Photography – Fluid-treating apparatus – Having photographic medium feed
Reexamination Certificate
2002-07-16
2004-10-19
Rutledge, D. (Department: 2851)
Photography
Fluid-treating apparatus
Having photographic medium feed
C396S599000, C396S613000, C396S620000, C342S357490
Reexamination Certificate
active
06805501
ABSTRACT:
BACKGROUND OF THE INVENTION
Images are used to communicate information and ideas. Images, including print pictures, film negatives, documents and the like, are often digitized to produce a digital image that can then be instantly communicated, viewed, enhanced, modified, printed or stored. The flexibility of digital images, as well as the ability to instantly communicate digital images, has led to a rising demand for improved systems and methods for film processing and the digitization of film based images into digital images. Film based images are traditionally digitized by electronically scanning a film negative or film positive that has been conventionally developed using a wet chemical developing process, as generally described below.
Undeveloped film generally includes a clear base and one or more emulsion layers containing a dye coupler and a photosensitive material, such as silver halide, that is sensitive to electromagnetic radiation, i.e., light. In color films, independent emulsion layers are sensitized to different bands, or colors, of light. In general, one or more emulsion layers are sensitized to light associated with the colors of red, green and blue. When a picture is taken, the photosensitive material is exposed to light from a scene and undergoes a chemical change. The greater the intensity of light interacting with the photosensitive material, the greater the chemical change in the photosensitive material. The photographic film can then be chemically processed to produce a fixed image of the scene based on this chemical change.
In a traditional wet chemical developing process, the film is immersed and agitated in a series of tanks containing different processing solutions. The first tank typically contains a developing solution. The developing solution chemically reacts with the exposed silver halide to produce elemental metallic silver grains in each emulsion layer of the film. The metallic silver grains form a silver image within each emulsion layer of the film. The by-product of the chemical reaction combines with a dye coupler in each emulsion layer to create a dye cloud. The color of the dye cloud is complementary to the band of light the emulsion layer has been sensitized to. For example, the red sensitized layer typically produces a cyan dye image, the green sensitized layer a magenta dye image, and the blue sensitized layer a yellow dye image. The density of the silver image and the corresponding dye image in each emulsion layer are directly proportional to the intensity of light the film was exposed to. The developing process is generally stopped by removing the film from the developer tank and rinsing the developing solution from the film with water or an acidic solution.
Conventional wet chemical developing processes then removes both the silver image and the undeveloped silver halide grains from the film to produce a film negative having only a dye image within the film negative. To remove the silver image and undeveloped silver halide, the developed film is immersed and agitated in a tank of bleaching solution. The bleaching solution chemically oxidizes the metallic silver grains forming the silver image and converts the metallic silver grains into silver halide. The bleached film is then immersed and agitated in a tank of fixer solution. The fixer solution removes the silver halide from the film by dissolving the silver halide crystals. The fixer solution is thereby contaminated with dissolved silver compounds and becomes a hazardous waste byproduct of the wet chemical developing process. The film is then washed, stabilized and dried to produce a conventional film negative. The film negative can then be used to produce a corresponding image on photographic paper by methods known to those skilled in the art.
Conventional film digitization processes scan the film negative using a conventional electronic scanner to produce a digital image that electronically represents the photographic image. Conventional electronic film scanners generally operate by directing white light through the film negative. The light interacts with the dye image and the intensity of light transmitted through the film is recorded by a sensor that produces individual red, green and blue color data. The sensor color data is used to produce the digital image.
A relatively new process under development is digital film processing (DFP). DFP systems scan the film using light during the development process. DFP systems apply a thin coat of one or more film processing solutions to the film and then scan the film. Neither the processing solutions nor the silver compounds are substantially removed from the film before or after scanning the film. DFP systems may be designed in a number of configurations depending upon the method of film processing and the method of scanning the film. For example, the film may be processed by applying a developer solution, a developer solution and fixer solution, a developer solution, fixer solution, and
The DFP scanning process is generally accomplished by measuring infrared light reflected from the developed silver image in the front and back emulsion layers, and measuring the infrared light transmitted through the film. The reflected and transmitted light measurements of the film provide data on the blue, red, and green sensitized emulsion layers, respectively. The measured reflected and transmitted light data is processed to produce the digital image.
SUMMARY OF THE INVENTION
One embodiment of the invention is an improved digital film processing system. In this embodiment, the improved digital film processing system includes a scanning system and a data processing system. The scanning system scans film and produces sensor data that is communicated to the data processing system. The film scanned by the scanning system includes silver and at least one dye cloud disposed within the film. The silver contained within the film may comprise developed metallic silver, silver halide, or both. The data processing system processes the sensor data to produce a full color digital image. The digital image can be output to any suitable output device, such as a monitor, printer, memory device, and/or the Internet. In a particular embodiment, the digital color film processing system is embodied as a self-service kiosk for processing film.
Another embodiment of the invention is a system for developing and processing film to produce a digital image. In this embodiment, the system includes a film processing system, a scanning system, and a data processing system. The film processing system operates to coat a processing solution onto the film that initiates development of a silver image and at least one dye cloud within the film. In a particular embodiment, the film processing system includes a halt station that operates to retard development of the coated film after the film has been developed for a predetermined amount of time. The halt station may operate by applying a halt solution to the coated film, chilling the film, drying the film, or any other suitable method for slowing the development of the film prior to scanning the film. The scanning system scans at least one of the dye images (cyan, magenta, yellow) within the coated film and outputs sensor data to the data processing system. The scanning system scans the coated film using at least one frequency of light within the visible portion of the electromagnetic spectrum. The data processing system receives and processes the sensor data to produce the digital image. The light used to scan the film may comprise blue light, red light, green light, any combination thereof, and any other suitable light, including infrared light. The scanning system may also operate to scan the film by measuring light transmitted through the film, reflected from the film, reflected and transmitted through the film, or any other suitable combination.
Another embodiment of the invention is a system for digitizing a developed film coated with a processing solution. In this embodiment, the system comprises at least one lighting system a
Bassett David J.
Gagnon William A.
Kowalski, III Stanley
Shields, Sr. Michael W.
Thering Michael R.
Eastman Kodak Company
Novais David A.
Rutledge D.
Simon, Galasso & Frantz Plc
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