An apparatus and a method for creating a watermark are disclosed. For example, the apparatus may be a dryer module of a printing device. The dryer module may include a pair of transport rollers, a temperature gradient transport belt coupled to the pair of transport rollers to rotate around the pair of transport rollers, a heat source located above the temperature gradient transport belt, wherein the heat source applies heat to a print media that moves below the heat source via the temperature gradient transport belt, and a processor communicatively coupled to the rollers and the heat source, wherein the processor controls a speed of the temperature gradient transport belt via the pair of rollers and an amount of heat that is applied by the heat source to dry a printing fluid dispensed on selected portions of the print media at a desired rate to create the watermark on the print media.

The application discloses apparatus and systems for authenticating physical object, identification documents and security documents. Some such methods and apparatus involve signal encoding or digital watermarking.

The application discloses apparatus and systems for authenticating physical object, identification documents and security documents. Some such methods and apparatus involve signal encoding or digital watermarking.

The present disclosure relates to signal processing such as digital watermarking and other encoded signals. One claim recites a substrate comprising: a plurality of first areas and a plurality of second areas, in which each of the plurality of first areas comprises a color ink printed therein with a first clear topcoat layer printed over the color ink, and in which each of the plurality of second areas comprises the color ink printed therein, and a second clear topcoat layer printed over the color ink, in which the first clear topcoat layer and the second clear topcoat layer each comprise a different sheen relative to one another, and in which the plurality of second areas is arranged on the substrate in hole locations provided in the first clear topcoat layer, the second clear topcoat layer filling in the holes, the holes arranged according to a 2-dimensional pattern that is machine-readable from image data depicting such. Of course, other claims and combinations are provided in the specification with reference to specific implementations and related examples.

The present disclosure relates to signal processing such as digital watermarking and other encoded signals. One claim recites a substrate comprising: a plurality of first areas and a plurality of second areas, in which each of the plurality of first areas comprises a color ink printed therein with a first clear topcoat layer printed over the color ink, and in which each of the plurality of second areas comprises the color ink printed therein, and a second clear topcoat layer printed over the color ink, in which the first clear topcoat layer and the second clear topcoat layer each comprise a different sheen relative to one another, and in which the plurality of second areas is arranged on the substrate in hole locations provided in the first clear topcoat layer, the second clear topcoat layer filling in the holes, the holes arranged according to a 2-dimensional pattern that is machine-readable from image data depicting such. Of course, other claims and combinations are provided in the specification with reference to specific implementations and related examples.

A multispectral watermark and method for generating the multispectral watermark. A color pattern can be provided, which appears a single color/pattern under a first lighting condition. A watermark can be created based on the color pattern and under a second lighting condition comprising ultraviolet light, while the watermark is viewable with an infrared camera in an infrared spectrum. The watermark can be configured as a multispectral watermark with a metameric pair of inks with one ink of the metameric pair of inks using more CMYK toners that reflect in the infrared spectrum as compared to the other ink among the metameric pair of inks while simultaneously allowing more of the ultraviolet light or less of the ultraviolet light to reach a fluorescing media upon which the multispectral watermark is rendered.

A multispectral watermark and method for generating the multispectral watermark. A color pattern can be provided, which appears a single color/pattern under a first lighting condition. A watermark can be created based on the color pattern and under a second lighting condition comprising ultraviolet light, while the watermark is viewable with an infrared camera in an infrared spectrum. The watermark can be configured as a multispectral watermark with a metameric pair of inks with one ink of the metameric pair of inks using more CMYK toners that reflect in the infrared spectrum as compared to the other ink among the metameric pair of inks while simultaneously allowing more of the ultraviolet light or less of the ultraviolet light to reach a fluorescing media upon which the multispectral watermark is rendered.

This disclosure relates to advanced image signal processing technology including encoded signals and digital watermarking. One claim is directed to a container comprising: a 3004 or 3003 aluminum alloy shell, the shell comprising an outer surface and an inner surface; a first layer of transparent ink printed on the outer surface as a flood within a first region; a second layer of the transparent ink printed over the first layer of transparent ink within the first region, in which the second layer of the transparent ink is printed to include a plurality of holes without any transparent ink printed therein; an opaque ink printed within the plurality of holes of the second layer of transparent ink on first layer of transparent ink within the first region, in which: i) the outer surface/first layer/second layer, and ii) the outer surface/first layer/opaque ink comprise a spectral reflectance difference at a machine-vision wavelength in the range of 8%-35%, and in which the plurality of holes are arranged in a 2-dimensional pattern according to a machine-readable signal, the 2-dimensional pattern being machine-readable from imagery captured of the first region. Of course, other containers, methods, packages, objects, systems, technology and apparatus are described in this disclosure.

This disclosure relates to advanced image signal processing technology including encoded signals and digital watermarking. One claim is directed to a container comprising: a 3004 or 3003 aluminum alloy shell, the shell comprising an outer surface and an inner surface; a first layer of transparent ink printed on the outer surface as a flood within a first region; a second layer of the transparent ink printed over the first layer of transparent ink within the first region, in which the second layer of the transparent ink is printed to include a plurality of holes without any transparent ink printed therein; an opaque ink printed within the plurality of holes of the second layer of transparent ink on first layer of transparent ink within the first region, in which: i) the outer surface/first layer/second layer, and ii) the outer surface/first layer/opaque ink comprise a spectral reflectance difference at a machine-vision wavelength in the range of 8%-35%, and in which the plurality of holes are arranged in a 2-dimensional pattern according to a machine-readable signal, the 2-dimensional pattern being machine-readable from imagery captured of the first region. Of course, other containers, methods, packages, objects, systems, technology and apparatus are described in this disclosure.

This disclosure relates to advanced image signal processing technology including encoded signals and digital watermarking. One implementation is directed to a printed object comprising: a white substrate or background comprising a first area; an ink mixture printed at a first plurality of spatial locations within the first area, the ink mixture printed such that the first area comprises a second plurality of spatial locations without the ink mixture, the ink mixture comprising extender white and Green 7 ink, the ink mixture comprising a volume or weight ratio of 97.5% to 99.75% white extender and 2.5%-0.25% Green 7 ink; in which the first plurality of spatial locations is arranged in a pattern conveying an encoded signal, and in which the white substrate or background and the ink mixture comprise a spectral reflectivity difference at or around 660 nm in a difference range of 8%-30%. Of course, other implementations, methods, packages, systems and apparatus are described in this patent document.