A method for determining a manipulation or forgery of an object which is identified with a graphical representation of an information, wherein the graphical representation of the information forms light and dark regions and the object has a surface having a contrasting, irregular microstructure. A system is also related, the system being suitable for carrying out the method according to the invention.

A method for determining a manipulation or forgery of an object which is identified with a graphical representation of an information, wherein the graphical representation of the information forms light and dark regions and the object has a surface having a contrasting, irregular microstructure. A system is also related, the system being suitable for carrying out the method according to the invention.

Systems and methods for processing checks using 2D barcodes are provided. A user submits a digital image of a check that includes a 2D barcode. The 2D barcode has embedded positional information of one or more check features which can be decoded. The 2D barcode can include one or more check parameters. These check parameters can be decoded and used for processing, verification, and/or fraud prevention. Examples of check parameters can include an account indicator if the check is drawn from a business account or a personal account, a maximum amount allowed on the check, account information, a government identifier, or an electronic watermark. The user can submit the digital image of the check to a check processing system.

Systems and methods for processing checks using 2D barcodes are provided. A user submits a digital image of a check that includes a 2D barcode. The 2D barcode has embedded positional information of one or more check features which can be decoded. The 2D barcode can include one or more check parameters. These check parameters can be decoded and used for processing, verification, and/or fraud prevention. Examples of check parameters can include an account indicator if the check is drawn from a business account or a personal account, a maximum amount allowed on the check, account information, a government identifier, or an electronic watermark. The user can submit the digital image of the check to a check processing system.

A media depository is described. The media depository comprises: a media item validation module; a diverter for routing a received media item via either a storage path or a return path; an escrow for temporarily holding received media items; and a printer located between the diverter and the escrow so that the printer can print on any media items transported via the return path.

A media depository is described. The media depository comprises: a media item validation module; a diverter for routing a received media item via either a storage path or a return path; an escrow for temporarily holding received media items; and a printer located between the diverter and the escrow so that the printer can print on any media items transported via the return path.

The invention relates to securing of an article against forgery and falsifying of its associated data, and particularly of data relating to its belonging to a specific batch of articles, while allowing offline or online checking of the authenticity of a secured article and conformity of its associated data with respect to that of a genuine article.

A dual code authentication process combining a visible QR code with an invisible randomly generated code which can be alpha, numeric, symbol or image that can only be read with a reading device. A data generation engine is used to create the generated code which is assigned to the QR code and stored in a cloud based database. The QR code is decodable by a handheld reading device which communicates with the cloud based database releasing a copy of the generated code to the reading device. A reader is then used to decode the invisible printed code wherein the user can compare the printed code on the document and the code stored on the cloud based database to determine a match and authenticity.

A dual code authentication process combining a visible QR code with an invisible randomly generated code which can be alpha, numeric, symbol or image that can only be read with a reading device. A data generation engine is used to create the generated code which is assigned to the QR code and stored in a cloud based database. The QR code is decodable by a handheld reading device which communicates with the cloud based database releasing a copy of the generated code to the reading device. A reader is then used to decode the invisible printed code wherein the user can compare the printed code on the document and the code stored on the cloud based database to determine a match and authenticity.

Technology for managing objects. A method is applied to a set of objects, for example, in view of commissioning such objects. The method includes patterning a surface of each object of a set of objects to be managed. The patterning is accomplished by using hard particles to make indentations in a surface of each object of the set of object, with the pattern formed on each object being a unique physical fingerprint that can be used to identify the object when performing various manage method(s) on the objects