A method for a film transfer device includes receiving a digital image in the film transfer device, wherein the digital image comprises a plurality of square pixels, wherein the digital image comprises a first number of pixels in a horizontal direction and a second number of pixels in a vertical dir
A method for a film transfer device includes receiving a digital image in the film transfer device, wherein the digital image comprises a plurality of square pixels, wherein the digital image comprises a first number of pixels in a horizontal direction and a second number of pixels in a vertical direction, and wherein the digital image comprises a non-anamorphic version of an image, and optically converting the digital image into an optical output image to film media in the film transfer device, wherein the optical output image is associated with a plurality of non-square pixels, wherein the optical output image is associated with the first number of pixels in the horizontal direction and the second number of pixels in the vertical direction, and wherein the optical output image comprises an anamorphic version of the image.
대표청구항▼
What is claimed is: 1. A method for a film transfer device comprises: receiving a digital image in the film transfer device, wherein the digital image comprises a plurality of pixels having a first horizontal to vertical ratio, wherein the digital image comprises a first number of pixels in a horiz
What is claimed is: 1. A method for a film transfer device comprises: receiving a digital image in the film transfer device, wherein the digital image comprises a plurality of pixels having a first horizontal to vertical ratio, wherein the digital image comprises a first number of pixels in a horizontal direction and a second number of pixels in a vertical direction, and wherein the digital image comprises a non-anamorphic version of an image; and optically converting the digital image into an optical output image to film media in the film transfer device, wherein the optical output image is associated with a plurality of pixels having a second horizontal to vertical ratio, wherein the first horizontal to vertical ratio is different from the second horizontal to vertical ratio, wherein the optical output image is associated with the first number of pixels in the horizontal direction and the second number of pixels in the vertical direction, and wherein the optical output image comprises an anamorphic version of the image. 2. The method of claim 1 wherein receiving the digital image in the film transfer device comprises receiving a stream of digital data comprising the digital image. 3. The method of claim 1 wherein the first number of pixels in the horizontal direction is approximately 1920. 4. The method of claim 1 wherein a horizontal to vertical aspect ratio of the optical output image is different from the horizontal to vertical aspect ratio of the digital image. 5. The method of claim 1 wherein the horizontal to vertical aspect ratio of the digital image is selected from the group consisting: approximately 2.35:1, approximately 2.40:1, approximately 2.39:1; and wherein the horizontal to vertical aspect ratio of the optical output image is selected from the group consisting: approximately 1.2:1, approximately 1.18:1. 6. The method of claim 1 wherein optically converting the digital image into an optical output image comprises: modulating laser light in response to the digital image; and scanning modulated laser light on the film media. 7. The method of claim 1 wherein optically converting the digital image into an optical output image comprises: providing the digital image to an output display device; and exposing the film media to an image output from the output display device. 8. The method of claim 1 wherein the film transfer device comprises a laser film recorder; wherein optically converting the digital image into the optical output image to the film media comprises: optically converting the digital image into a stream of laser modulation signals in the laser film recorder; and outputting laser signals in response to the stream of laser modulation signals from the laser film recorder to the film media. 9. The method of claim 8 wherein the digital image comprises a stream of digital data. 10. The method of claim 8 wherein outputting the laser signals comprises sweeping the laser signals up one vertical column of the optical output image at a time. 11. The method of claim 8 further comprising illuminating the film media through an anamorphic lens to output an illuminated image, wherein the illuminated image comprises a non-anamorphic representation of the first image. 12. The method of claim 1 wherein the first horizontal to vertical ratio is 1:1. 13. The method of claim 12 wherein the second horizontal to vertical ratio excludes 1:1. 14. A film transfer device comprises: a receiving portion configured to receive a digital image, wherein the digital image comprises a plurality of pixels having a first horizontal to vertical ratio, wherein the digital image comprises a first number of pixels in a horizontal direction and a second number of pixels in a vertical direction, and wherein the digital image comprises a non-anamorphic version of an image; and a conversion portion coupled to the receiving portion, wherein the conversion portion is configured to optically convert the digital image into an optical output image to film media, wherein the optical output image is associated with a plurality of pixels having a second horizontal to vertical ratio, wherein the first horizontal to vertical ratio is different from the second horizontal to vertical ratio, wherein the optical output image is associated with the first number of pixels in the horizontal direction and the second number of pixels in the vertical direction, and wherein the optical output image comprises an anamorphic version of the image. 15. The film transfer device of claim 14 the digital image comprises a stream of digital data comprising the digital image. 16. The film transfer device of claim 14 wherein the first number of pixels in the horizontal direction is approximately 1920. 17. The film transfer device claim 14 wherein a horizontal to vertical aspect ratio of the optical output image is different from the horizontal to vertical aspect ratio of the digital image. 18. The film transfer device claim 14 wherein the horizontal to vertical aspect ratio of the digital image is selected from the group consisting: approximately 2.35:1, approximately 2.40:1, approximately 2.39:1; and wherein the horizontal to vertical aspect ratio of the optical output image is selected from the group consisting: approximately 1.2:1, approximately 1.18:1. 19. The film transfer device claim 14 wherein the conversion portion comprises: a laser configured to output laser light; a modulator coupled to the laser, wherein the modulator is configured to modulate the laser light to form modulated laser light in response to the digital image; and a scanner coupled to the modulator, wherein the scanner is configure to scan the modulated laser light on the film media. 20. The film transfer device claim 14 wherein the conversion portion is configured to providing the digital image to an output display device, and wherein the conversion portion is configured to expose the film media to an image output from the output display device.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (15)
Stimson Michael J. ; Simon John D., Apparatus and method for the rapid spectral resolution of confocal images.
DeAngelis Francesco E. (Austin TX) Davison Michael R. (Lake Forest CA) Leigh David K. (Austin TX), Automated method and apparatus for calibration of laser scanning in a selective laser sintering apparatus.
Lawson John A. (Centerville OH) Butler John C. (Centerville OH) Sutera Richard (Dayton OH) Calhoun Lawrence C. (Lebanon OH) Potts Danny (Dayton OH) Price Larry E. (Kettering OH) Wolfe Robert G. (Xeni, Flat stationary field light beam scanning device.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.