A money handling apparatus (for example, a banknote handling apparatus) includes a destination selector configured to select a storage unit where at least one of a counterfeit money and suspect money among the money transported by the transporting unit is to be transported, from the plurality of storage units (for example, each banknote storage unit, each storage/feeding unit, collecting unit, banknote ejecting unit, and the like) and a controller configured to control the transporting unit to transport at least one of the counterfeit money and suspect money to the storage unit selected by the destination selector among the plurality of storage units.

A sheet processing apparatus in the present invention operates in a self-service mode, in which a user does not receive operation support provided by an operation assistant, and a non-self-service mode, in which the user receives the operation support. The sheet processing apparatus includes an inlet that takes in sheets in a deposit process, a transport section that transports the sheets taken in from the inlet, storage sections that store the sheets transported by the transport section, and a control section that causes the transport section in such a way as to transport the sheets to the storage sections on a basis of storage conditions for storing the sheets in the storage sections. The control section changes the storage conditions for at least one of the storage sections between the self-service mode and the non-self-service mode.

A value document with a carrier element and a foil element arranged in a partial region of the carrier element. The carrier element has, at least in the partial region, a luminescence marker which is adapted to give off luminescence radiation which has at least a first wavelength and a second wavelength in each case in the infrared spectral region. The foil element has a reflection layer and a spectral selection layer. The selection layer is arranged between the carrier element and the reflection layer. The reflection layer is configured to reflect infrared radiation and the selection layer is configured to spectrally selectively inhibit transmission of infrared radiation. The inhibition of the transmission of the first wavelength and the inhibition of the transmission of the second wavelength differ by at least 10%.

Provided is a valuable medium handling apparatus that handles a valuable medium and includes: an acquisition unit that acquires information on an operation result of the valuable medium handling apparatus; and an output unit that outputs, to an external apparatus, first identification information which includes the information on the operation result of the valuable medium handling apparatus acquired by the acquisition unit and which is used for identification of the valuable medium handling apparatus.

A banknote includes a security element with a processor and a memory. A private cryptographic key of an asymmetric key pair of the banknote is stored in a protected memory area of the memory. The asymmetric key pair is assigned to a banknote-specific blockchain address in a blockchain. A payment method executed with the banknote includes receiving a payment request for a payment with the banknote in the form of a transaction of an amount to be paid from the blockchain address of the banknote to a blockchain address of a payee, signing a transaction approval with the private cryptographic key of the banknote, and sending the signed transaction approval.

A method of obtaining a plurality of infrared images of a banknote that involves simultaneously illuminating the banknote with infrared light at a first wavelength and infrared light at a second wavelength, capturing an image of the banknote with an RGB camera, obtaining from both a first output channel signal and a second output channel signal of the RGB camera sensor where the intensity distribution of the infrared light at the first wavelength and the intensity distribution of the infrared light at the second wavelength uses a first calibration coefficient and a second calibration coefficient of the RGB camera sensor, producing separate infrared images of the banknote at the first wavelength and the second wavelength from the respective intensity distributions.

A computer-implemented method for preventing unauthorized processing of a digital representation of at least a portion of a document, a device for data processing, and a computer program product are provided, wherein in particular the document is a banknote. The method comprises providing data, wherein the data is based on the digital representation of at least a portion of a test element. The digital representation may be an image file corresponding to the at least one portion of the test element. The method also involves analyzing the data with regard to data representing at least one characterizing feature of the at least one portion of the document. The method further comprises activating prohibiting means if the data being based on the digital representation of the at least one portion of the test element is similar to the data representing the at least one characterizing feature. The prohibiting means prohibit the data being based on the digital representation of the at least one portion of the test element to be further processed, in particular comprising copying and/or transmitting and/or printing and/or reproducing the data. Alternatively, the prohibiting means amend the data such that the data is prevented from being transmitted and/or printed and/or reproduced and/or further amended by data processing devices.

A method of inspecting a substantially transparent light control layer for an optically variable security device and a corresponding inspection apparatus, the substantially transparent light control layer including a surface relief defined by an array of substantially transparent refractive microstructures. The method includes: directing a beam of substantially collimated light towards a first region that is expected to contain the surface relief of the light control layer so as to generate an inspection light pattern; providing reference data that is indicative of a light control layer that meets a predetermined quality threshold; comparing the inspection light pattern with the reference data; and determining whether the light control layer meets the predetermined quality threshold based on the comparison.

A security system, such as a banknote, comprises: i) a substrate, ii) a first ink, which is applied on at least a part of at least one surface of the substrate, wherein the first ink includes at least one IR luminescent dye and/or at least one IR luminescent pigment, and iii) a second non-luminescent ink, which is applied on at least a part of at least one surface of the substrate onto which the first ink is/are applied, wherein the second ink includes at least one non-luminescent IR absorbing pigment and/or a least one non-luminescent IR absorbing dye, wherein the first ink and the second ink at least partially overlap on the at least one surface of the substrate, wherein the second ink is applied in the overlapping area onto the first ink, and wherein the emission spectrum of the first ink and the absorption spectrum of the second ink at least partially overlap.

An assembly and a method for processing value documents such that the assembly has a transport apparatus for value-document receptacles which forms a cyclically circulating transport loop for the value-document receptacles. At least one checking apparatus for checking value documents is connected to the transport apparatus in such a manner that a respective value-document stack, possibly together with its value-document receptacle, can be transported via the respective transport interface from the cyclically circulating transport loop to the respective checking apparatus and/or from the respective checking apparatus to the cyclically circulating transport loop. The cyclically circulating transport loop is self-contained in such a manner that the value-document receptacles can circulate around the cyclically circulating transport loop several times in the same direction of circulation, and thus allows a temporally flexible removal of the respective value-document stack.