements formed on a common substrate; the light emitting elements including first color elements adapted to emit light of a first color and second color elements adapted to em

A self-illuminating solid-state color image capture device, includes: an array of light emitting elements and light sensing elements formed on a common substrate; the light emitting elements including first color elements adapted to emit light of a first color and second color elements adapted to emit light of a second color, and the light sensing elements being responsive to all emitted colors; and electronics coupled to the light emitting and light sensing elements for sequentially causing the first and second color elements to emit light and sensing the light reflected from a scene being captured with the light sensing elements. w based on the display region as managed by the display region management means. 10. A multi-display system according to claim 1, wherein the first predetermined input is input to the control means as a result of a single operation. 11. A multi-display system according to claim 1, wherein the first display means and the second display means are placed back-to-back. 12. A multi-display system according to claim 1, wherein the first predetermined input comprises at least one of: an icon click; a key input; and information representing relative locations of the first display means and the second display means. 13. A method for moving windows in a multi-display system comprising: a first step of displaying a plurality of first windows on first display means; and a second step of for controlling the first display means and the second display means, wherein, the second step comprises, in response to a first predetermined input, moving at least two of the plurality of first windows displayed on the first display means from the first display means onto the second display means, and wherein the second step comprises a third step of instructing a movement pattern for the at least two first windows moved from the first display means onto the second display means in response to the first predetermined input. 14. A method according to claim 13, wherein the second step comprises moving all of the plurality of first windows displayed on the first display means from the first display means onto the second display means. 15. A method according to claim 13, wherein, the second step comprises, in response to a second predetermined input, moving at least one of the plurality of first windows displayed on the first display means from the first display means onto the second display means, in such a manner that a difference between a number of windows displayed on the first display means and a number of windows displayed on the second display means is one or less. 16. A method according to claim 15, wherein the second step comprises instructing a movement pattern for the at least one first window moved from the first display means onto the second display means in response to the second predetermined input. 17. A method according to claim 15, wherein the second step comprises selecting the at least one first window to be moved from the first display means onto the second display means in response to the second predetermined input, based on a predetermined priority level. 18. A method according to claim 17, wherein the predetermined priority level is determined based on a length of time which has elapsed since a most recent operation was performed to a window. 19. A method according to claim 13, wherein: the second display means displays at least one second window; and the second step comprises controlling the second display means so as to display the at least one second window and the at least two first windows moved from the first display means onto the second display means in equal size. 20. A method according to claim 13, wherein the second step further comprises: a fourth step for displaying the at least two first windows on the first display means or on the second display means, based on display coordinate information representing locations at which the at least two first windows are to be displayed; and a fifth step for updating the display coordinate information based on the movement pattern instructed in the third step. 21. A method according to claim 20, wherein the second step comprises a sixth step for managing a display region for a window to be displayed on the first display means or the second display means, wherein the fourth step comprises displaying the window based on the display region as managed in the sixth step. 22. A method according to claim 13, wherein the first predetermined input is input as a result of a single operation. 23. A method according to claim 13, wherein the first display means and the second display means are placed back-to-back. 24. A method according to claim 13, wherein the first predetermined input comprises at least one of: an icon click; a key input; and information representing relative locations of the first display means and the second display means. 25. A multi-display system according to claim 1, wherein the first display means and the second display means operate simultaneously. 26. A multi-display system according to claim 1, wherein the first display means spans a range defined by a first set of X-Y coordinates, the second display means spans a range defined by a second set of X-Y coordinates, and wherein the first set of X-Y coordinates and the second set of X-Y coordinates are contiguous so that they form a continuous set of X-Y coordinates comprising the first and second sets of X-Y coordinates. 27. A method according to claim 13, wherein the first display means and the second display means operate simultaneously. 28. A method according to claim 13, wherein the first display means spans a range defined by a first set of X-Y coordinates, the second display means spans a range defined by a second set of X-Y coordinates, and wherein the first set of X-Y coordinates and the second set of X-Y coordinates are contiguous so that they form a continuous set of X-Y coordinates comprising the first and second sets of X-Y coordinates.