Abstract: A method for processing water-based low-viscosity liquid inkjet inks for digital, contactless inkjet printing, wherein the inkjet ink is applied from systematically arranged nozzles in a time-dependent and location-dependent manner and divided into individual volume units, characterized in that the inkjet ink at the nozzle outlet is or is being cooled to temperatures below the temperature of the ambient air. A device for processing water-based low-viscosity liquid inkjet inks for digital, contactless inkjet printing, comprising at least one print head, whereby inkjet inks are applicable from systematically arranged nozzles in a time-dependent and location-dependent manner and divided into individual volume units, characterized in that the print head and/or the inkjet ink supplied to the print head is coolable.

Abstract: Liquid ink-receiving layers or films (receiving layers) for direct ink jet printing or ink printing, into which low-viscous liquid (highly fluid) printing media (printing inks) can be introduced according to said printing methods, and which solidify or are able to be solidified at a time subsequent to the ink insertion (retarded). The invention eliminates limitations on the usability of raw materials for ink jet printing or ink printing, especially of film-forming agents but also of pigments and other ingredients. Moreover, corresponding compositions and methods for ink jet printing or ink printing are proposed.

Abstract: A modular Artificial Intelligence (AI) processing system is provided, comprising: an input module configured to receive input data; an output module configured to output data processed by the system; a first agent module operatively connected to the input module and to the output module, the first agent module being configured in use to process the input data and to generate the output data for the output module, and comprising two or more first sub-agent modules, each sub-agent module comprising an internal memory state and being operatively connected via a communication channel to at least one other sub-agent module within the first agent; each first sub-agent module being configured with a communication algorithm, the communication algorithm defining how the sub-agent module communicates with other sub-agent modules to enable the first agent module to process the input data, and in use at least one of the two or more first sub-agent modules is configured to process the input data in dependence on its inter

Abstract: Liquid ink-receiving layers or films (receiving layers) for direct ink jet printing or ink printing, into which low-viscous liquid (highly fluid) printing media (printing inks) can be introduced according to said printing methods, and which solidify or are able to be solidified at a time subsequent to the ink insertion (retarded). The invention eliminates limitations on the usability of raw materials for ink jet printing or ink printing, especially of film-forming agents but also of pigments and other ingredients. Moreover, corresponding compositions and methods for ink jet printing or ink printing are proposed.

Abstract: A method for processing water-based low-viscosity liquid inkjet inks for digital, contactless inkjet printing, wherein the inkjet ink is applied from systematically arranged nozzles in a time-dependent and location-dependent manner and divided into individual volume units, characterized in that the inkjet ink at the nozzle outlet is or is being cooled to temperatures below the temperature of the ambient air. A device for processing water-based low-viscosity liquid inkjet inks for digital, contactless inkjet printing, comprising at least one print head, whereby inkjet inks are applicable from systematically arranged nozzles in a time-dependent and location-dependent manner and divided into individual volume units, characterized in that the print head and/or the inkjet ink supplied to the print head is coolable.

Abstract: Liquid ink-receiving layers or films (receiving layers) for direct ink jet printing or ink printing, into which low-viscous liquid (highly fluid) printing media (printing inks) can be introduced according to said printing methods, and which solidify or are able to be solidified at a time subsequent to the ink insertion (retarded). The invention eliminates limitations on the usability of raw materials for ink jet printing or ink printing, especially of film-forming agents but also of pigments and other ingredients. Moreover, corresponding compositions and methods for ink jet printing or ink printing are proposed.

Abstract: Disclosed herein are exemplary embodiments of apparatus, systems, and methods relating to mounting antenna components, modules, assemblies, etc. to mounting surfaces, such as vehicle roofs, hoods, trunk lids, etc. Other aspects relate to antenna assemblies including the mounting apparatus. An exemplary embodiment generally includes one or more contact parts, a clamping piece, and a fastener. The one or more contact parts, clamping piece, and fastener may be used for mounting an antenna assembly to a mounting surface, such as a vehicle body wall (e.g., a vehicle's roof, hood, trunk lid, etc.).

Abstract: According to various aspects, exemplary embodiments are provided of apparatus and methods relating to mounting antenna components, modules, and assemblies, such as antenna modules or RF amplifier modules. In an exemplary embodiment, a fastener includes a clamping portion. An actuator is configured to convert a rotational force applied for rotating the fastener into a clamping force applied to the mounting surface generally between the at least one antenna component and the clamping portion of the fastener, to thereby mount the at least one antenna component to the mounting surface.

Abstract: Disclosed herein are exemplary embodiments of apparatus, systems, and methods relating to mounting antenna components, modules, assemblies, etc. to mounting surfaces, such as vehicle roofs, hoods, trunk lids, etc. Other aspects relate to antenna assemblies including the mounting apparatus. An exemplary embodiment generally includes one or more contact parts, a clamping piece, and a fastener. The one or more contact parts, clamping piece, and fastener may be used for mounting an antenna assembly to a mounting surface, such as a vehicle body wall (e.g., a vehicle's roof, hood, trunk lid, etc.).

Abstract: A method is disclosed of pretreatment and/or precoating of nonabsorbent substrates and/or nonabsorbent support materials, in particular of plastics, metals or glass, for ink printing or inkjet printing with water-based ink with a pretreatment solution and/or coating. The method includes applying at least one initiator which physically or chemically induces a sufficiently rapid reduction of the flowability of the ink to the substrate and/or support material, giving a defined ink distribution.

Abstract: According to various aspects, exemplary embodiments are provided of apparatus and methods relating to mounting antenna components, modules, and assemblies, such as antenna modules or RF amplifier modules. In an exemplary embodiment, a fastener includes a clamping portion. An actuator is configured to convert a rotational force applied for rotating the fastener into a clamping force applied to the mounting surface generally between the at least one antenna component and the clamping portion of the fastener, to thereby mount the at least one antenna component to the mounting surface.

Abstract: A method is disclosed of pretreatment and/or precoating of nonabsorbent substrates and/or nonabsorbent support materials, in particular of plastics, metals or glass, for ink printing or inkjet printing with water-based ink with a pretreatment solution and/or coating. The method includes applying at least one initiator which physically or chemically induces a sufficiently rapid reduction of the flowability of the ink to the substrate and/or support material, giving a defined ink distribution.