Abstract: Testing the authenticity of a valuable document, whereby at least one intensity distribution of electromagnetic radiation passing through the valuable document in the dark field is detected in a spatially resolved manner and a spatially resolved dark field characteristic is determined therefrom. The actual authenticity test is then performed by a procedure in which selected test partial regions of the valuable document are assigned respectively to one of a plurality of suspicion classes, an interconnection region is formed from substantially interconnected test partial regions that were assigned to at least one specific suspicion class, and the valuable document, depending on the form and/or position of the interconnection region, is assigned to one of at least two authenticity categories which is linked to the at least one specific suspicion class.

Abstract: A method of checking value documents having a security element with a plurality of magnetic areas, including a high-coercivity magnetic area, a low-coercivity magnetic area and a combined magnetic area, which contains both the high-coercivity and the low-coercivity magnetic material. When all magnetic areas have been magnetized in a first direction, second magnetization is performed, which involves only the low-coercivity magnetic material being remagnetized parallel to the first magnetization in the opposite direction, but the high-coercivity magnetic material remaining oriented in the first direction of magnetization. Next, first magnetic signals from the security element are detected using a first magnetic detector, and second magnetic signals are detected using a second magnetic detector. The magnetic signals are used to identify each magnetic area of the security element as a high-coercivity, a low-coercivity or a combined magnetic area.

Abstract: For displaying useful information (25) on a display element (21) of a terminal device (20), display data comprising useful information (25) are displayed (S2) on the display element (21), and light signals (18) are emitted (S3) to the display element (21) by a light signal unit (12) of a portable data carrier (10), wherein the display data are so displayed (S2) on the display element (21), and the light signals (18) so emitted (S3) to the terminal device (20), that a viewer of the display element (21) can recognize (S5) the useful information (25).

Abstract: The present invention relates to a method for producing, for the depiction of a specified motif, a micro-optical depiction arrangement that exhibits a colored motif grid, composed of a plurality of micromotif elements, and a focusing element grid, composed of a plurality of microfocusing elements that reconstructs the specified motif when the micromotif elements are viewed.

Abstract: The invention provides a portable memory medium with a memory area and a memory management system for managing the memory area, wherein different options for access to the memory area are provided. The memory management system comprises a configuration command, the execution of which causes an activation of one of at least two different activatable memory configurations.

Abstract: In a method for writing (S9, S11) of operating data (6) through a writing system (1, 2) comprising a central station (1) and at least one distribution station (2) to a portable data carrier (3) connected with the at least one distribution station (2) within the framework of a production of the data carrier (3) there is generated (S4, S5) an individual addressing for the data carrier (3) connected with the at least one distribution station (2), via which addressing the data carrier (3) is uniquely addressable system-wide upon the writing (S9, S11) of the operating data (6). In doing so, at least a part of the system-wide unique individual addressing can be generated (S4, S5) by the data carrier (3) itself or by the distribution station (2) with which the data carrier (3) is connected.

Abstract: A method for managing issuance of a portable data carrier using multiple production units for issuing portable data carriers, a data provisioning unit and an assignment unit. The data provisioning unit receives data for the portable data carrier in a production unit independent format. At least one production unit is assigned to use the data for issuing the portable data carrier in the assignment unit. The data are provided by the data provisioning unit to the assigned production unit and the portable data carrier is issued in the assigned production unit. The data are provided by the data provisioning unit to the assigned production unit in response to a data independent polling for data by the assigned production unit and in the production unit independent format. In the assigned production unit the provided data are converted from the production unit independent format into a production unit dependent format.

Abstract: The invention relates to a data carrier having at least one printed area produced by intaglio printing and partly covered with a film, and to a method for producing said data carrier.

Abstract: The invention relates to a data carrier, especially a value document or security paper, having a substrate (20) and, applied on the substrate, a coating (12) into which, through the action of laser radiation, markings (14) are introduced in the form of patterns, letters, numbers or images. According to the present invention, it is provided that the coating (12) includes a laser-radiation-absorbing layer (22) and a printing layer (24) that is disposed over the absorbing layer and that is at least partially transmissive to the laser radiation, and that the printed substrate is pressed (26) during or after the imprinting of the at least partially transmissive layer (24).

Abstract: The present invention relates to a depiction arrangement for security papers, value documents, electronic display devices or other data carriers, having a raster image arrangement for depicting a specified three-dimensional solid (30) that is given by a solid function f(x,y,z), having a motif image that is subdivided into a plurality of cells (24), in each of which are arranged imaged regions of the specified solid (30), a viewing grid (22) composed of a plurality of viewing elements for depicting the specified solid (30) when the motif image is viewed with the aid of the viewing grid (22), the motif image exhibiting, with its subdivision into a plurality of cells (24), an image function m(x,y).

Abstract: A method for producing solid particles having a silica coating, by: dispersing the solid particles to be coated in an aqueous medium to produce a solid particle dispersion, adjusting the pH of the solid particle dispersion by a buffer system to produce a buffered solid particle dispersion, and adding an alkaline silicate solution to the buffered solid particle dispersion to form the silica coating on the solid particles during a coating period. The amounts of buffer system and alkaline silicate solution are selected such that the pH of the buffered solid particle dispersion before the addition of the alkaline silicate solution is at least 7.0 and after completion of the addition of the alkaline silicate solution is at most 11.0.

Abstract: A method and system for challenge-response authentication are provided. Challenge data are transferred within an anti-collision loop from a reading device to a transponder by means of one or more commands of an anti-collision method, with the one or more commands serving to determine transponder identification data. In the one or more commands respective challenge data are contained in a data field that is used for specifying transponder identification data, wherein it is indicated to the transponder by a parameter value in the at least one of the one or more commands that the data field of the one or more commands contains challenge data instead of transponder date. The transponder recognizes with the help of the parameter value that in the received one or more commands challenge data are contained. The transponder processes the transferred challenge data based on the challenge response authentication.

Abstract: The invention relates to a security feature having a luminescent component and a component camouflaging the luminescent component. The invention starts out from a security feature having a luminescent component having at least one luminophore consisting of a doped host lattice, and a component camouflaging the luminescent component, in which the camouflaging component has at least two substances, the first substance of the camouflaging component having an X-ray diffractogram which hides the X-ray diffractogram of the luminescent component, and the second substance of the camouflaging component having at least one cationic element of the luminescent component and at least one cationic element of the first substance of the camouflaging component, with the luminescent component and the first substance of the camouflaging component being formed of different cationic elements.

Abstract: The invention relates to a method for performing machine checking of electronically-stored personal data in a passport booklet. The data are transmitted in an obscured form to a reader device after the passport has been presented to this reader device, and the accuracy of the obscuring is first verified and the obscuring is then removed. A positive signal is issued in the event of a successful verification. The recovered personal data are subsequently checked for authenticity. The verification and removal of the obscuring, as well as the authenticity check, ensue in a time-staggered manner after the passport booklet has been removed from the reader device by a verifying person in order to conduct further checks.

Abstract: An apparatus and a method for testing of sensors for documents of value and a pertinent test medium. A test medium (1) having an electronic data memory (7) for data is provided, the data being used for testing the sensor (11). The data are transmitted from the test medium to a test device (12), which tests the sensor in dependence on the transmitted data.

Abstract: The invention relates to a method and apparatus for recognizing forged value documents, for example composed forgeries which are assembled from parts of different value documents. In the inventive method, the signal intensity of a measuring signal is determined at a plurality of measuring points on a value document. For one or more selected groups of measuring points which are disposed in particular along certain directions on the value document there are determined gradient values of the signal intensities. The gradient values of a group are subsequently linked to form a connection strength of the group which provides a quantitative statement about the extent to which a large gradient value exists consistently within the particular group. From a relatively great connection strength there can be inferred the presence of a separating line in the area of the selected group of measuring points.

Abstract: A method for monitoring transport of bank notes in a transport system, using sensors arranged along the transport system for sensing transported bank notes, and a control device for monitoring and controlling the transport system using signals from the sensors, from which the control device derives a presence or absence of a bank note at the location of the respective sensor. The signals from all sensors are stored in a memory, and the signals from all sensors are assigned an explicit time statement or clock statement. All transported bank notes are assigned an explicit object code by the control device, and the object code is linked to the explicit time statement or clock statement. Stored signals from the sensors derive the occurrence and type of errors during the transport of the bank notes, and the signals are linked to the bank notes denoted by the object codes.

Abstract: A method for securely storing data in a multilevel memory of a portable data carrier. The multilevel memory includes one or several multilevel memory cells (SZ) which can assume respectively at least three levels (E, NE). The at least three levels represent a different data content, regarding which respective levels (E, NE) of a memory cell (SZ) are defined as valid or invalid. The levels (E, NE) of a respective memory cell (SZ) are selectively defined as valid or invalid in dependence on a required security level.

Abstract: The invention relates to a document of value, such as e.g. a bank note or the like, which has a security paper. In the security paper at least one tangible marking in the form of a relief structure is produced by a laser.

Abstract: The present invention relates to a product information system and a corresponding method in a product information system with products 2, to which there are applied machine-readable items of information 14. A data service 5 for data 16 allocated to the products is furnished. The machine-readable item of information 14 applied to a product 2 are read by a data requester 4. The data allocated to the product are requested through sending the read machine-readable data to the data service 5, the data request 15 is received by the data service 5, the requested data 16 are determined by the data service 5 and sent by the data service 5 to the data requester 4. In the step of determining the requested data 16, the data are generated by decrypting encrypted data 11-13 using the machine-readable items of information 14 received with the data request.