L-1 Secure Credentialing, Inc. Patent applications |
Patent application number | Title | Published |
20140017473 | Image Destruct Feature Used With Image Receiving Layers In Secure Documents - An image destruct material comprises a release layer positioned between an image receiving layer and a base layer. The adhesion between the release layer and the base layer is greater than adhesion between the release layer and the image receiving layer. The release layer material can be used in secure documents that have an image receiving layer. After information is printed on the image receiving layer, an overlaminate is applied over it. Removal of the overlaminate destroys the printed image on the receiving layer because of the relative adhesive properties of the image receiving layer, overlaminate and release layer. | 01-16-2014 |
20130243266 | iPassport Apparatus and Method - A portable hand-held device which includes on-board computer-implemented instructions to emulate identification documents such as a passport and interact with a computer terminal to determine whether the identified documents are authentic or not authentic. | 09-19-2013 |
20130223674 | Method and Apparatus for the Detection of Digital Watermarks for Instant Credential Authentication - A portable hand-held device for use in authenticating documents includes a camera for capturing images from the document to be authenticated as well as on-board computer-implemented instructions to capture and analyze Digitally Watermarked images and output an indication as to whether the document is authentic or not authentic. | 08-29-2013 |
20110266349 | CONTACT SMART CARDS HAVING A DOCUMENT CORE, CONTACTLESS SMART CARDS INCLUDING MULTI-LAYERED STRUCTURE, PET-BASED IDENTIFICATION DOCUMENT, AND METHODS OF MAKING SAME - The present invention relates to identification documents and smart cards. In one implementation, we provide a contactless smart identification document comprising a first contact layer, a second contact layer, and a carrier layer. The carrier layer is sandwiched in between the first and second contact layers, and the carrier layer includes least a transceiver and electronic circuitry. At least a portion of the first and second contact layers migrate into the carrier layer. This migration helps to secure at least a portion of the transceiver or electronic circuitry to the first and second contact layers, | 11-03-2011 |
20110259964 | INK WITH COHESIVE FAILURE AND IDENTIFICATION DOCUMENT INCLUDING SAME - The present invention provides identification documents with security features. For example, a document may include two or more inks that are designed to cohesively fail upon a de-lamination attack. A resulting failure pattern is preferably difficult to predict. The two or more inks are applied to an identification document including a core and laminate layer. At least one of the inks is characterized such that an adhesive strength of the ink to the core and an adhesive strength of the ink to the laminate layer is each greater than the cohesive strength of the ink itself. Thus, the ink rips apart in a somewhat random-like manner upon a de-lamination attack. The ink can be arranged in interwoven or interlocking patterns or in other desired patterns and locations. | 10-27-2011 |
20110204141 | Secure Core Material For Documents - Particles conveying a code are incorporated into polymer matrix to form a core document substrate. These particles may be colored to create a distinctive look of the document that makes it unique for a particular document issuer and enables visual authentication. Addition of a covert attribute to the particle, such as a UV pigment or hidden layer of material, allows a covert, forensic characteristic and it also allows a mathematical description to be calculated describing the random distribution of a specific area on a document and then captured on it (e.g., in the bar code or magnetic stripe or digital watermark on an ID document). | 08-25-2011 |
20110057040 | OPTICALLY VARIABLE PERSONALIZED INDICIA FOR IDENTIFICATION DOCUMENTS - The invention relates to identification documents, and in particular to providing optically variable personalized data to identification documents. In one implementation, we provide an identification document comprising a document layer and a first indicium. The document layer comprises a material capable of being printed by a thermally transferable optically variable ink. The first indicium is printed on the document layer and comprises personalized data and printed to the document layer by a thermally transferred optically variable ink. The first indicium may be printed to the document layer by disposing a thermally transferable optically variable ink in a mass transfer panel of a printer ribbon adapted for use in a dye diffusion thermal transfer printer, and printing the first indicium as part of a mass transfer printing process. The thermally transferred optically variable ink can be selected and printed such that the first indicium has at least one of a luster, shine, sheen, pearlescent appearance, iridescent appearance, and mirror-like appearance. This technology enables the creation of a halftone “mirror image” over a color ghost image to achieve a layered and linked multiple personalization scheme of ID documents. | 03-10-2011 |