A unique secured product identification method, system, and apparatus for product such as precious gemstones prevent counterfeiting by incorporating a marked product with fake identification (ID) mark or fake barcode. Authentication process requires at least two identifying data sets, an overt mark or overt data and covert data. The overt data may be a unique product identifier like a barcode. Covert data may be any additional data derived from the specific product. Additional data points come from a created data point not originally part of the product, or a unique data point already existing in the product but not existing in any other similar product. Product is authenticated when the combination of data sets compared to original data sets creates positive product identification. Authentication may be done with centralized, or de-centralized databases. A partially or non-automated method may be implemented, for example, where a barcode links to a database.

A notched 2D shape may encode information. For instance, a physical tag may display, form or include a polygon that is modified by notches and by one or more holes. This notched 2D shape may encode data that identifies, or provides information regarding, a physical product to which the tag is physically attached. Alternatively, this notched 2D shape may encode any other type of information, such as information about what we sometimes call a product shape or shape matrix. The notched shape may be an octagon that is modified by notches and by one or more holes.

Systems and methods for printing a three-dimensional object containing information embedded as three-dimensional physical representations are disclosed. The methods include receiving information to be embedded in the three-dimensional object, determining a mapping between the received information and a plurality of three-dimensional physical representations to be embedded in the three-dimensional object, generating a build sequence that will cause the three-dimensional printing device to print the three-dimensional object comprising the plurality of three-dimensional physical representations in accordance with the mapping. The three-dimensional printing device uses the build sequence to print the three-dimensional object comprising the plurality of three-dimensional physical representations.

Techniques for integrating a machine-readable matrix with a component of a mechanical structure using three-dimensional (3-D) printing are disclosed. Such techniques include generating at least one data model representing the component, and projecting a matrix pattern identifying one or more features of the component onto a selected surface portion of the component to produce a modified data model for use as an input to a 3-D printer.

A system, method, and computer-readable medium for performing an encoded geometry fabrication operation. In various embodiments, the encoded geometry fabrication operation comprises: identifying data to be encoded within the encoded geometry, the data to be encoded within the encoded geometry comprising a unique code to be associated with the encoded geometry; converting the data to be encoded to the encoded geometry; fabricating a part with the encoded geometry, the encoded geometry passively representing the unique code with a physical code; and, performing a computer vision operation to read the physical code of the encoded geometry, the computer vision operation confirming the unique code of the encoded geometry corresponds to the physical code of the encoded geometry.

A method in which a three-dimensional component is produced and is provided on its component surface with a machine-readable code, wherein the code is produced in one part with the component and has a plurality of three-dimensional code elements, which represent the coded data in binary form on the basis of raised regions and non-raised regions in relation to a reference plane. A method in which a three-dimensional component is produced and is provided on its component surface with a machine-readable code, wherein the code is produced in one part with the component and has a plurality of three-dimensional code elements which represent the coded data in binary form on the basis of recessed regions and non-recessed regions in relation to a reference plane. A component includes such a code.

Semiconductor device packages and associated methods are disclosed herein. In some embodiments, the semiconductor device package includes (1) a first surface and a second surface opposite the first surface; (2) a semiconductor die positioned between the first and second surfaces; and (3) a pattern positioned in a designated area of the first surface. The pattern includes multiple bit areas. Each of the bit areas represents a first bit information or a second bit information. the pattern presents information for operating the semiconductor die. The pattern is configured to be read by a pattern scanner.

A three-dimensional barcode comprising a three-dimensional barcode structure, at least a part of which is printed on a surface of an object. The barcode structure includes encoded information, and at least part of the encoded information is embedded in a z-dimension perpendicular to the surface of the object.

The method secures data of a bank card linked to a bank account. The data is static and includes the number of the card, the identification data of the holder of the card, the expiration date of the card, and a cryptogram. The bank card number and cryptogram include multiple digits and/or letters. The method includes inscribing only partially secure data on the card in such a manner that the data is concealed and never visible on the card. The concealed data is multiple digits and/or letters of the number of the card and/or at least an identification datum of the holder and/or at least one element of the expiration date and/or at least one digit and/or letter of the cryptogram. The method includes transmitting to the only cardholder a means for disclosing the concealed data.

The present invention relates to a building management system based on identifiable marks that are arranged on terminal devices of a building and have a one-to-one correspondence with the terminal devices' own codes, the building management system comprising a user terminal, and the user terminal storing a database comprising codes of the terminal devices and comprising a scanning device for identifying and determining the identifiable marks, wherein an actual or relative location of the user terminal in the building can be determined by identifying and determining at least two identifiable marks. Moreover, the present invention further relates to an implementation method for the building management system based on identifiable marks. The building management system based on identifiable marks according to the present invention favors building management and the design, installation, debugging, management, and maintenance of terminal devices.