Scanning apparatus for halftone image screen writing
First Claim
1. Improved scanning apparatus comprised of a pixel-writing line scan device having a plurality of line scanning elements adapted to produce a raster scanned halftone dot image screen in which each dot area is comprised of a plurality of pixel areas equal to the number of scan lines per dot in the cross scan direction times the number of intensity modulation pixels generated in the line scan direction, the halftone screen having, in the cross-scan direction, (i) a predetermined dot screen spatial frequency and (ii) a scan line spatial frequency equal to the number of scan lines per dot times the screen spatial frequency, the apparatus further having a once around scanner frequency equal to the ratio of the scan line frequency divided by the number of line scanning elements in the writing device, the improvement comprising:
- the number of line scanning elements being that number that makes either the once around scanner frequency or the screen frequency an integral multiple of the other and makes beat frequencies between the scanner frequency and screen frequency either fall outside spatial frequency spectrum visible to the human eye or be equal to the screen frequency thereby rendering cross-scan moire banding in the image substantially imperceptible to the human eye.
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Accused Products
Abstract
Moire patterns in raster-scanned halftone dots image screens generated by multi-element line scanner devices are rendered imperceptible to the human eye by selecting the number of elements in the line scanner device to be that number which makes the "once-around" scanner frequency an integral multiple of the halftone dot screen frequency and makes the beat frequencies between the scanner and frequencies either fall outside the nominal visible spatial frequency range of about 2.5 to 250 lines per inch or fall on the screen frequency.
163 Citations
5 Claims
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1. Improved scanning apparatus comprised of a pixel-writing line scan device having a plurality of line scanning elements adapted to produce a raster scanned halftone dot image screen in which each dot area is comprised of a plurality of pixel areas equal to the number of scan lines per dot in the cross scan direction times the number of intensity modulation pixels generated in the line scan direction, the halftone screen having, in the cross-scan direction, (i) a predetermined dot screen spatial frequency and (ii) a scan line spatial frequency equal to the number of scan lines per dot times the screen spatial frequency, the apparatus further having a once around scanner frequency equal to the ratio of the scan line frequency divided by the number of line scanning elements in the writing device, the improvement comprising:
the number of line scanning elements being that number that makes either the once around scanner frequency or the screen frequency an integral multiple of the other and makes beat frequencies between the scanner frequency and screen frequency either fall outside spatial frequency spectrum visible to the human eye or be equal to the screen frequency thereby rendering cross-scan moire banding in the image substantially imperceptible to the human eye. - View Dependent Claims (3, 4, 5)
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2. Improved scanning apparatus comprised of a pixel-writing line scan device having a plurality of line scanning elements adapted to produce a raster scanned halftone dot image screen in which each dot area is comprised of a plurality of pixel areas equal to the number of scan lines per dot in the cross scan direction times the number of intensity modulation pixels generated in the line scan direction, the halftone screen having, in the cross-scan direction, a predetermined dot screen spatial frequency, fd, equal to the number of dots per unit length, the apparatus further having a once around scanner frequency equal to fd ×
- p/n, wherein the letter "p" is the number of scan lines per dot and "n" is the number of line scanning elements in the writing device, the improvement comprising;
the number of scan lines per dot "p" and the number of line scanning elements "n" being related by an integral factor and, in any case in which "n" is greater than "p", the scanner frequency is greater than the upper limit of spatial frequency spectrum visible to the human eye.
- p/n, wherein the letter "p" is the number of scan lines per dot and "n" is the number of line scanning elements in the writing device, the improvement comprising;
Specification