In a general aspect, unique unclonable physical identifiers are applied and used. A method of applying the unique marker can include receiving an object having a surface feature and forming a unique marker on the surface feature of the object. The unique marker includes a distribution of elements and conforms with a morphology of the surface feature. The method further includes extracting orientation information from the unique marker. The orientation information can indicate relative spatial orientations of the respective elements. The method additionally includes generating a unique code for the object based on the orientation information. The surface feature can be facets, surface patterns, textures, or other indentations of the object. The surface feature can include a region of the object that is susceptible to tampering.

In a general aspect, unique unclonable physical identifiers are applied and used. A method of applying the unique marker can include receiving an object having a surface feature and forming a unique marker on the surface feature of the object. The unique marker includes a distribution of elements and conforms with a morphology of the surface feature. The method further includes extracting orientation information from the unique marker. The orientation information can indicate relative spatial orientations of the respective elements. The method additionally includes generating a unique code for the object based on the orientation information. The surface feature can be facets, surface patterns, textures, or other indentations of the object. The surface feature can include a region of the object that is susceptible to tampering.

A method, system, and apparatus for rendering a security mark on a recording medium can involve creating a metameric pair of fluorescent inks with a first fluorescent ink among the metameric pair of fluorescent inks that blocks UV light and a second fluorescent ink among the metameric pair of fluorescent inks that does not block UV light, configuring at least one fluorescent ink among the metameric pair of fluorescent inks with a first pattern based on a constant pixel high surface and at least one other fluorescent ink among the metameric pair of fluorescent inks with a second pattern based on a substantial amount of white space, and defining a security mark for rendering on a recording medium with the metameric pair of fluorescent inks and based on the first pattern and the second pattern.

This application relates to systems, methods, devices, and other techniques for methods with cameras and specialized ink spreads and augmented reality technology that can be utilized to generate models within an auto-checkout system within a retail environment

This application relates to systems, methods, devices, and other techniques for methods with cameras and specialized ink spreads and augmented reality technology that can be utilized to generate models within an auto-checkout system within a retail environment

A display body includes a base material having a first region, a second region, and a third region. In the display body, the first region is formed with a code or an image of identification information, and the second region is formed with a hidden code containing information obtained by encoding at least a part of the identification information. An encrypted ciphertext is recorded in the third region, and the ciphertext is generated from at least one of the code of the identification information and the hidden code.

A method for marking a product (1) with a photoluminescent mark, said mark comprising a photoluminescent portion (10) which is transparent under normal light conditions and revealed by photoluminescence under UV illumination, said mark further comprising a non photoluminescent portion (9) which is transparent under normal light conditions as well s under UV illumination, said method comprising: deposing on said product a stack, said stack comprising alternatively layers (2,4) such as AlN, with a thickness of less than 1 micron and layers (3) of a second material, such as GaN with a thickness of less than 10 nm; raising the transparency of said non photoluminescent portion (10) with a deposition of transparent material (6) or incorporation of ions into said non photoluminescent portions.

A method for marking a product (1) with a photoluminescent mark, said mark comprising a photoluminescent portion (10) which is transparent under normal light conditions and revealed by photoluminescence under UV illumination, said mark further comprising a non photoluminescent portion (9) which is transparent under normal light conditions as well s under UV illumination, said method comprising: deposing on said product a stack, said stack comprising alternatively layers (2,4) such as AlN, with a thickness of less than 1 micron and layers (3) of a second material, such as GaN with a thickness of less than 10 nm; raising the transparency of said non photoluminescent portion (10) with a deposition of transparent material (6) or incorporation of ions into said non photoluminescent portions.

The present invention particularly relates to an assembly (E) consisting of: a two-dimensional network of micro-optical devices such as microlenses; and a network of micro-images consisting, at most, of as many micro-images (ML) as micro-optical devices, each micro-image being subdivided into N image elements arranged in such a way as to reconstitute, for an observer and through the two-dimensional network of micro-optical devices, N images visble from N different points of view, i.e., N rendering angles, each of these N images representing a reference or recording point of view of a given relief scene consisting of at least one mobile object, characterised by the fact that the image elements consituting a given object within the N images are distriibuted within the network of micro-images in such a way that they appear, depending on the rendering angle, through different micro-optical devices, describing the trajectory of the projection of the object on the plane of the two-dimensional network of micro-optical devices relative to the reference point of view.

The invention relates to composite articles and laminated polymeric materials, for example, paper and plastic-based materials for tokens, and can be used in the manufacture of security articles. An article comprises a disc insert of laminated plastic and an outer metal. The insert includes stacked paper sheets impregnated with a polymer binder. Surface of each sheet is covered with a polymer layer and comprises visual and/or hidden security features. The ring and the disc insert are permanently joined together. At least one of the article components has an embossing. Dimensions of the article are in conformity with the relations: 0.8≤δ2/δ1<1; D1−D2≥8; 0.3≤S1/S2<0.9; D2>16 mm; Δ≤1, where D1 is outer diameter of the metal ring, excluding edge surface, mm; D2—diameter of the disc insert, mm; S1—area of the metal ring, excluding edge surface, mm.sup.2, S2—area of the disc insert, mm.sup.2; δ1—maximum thickness of the metal ring, mm; δ2—maximum thickness of the disc insert, mm; Δ—difference between maximum and minimum protruding elements of the metal component of the article, mm. The article has an enhanced level of security and is simple both in the manufacture and in its authentication.