Claims
- 1. A system for evaluating the print quality to be achieved with a paper sheet surface before print is applied to said paper sheet surface comprising:
- means for receiving a scanned image of the paper sheet, said scanned image comprising a plurality of pixels;
- means responsive to said receiving means for assigning a sheet intensity value for each pixel in the scanned image;
- means responsive to said assigning means for generating a print pattern having a plurality of pixels, each of said print pattern pixels having a known print intensity value;
- means responsive to said generating means for overlaying the print pattern on the scanned image so that each pixel in the scanned image has a corresponding pixel in the print pattern;
- means responsive to said overlaying means for subtracting the sheet intensity value for each pixel in the scanned image from the print intensity value of the corresponding pixel of the print pattern to generate a final intensity value for each pixel in the scanned image; and
- means responsive to said subtracting means for generating a representation of print absorption into said paper sheet using the final intensity values.
- 2. A system according to claim 1 wherein the sheet intensity values, the print intensity values and the final intensity values range from a scale of 0 to 255.
- 3. An apparatus for evaluating the print quality to be achieved with a paper sheet surface before print is applied to said paper sheet surface comprising:
- a memory having a scanned image of the paper sheet, the scanned image comprising a plurality of pixels;
- a logic circuit that assigns a sheet intensity value for each pixel of the scanned image;
- a logic circuit that generates a print pattern having a plurality of pixels, each of said print pattern pixels having a known print intensity value;
- a logic circuit that overlays the print pattern on the scanned image so that each pixel in the scanned image has a corresponding pixel in the print pattern;
- a logic circuit that subtracts the sheet intensity value for each pixel in the scanned image from the print intensity value of the corresponding pixel of the print pattern to generate a final intensity value for each pixel in the scanned image; and
- a logic circuit that generates a representation of print absorption into the paper sheet using the final intensity values for each said pixel.
- 4. An apparatus according to claim 3 wherein the sheet intensity values, the print intensity values and the final intensity values range from a scale of 0 to 255.
- 5. A method for evaluating the print quality to be achieved with a paper sheet surface before print is applied to said paper sheet surface, said method comprising the steps of:
- scanning the paper sheet into a data processor to form a scanned image comprising a plurality of pixels;
- assigning a sheet intensity value for each pixel in the scanned image;
- generating a print pattern having a plurality of pixels, each of said print pattern pixels having a known print intensity value;
- overlaying the print pattern on the scanned image so that each pixel in the scanned image has a corresponding pixel in the print pattern;
- subtracting the sheet intensity value for each pixel in the scanned image from the print intensity value of the corresponding pixel of the print pattern to generate a final intensity value for each pixel in the scanned image;
- generating a representation of print absorption into the paper sheet using the final intensity values.
- 6. A method according to claim 5 further comprising the steps of:
- splitting the paper sheet; and
- scanning a portion of the paper sheet closest to a print surface of the paper sheet into the data processor to form the paper sheet screen image.
- 7. A method according to claim 5 wherein the sheet intensity values, the print intensity values and the final intensity values range from a scale of 0 to 255.
- 8. A method according to claim 5 wherein said scanning step comprises scanning the paper sheet with a high resolution scanner.
- 9. A method according to claim 5 wherein said scanning step comprises scanning the paper sheet with a high resolution digital video camera.
- 10. A method of manufacturing paper sheet wherein print quality of a surface of said paper sheet is evaluated before print is applied to said surface, said method comprising the steps of:
- scanning a portion of said paper sheet to form an image, said image comprising a plurality of pixels;
- assigning a sheet intensity value for each pixel in the scanned image;
- generating a print pattern having a plurality of pixels, each of said print pattern pixels having a known print intensity value;
- overlaying the print pattern on the scanned image so that each pixel in the scanned image has a corresponding pixel in the print pattern;
- subtracting the sheet intensity value for each pixel in the scanned image from the print intensity value of the corresponding pixel of the print pattern to generate a final intensity value for each pixel in the scanned image;
- generating a representation of print absorption into the paper sheet using the final intensity values; and
- modifying micro density properties of said paper sheet based on said print absorption representation.
- 11. A method according to claim 10 wherein said step of modifying micro density properties comprises the steps of:
- adjusting paper fiber length;
- adjusting filtering medium holes; and
- adjusting drainage forces.
Parent Case Info
A microfiche appendix of computer program code, according to a preferred embodiment of the present invention, is attached hereto containing one (1) microfiche having seventeen (17) frames thereon.
US Referenced Citations (16)
Non-Patent Literature Citations (3)
Entry |
"The Propagation of Light in Paper: Modelling and Monte Carlo Simulations" authored by J. Carlsson et al., pp. 83-86 of the 1995 International Paper Physics Conference, held Sep. 11-14, 1995. |
"Print Quality Improvement Through Co-Operation and Partnerships" by Roger Danby. Presented at International Printing and Graphic Arts Conference, Oct., 1994. |
"The Impact of Forming Fabric Structures on Print Quality" by Roger Danby presented at Canadian Pulp & Paper Meeting, Jan., 1993 and published in Pulp & Paper Canada, Jan. 1994. |