WO2015010721A1 - Distributeur automatique de service - Google Patents

Distributeur automatique de service Download PDF

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Publication number
WO2015010721A1
WO2015010721A1 PCT/EP2013/065460 EP2013065460W WO2015010721A1 WO 2015010721 A1 WO2015010721 A1 WO 2015010721A1 EP 2013065460 W EP2013065460 W EP 2013065460W WO 2015010721 A1 WO2015010721 A1 WO 2015010721A1
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WO
WIPO (PCT)
Prior art keywords
data
display
display area
mixing unit
service machine
Prior art date
Application number
PCT/EP2013/065460
Other languages
German (de)
English (en)
Inventor
Stephan Danner
Original Assignee
Keba Ag
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Keba Ag filed Critical Keba Ag
Priority to EP13742605.2A priority Critical patent/EP3025313A1/fr
Priority to PCT/EP2013/065460 priority patent/WO2015010721A1/fr
Publication of WO2015010721A1 publication Critical patent/WO2015010721A1/fr

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Classifications

    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07FCOIN-FREED OR LIKE APPARATUS
    • G07F17/00Coin-freed apparatus for hiring articles; Coin-freed facilities or services
    • G07F17/32Coin-freed apparatus for hiring articles; Coin-freed facilities or services for games, toys, sports, or amusements
    • G07F17/3202Hardware aspects of a gaming system, e.g. components, construction, architecture thereof
    • G07F17/3204Player-machine interfaces
    • G07F17/3211Display means
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07FCOIN-FREED OR LIKE APPARATUS
    • G07F17/00Coin-freed apparatus for hiring articles; Coin-freed facilities or services
    • G07F17/32Coin-freed apparatus for hiring articles; Coin-freed facilities or services for games, toys, sports, or amusements
    • G07F17/3202Hardware aspects of a gaming system, e.g. components, construction, architecture thereof
    • G07F17/3223Architectural aspects of a gaming system, e.g. internal configuration, master/slave, wireless communication

Definitions

  • the invention relates to a service with a display device, such as vending machines and ATMs.
  • the invention relates to the generation of data for display on such a display device.
  • Service machines such as vending machines and cash machines, can be used for a variety of applications. These include, among other things, the deposit and withdrawal of cash, the making of transfers and numerous other financial transactions related services.
  • service machines have a plurality of components.
  • Such components include input and output modules, magnetic card, chip card and transponder reader modules, PIN input pads, receipt printers, displays or monitors, various keys and keypads, touch screens, camera, scanner, signal lights and the like.
  • the control of the service machines including the control of the various components can be taken over by a PC-like computer platform with an operating system, which can be a common operating system such as Windows or Linux. Even if the basic functions are comparable, the control for the internal functioning of the components may vary depending on the manufacturer and type of service machine.
  • an application software of the service provider operator a software interface can be provided which provides a standardized interface independent of the manufacturer of the service machine for the application software of the operator. In this way, an application or application software of the service provider or the operator of the service machine largely independent and without major adjustments on machines from different manufacturers, that is on different hardware platforms, run. Both the hardware and the software components are usually protected against unauthorized manipulation.
  • various additional device-specific instructions and signals can be used in various devices, for example, to identify the individual machine components, which are to be considered or used by the customer in the course of an operation at specific times. These include, for example, flashing lights, information arrows or illuminated letters next to the card reader, the pin pad, the cash dispenser or the receipt printer, in order to indicate to the user where the next operator action is to be performed on the machine and how this is to be carried out. These light signals can be activated by the application software depending on the next operator action expected by the user. Added to this are simple instructions and symbolic, greatly simplified displays on the screen. Such on-screen instructions are usually very general because the same output or instruction can be used for or provided for a number of different types of automata. The indications and signals are activated by the application software either via standardized, device-independent interfaces as a function of the performed business case or automatically with the activation of a specific machine component to which the respective note is assigned.
  • the application software is designed so that it fully and exclusively uses the fully integrated display in the machine and other software components can not make screen outputs that could mask and distort the output of the application soft- ware.
  • Conventional overlay techniques such as simple virtual output windows are therefore prohibited.
  • the application software activates or deactivates the individual components of the ATM by means of function calls via a software interface provided by the basic software or the machine-specific software of the automatic machine.
  • the basic software outputs the assigned realistic, machine-specific instructions, images and video sequences on the second, independent screen, matching the activated components or the respective process or operating step.
  • the tasks are provided by a service automat with the
  • a service machine with a display device and a device for outputting display data to the display device wherein the display device has at least a first display area and a second display area.
  • the device comprises the following features: a first input adapted to receive first data, a second input adapted to receive second data, a mixing unit adapted to supply the first data and the second data an intermediate signal to be combined such that the first data area is associated with the first display area and the second data area, the second display area having predefined properties corresponding to predefined characteristics of the second data, a graphics processing device capable of processing the intermediate signal and generating an output digital video signal based on the intermediate signal, and an output configured to output the output digital video signal to the display device.
  • the first data and the second data are each suitable for display on each of a separate, standardized display device (each with predetermined first and second screen resolution) and set up.
  • the mixing unit is configured to combine the first data and the second data into a common intermediate signal such that image information both the first and second data, after processing the intermediate signal and generating a digital output video signal by the graphics processing device, are simultaneously displayed on a shared, standardized display device (with a predetermined third screen resolution).
  • the first display area can also have predefined properties that correspond to predefined properties of the first data.
  • the image data of at least the second data are in this case determined by a software program, that is to say the application software, which is designed for exclusive, sole use of a display device.
  • the service bureau may be an ATM, ticket vending machine, a vending machine, an account information terminal, a lottery terminal, a package parcel machine for sending or receiving parcels, a check-in terminal, or any other type of service or cash dispenser.
  • Each type of automaton may have a display device to display any data.
  • the data to be displayed is supplied to the display device by a display data output device.
  • the display device may be, for example, a screen or monitor having a first display area and a second display area.
  • the device for outputting display data it is possible to provide the service machine with a display, wherein on a common single physical display or a common display device first display data (for example application data of the service provider operator) and second display data (for example, machine-specific instructions) are displayed.
  • the second display area can be used for the second data as an exclusively assigned display, to which a special resolution or other special, predefined settings or also exclusive image memories and software interfaces or own virtual display areas (windows) are assigned.
  • This special resolution can be predetermined, for example, by an application or application software of a service-provider operator.
  • the rest of the display area which is referred to here as the first display area, is not predefined by the application software in appearance and can be used independently of this application software by other signals or data, such as the first data. In this way, the application software can be operated without adaptation to the actual size of the display. At the same time, the remaining area of the display is available for the output of image information by other software components.
  • the first data and the second data may be received as a first signal and a second signal.
  • the first signal and the second signal may have the first (display) data and the second (display) data, respectively, containing display information.
  • the second display area has predefined properties, wherein the mixing unit is set up in such a way that it adjusts or at least provides the expected resolution of the second display area or other properties during the generation of the intermediate signal.
  • the mixing unit may also be arranged to rotate the second data or the associated display, that is to change the orientation, for example in order to ensure that the image data contained in the second data match the native drive direction of the display device ,
  • the second signal or the second data contained in the second signal may already have the predefined properties of the second display region.
  • the graphics processing device may be configured to rotate the digital output video signal or the associated display, or to generate a rotated digital output video signal when processing the intermediate signal. This may be necessary if the display device is installed and operated in portrait format, but the image data for the second display area correspond to a landscape image or are provided by the application software for a display device in landscape format.
  • the first display area and the second display area may be divided in various ways. Thus, the second display area may be included in the first display area or vice versa. This can be called picture-in-picture (bite) or picture-in-picture (PiP).
  • the first display area and the second display area may be the same be large and arranged one above the other or side by side.
  • the first data and the second data which are also referred to herein as first display data and second display data respectively, may include display information or pixel information for the first and the second display area, respectively.
  • the display information includes, among other information, display content or display style, resolution, orientation, color, brightness, etc.
  • the first data and the second data may also contain further information regarding the corresponding application software.
  • the first data may correspond to a service machine specific application or display data.
  • the second data may correspond to an operator-specific application or display data.
  • Operator-specific application in this context refers to an application or application or application software that is provided by the operator of the service machine, such as a bank.
  • the operator-specific application software depicts the various service processes of the machine offered by the operator; in the case of a banking service machine, for example, the payment and withdrawal of cash, the making of transfers, the checking of the account balance or the printing of account statements.
  • machine-specific basic software is adapted to the respective embodiment, technical equipment, the type and the manufacturer of the machine and in turn provides the application software with a largely platform-independent interface for the use of the respective machine components.
  • Service machine-specific application, machine-specific basic software or application software in this context refers to an application or application software provided by the manufacturer of the service machine, for example in the manufacture or delivery of the service machine.
  • automatic application For example, additional information may be presented in addition to the operator-specific application. This information includes, for example, machine-specific animations, video sequences or images, arrows, camera images, commercials, hints for auto-specific settings, including personal adjustments or improved usability such as height adjustment of the screen or the second display area.
  • a service machine allows information to be output simultaneously from both the machine-specific basic software and the operator-specific application software on a single shared display device, even if the configuration of the operator-specific application software actually requires an exclusively associated display device or an existing display device of the operator-specific one Application software is normally used exclusively.
  • a graphics processing device is understood herein to be a device having graphics card functionality.
  • the graphics processing device may include an operating system as well as drivers.
  • An interface compliant with the DVI standard (Digital Video Interface) or HDMI standard may be provided between the graphics processing device and the display device.
  • the output video signal may include analog and digital data.
  • the graphics processing device may be, for example, a structural unit such as a printed circuit board or a chip, in particular a microchip.
  • the graphics processing device may be configured to process the received data, that is the received intermediate signal, in particular the resolution of the received display data in the intermediate signal. In this way it can be ensured that the operator-specific display data with the predefined properties can be processed by the mixing unit and displayed by the graphics processing device.
  • the mixing unit is configured to prioritize the second data over the first data.
  • the mixing unit ensures that the second display area is always completely visible and can not be overwritten by parts of the first display area.
  • it can be ensured that the second data is displayed in each case, whereas the first data need not be displayed in each case and may be superimposed on the second data on a case by case basis.
  • display data contained in the second data can be represented with highest (or at least high) priority.
  • the second data can contain display data that is assigned to an application software of a bank or another machine operator, it may be necessary to always display these - depending on their relevance.
  • the first data may contain display data which are only specific to the machine, for example contain operating instructions which do not have to be displayed under all circumstances, in particular not completely. This may be important, for example, in terms of inhibiting software manipulations, such as fingering transactions that are not actually taking place, spying on access data, or the like.
  • the automatic specific base software or the first data may also be adapted such that In the case of an overlay, they only use those parts of the first display area which are not superimposed by the second display area, so that nevertheless all relevant information can be recorded on the screen.
  • the automatic software or basic software is thus designed so that it does not use certain parts of the first display area which are superposed by the second display area.
  • the mixing unit is set up to take into account such an overlay when generating the intermediate signal.
  • the intermediate signal already has a combination of the first data and the second data, which are subsequently converted in the graphics processing apparatus to a digital output video signal.
  • This output digital video signal contains information for the first display area and the second display area.
  • the graphics processing device may be an SD graphics card with a 3D support. Such a graphics card can control the overlay and visibility of graphics elements based on a depth coordinate (z-coordinate). Accordingly, the mixing unit may be arranged to assign different depth coordinates and positions to the first data and the second data. In this case, the intermediate signal may include the first data and the second data with additional information. The graphics processing device can be set up accordingly to evaluate the additional information and to provide for display on the display device, in which case, for example, the second display area overlays the first display area. In a further embodiment, the first input and the second input each have an interface to a self-running operating system.
  • Such interfaces may be standardized interfaces via which a simple connection to a computer operating system designed essentially in a hardware-independent manner can take place.
  • the first input may be part of a first operating system and the second input may be part of a second operating system.
  • the second input may provide basic operating system functionality compatible with a self-powered graphics processing device. That is, the second input provides compatibility with a standalone video card or virtual video card.
  • At least one of the two operating systems is executed in a virtual machine.
  • the device may be implemented on a hardware platform, or a computer or personal computer.
  • One of the two operating systems can be executed directly on this hardware platform.
  • the second operating system can run as a virtual machine or a virtual PC on the hardware platform next to the other operating system.
  • the device comprises a first driver unit arranged between the first input and the mixing unit and a second driver unit arranged between the second input and the mixing unit, wherein the first driver unit is arranged to store the first data and to forward the processed first data to the mixing unit, and wherein the second drive unit is adapted to process the second data and to forward the processed second data to the mixing unit.
  • the mixing unit can easily combine the processed first data and the processed second data without requiring complicated computation operations.
  • the driver units can already process the first data and the second data, so that the mixing unit only has to perform a merging or superposition of the data.
  • Processing the first data and the second data may include translating the first data and the second data into pixel data.
  • the driver units may further interfere with an operating system.
  • the first input and the second input can represent interfaces to one operating system each. These interfaces can also be represented by the driver units.
  • the apparatus includes a driver device configured to receive the intermediate signal and to drive the graphics processing device based on the intermediate signal. Such a driver device may serve as an interface between the mixing unit and the graphics processing device.
  • the driver device may forward the intermediate signal to the graphics processing device such that it receives a conditioned intermediate signal that can be processed in a simple manner.
  • the driver device can forward to the graphics processing device further information that is required for display on the display device.
  • this information may include information about alignment, resolution, or the like.
  • the first display area has a plurality of sub-display areas, and the first data has display data for the plurality of sub-display areas.
  • a plurality of further, in particular virtual, display areas can be defined.
  • the first display area may thus have a plurality of sub-display areas. These sub-display areas can be used for various displays that need not be related.
  • the first data comprises a plurality of individual data signals each associated with one of the plurality of sub-display regions.
  • the first input may receive a plurality of individual data signals each having data for a sub-display area. These data signals can be received consecutively. It is also possible that a single data signal is received having information relating to each of the plurality of sub-display areas.
  • the apparatus has a third input adapted to receive third data, wherein the mixing unit is arranged to combine the first data, the second data and the third data into an intermediate signal such that the third data a third display area is associated with the display device, the third display area being predefined. has nêt properties that correspond to predefined properties of the third data.
  • the third data can be entered, for example, directly via a USB interface, via which a certified display and keyboard communication can then proceed.
  • the third data may include, for example, data for a line display of a payment module.
  • Such a line display can be emulated by the mixing unit and the characters provided for output can be passed on or output by the mixing unit to the graphics processing device or another graphics processing device.
  • the graphics processing device or the further graphics processing device may then display the third data at a designated location of the common screen or the display device.
  • the display device has a third display area in which the display data included in the third data can be displayed.
  • the third data like the second data, has fixed predefined properties corresponding to characteristics of the third display area. In this way, the device or software that provides the third data can be offered the third display area with specified properties.
  • the mixing unit is set up to prioritize the second data and the third data with respect to the first data.
  • the second data and the third data are always displayed on the display device. If the first data would be displayed on areas of the display device on which the second data or the third data would also be displayed, the first data will be neglected with respect to the others. That is, in such a case, the image information of the first data is not displayed on these areas, but the image information of the second data or the image information of the third data is displayed.
  • a cascade of prioritizations is provided. In this case, a highest (or at least high) priority can be assigned to the second data and the third data. In particular, the third data may be assigned the highest priority, the second data an underlying priority, and the first data the lowest priority.
  • the third data is encrypted. Encryption of the third data may provide protection against unauthorized access to this data. In this way, it can be ensured that security-relevant data contained in the third data can not be accessed without authorization.
  • encryption of the third data may be some type of cryptographic encoding. In this case, for example, a symmetric cryptographic coding or an asymmetric cryptographic coding come into question.
  • the mixing unit is configured to receive position information that is indicative of a position and / or orientation of the first display area and / or the second display area on the display device.
  • the mixing unit may receive position information, for example, as a position signal indicating a position of the first display area and / or the second display area on the second display device.
  • This position information may further indicate a position of the third display area, if any.
  • the position information may also indicate an orientation, such as portrait or landscape, or other information.
  • the position information can be used as a position signal via an external input, for example. For example, via a USB interface, are received.
  • the first data or the second data if present possibly also the third data, may contain the position information.
  • the position information can be input externally by a user, for example, a machine operator.
  • the position can be set by parameters, which are then contained in the position information.
  • the positions can be determined according to design and ergonomic criteria already during the production process.
  • the machine operator uses the application software to create a platform-independent interface that only provides general basic functionalities that are required for mapping the application software, whereby the positions of the application software have already been defined.
  • the mixing unit is configured to store position information that is indicative of a position and / or orientation of the first display area and / or the second display area on the display device.
  • the position information can be fixedly stored in the mixing unit. For example, if the position information is received by an external signal, that position information may be stored until new position information is input via a new external signal.
  • the mixing unit may have a memory for storing the position information.
  • the mixing unit is set up to replace the first data at least partially by the second data when generating the intermediate signal.
  • the first data may be at least partially overwritten by the second data in generating the intermediate signal.
  • an overlay of the first display area is indirectly achieved by the second display area.
  • bits of the first data corresponding to the first are overwritten by bits of the second data associated with the second display area.
  • pixel information on screen coordinates, or coordinates or positions of the display device superimposed on the second data are replaced by the corresponding image information or pixel information of the second data.
  • the pixel information at non-superimposed display device coordinates will persist and may be present in the intermediate 1: 1 signal.
  • the mixing unit is configured to replace the first data with a dummy signal when combining the first data and the second data if the first data is missing or contains no display data. If the device recognizes, for example by means of the mixing unit, that the first data does not contain display data, the device can replace the first data with a dummy signal.
  • the dumb signal may correspond to a signal containing only pixel information regarding black pixels. The generation of such a black video signal, for example a black HD (High Definition) stream, can be performed in the mixing unit.
  • pixel information is added to the intermediate signal with respect to black pixels which are then included in the intermediate signal.
  • the device is configured to switch off the display device if the second data is missing or contains no display data.
  • the display device can be turned off. Since the second data represent operator-specific data, according to this embodiment, the entire display device can be switched off, provided that no operator-specific data can be displayed. In this way, the security of the service machine can be increased because the display device only works when an application software of the operator sends data to the device. As a result, it can be ruled out, in particular, that manipulations on the machine-specific application are carried out, which would then display simulated second data on the display device.
  • the computer program product such as a computer program means can for example be provided or supplied as a storage medium, such as a memory card, USB stick, CD-ROM, DVD or even in the form of a downloadable file from a server in a network. This can be done, for example, in a wireless communication network by the transmission of a corresponding file with the computer program product or the computer program means.
  • a data carrier with a stored computer program is proposed with commands which form the computer program product when executed on a program-controlled device.
  • the respective unit for example the driver units, driver device, mixing unit and graphics processing device, can be implemented in terms of hardware and / or software.
  • the respective unit may be embodied as a device or as part of a device, for example as a computer or as a microprocessor.
  • the respective unit may be designed as a computer program product, as a function, as a routine, as a stand-alone process, as part of a program code and / or as an executable object.
  • the said respective units may also be implemented in a plurality of separate processor cores within a common integrated circuit or be implemented therein.
  • a method for outputting display data to a display device of a service machine wherein the display device has at least a first display area and a second display area.
  • the method includes the following steps: receive first data, receiving second data, combining the first data and the second data into an intermediate signal such that the first data area is associated with the first data area and the second data area with the second display area having predefined characteristics that are predefined - Finished properties of the second data correspond, processing the intermediate signal and generating a digital output video signal based on the intermediate signal and outputting the output video signal to the display device.
  • Fig. 1 is a schematic block diagram of a first embodiment of a service machine with a device for outputting display data
  • Fig. 2 is a schematic block diagram of a second embodiment of a service machine with a device for outputting display data
  • Fig. 3 is a schematic block diagram of a third embodiment of a service machine with a display data output device
  • Fig. 4 is a schematic block diagram of a fourth embodiment of a service machine having a display data output device
  • Fig. 5 is a schematic block diagram of a fifth embodiment of a service machine having a display data output device
  • Fig. 6 is a schematic block diagram of a sixth embodiment of a service machine having a display data output device.
  • FIG. 7 is a schematic flowchart of an example of a method of outputting display data.
  • FIG. 1 shows a service machine 10 having a display device 108 and a device 100 for outputting display data to the display device 108.
  • first data 103 are received at a first input 101 of the device 100.
  • the first data 103 may be display data of an application specific to the service machine 10. This can be, for example, control panel information or the like.
  • the device 100 further receives second data 104 at a second input 102.
  • the second data 104 may be received in parallel with the first data 103.
  • the second data 104 may be service-specific application data, which may be bank-specific data, for example.
  • the device 100 has a mixing unit 105.
  • the mixing unit 105 the first data 103 and the second data 104 are combined into an intermediate signal 106.
  • the mixing unit 105 superimposes or overwrites in the intermediate signal 106 parts of the first data 103 by data, for example pixels, of the second data 104.
  • the apparatus 100 further includes a graphics processing device 107.
  • the intermediate signal 106 is transmitted from the mixing unit 105 to the graphics processing device 107.
  • the graphics processing device 107 processes the Intermediate signal 106 and generates an output digital video signal 110 based on the intermediate signal 106.
  • the device 100 further has an output 109 from which the output video signal 110 is output to the display device 108.
  • the interface between the graphics processing device 107 and the display device 108 may be a DVI (Digital Video Interface) interface.
  • the digital output video signal 110 is sent to the display device 108 and has both data for the first display area 1 1 1 and the second display area 1 12.
  • the display device 108 has a first display region 1 1 1 and a second display region 1 12. As shown in Fig. 1, the first display area 1 1 1 and the second display area 1 12 can be represented as a picture-in-picture function. In this case, the second display area 1 12 overlaps the first display area 1 1 1.
  • the display areas 1 1 1 and 1 12 can also claim the same size areas of the display device 108, as shown in the following figures. Also, the first display area 1 1 1 may be smaller than the second display area 1 12 and this overlap.
  • the second display area 1 12 has predefined properties that correspond to predefined properties of the second data 104.
  • Such properties include, for example, a standardized screen resolution of 1024x768 (XGA) pixels.
  • XGA 1024x768
  • overlapping can be understood as meaning a partial or complete superposition of the first display region 11 1 through the second display region 12, or vice versa.
  • the mixing unit 105 combines the first data 103 and the second data 104 to the intermediate signal 106 such that the intermediate signal 106 represents a combined signal of the first data 103 and the second data 104.
  • This intermediate signal 106 includes display data for the first display area 1 1 1 and display data for the second display area 1 12.
  • this intermediate signal 106 is converted into a digital output video signal 110, which can be processed by the display device 108.
  • FIG. 2 shows another embodiment of a service machine 20 having a device 200 for outputting display data to the display device 108.
  • the device 200 has a virtual machine 205.
  • the device 200 may be implemented on a hardware platform (not shown).
  • the virtual machine 205 can be implemented on the same hardware platform.
  • the first data 103 and the second data 104 are respectively transferred to a first driver unit 201 and a second driver unit 20.
  • the second driver unit 202 is part of the virtual machine 205.
  • the first driver unit 201 and the second driver unit 202 respectively process the first data 103 and the second data 104 and forward processed first data 203 and processed second data 204 to the mixing unit 105.
  • These processed first data 203 and processed second data 204 have driving information for the mixing unit 105 in addition to the display data included in the first data 103 and the second data 104.
  • FIG. 3 shows a further embodiment of a service machine 30 having a device 300 for outputting display data to a display device 108.
  • the device 300 has a driver device 301, which is arranged between the mixing unit 105 and the graphics processing device 107.
  • the driver device 301 receives the intermediate signal 106 and processes it. Based on the intermediate signal 106, the driver device 301 drives the graphics processing device 107.
  • a signal 302 is forwarded to the graphics processing device.
  • the signal 302 includes the intermediate signal 106 and drive or driver information.
  • the display device 108 may include the first display area 11 1 and the second display area 12 as superimposed display areas. These can be the same size or have different sizes.
  • the mixing unit 105 receives a plurality of data 401, 402, 403.
  • the data 401, 402, 403 may, as shown here, be contained in a single data signal 103 received at the first input 101.
  • the data 401, 402, 403 may also be received as individual data signals 401, 402, 403.
  • the plurality of data 401, 402, 403 are assigned in a plurality of display areas 404, 405, 406 representing the first display area 11 1. That is, the first display area 1 1 1 in this embodiment has a plurality of sub-display areas 404, 405, 406.
  • These sub-display areas 404, 405, 406 may also be virtual display areas that can be programmatically filled, positioned, resized, displayed, and deleted within an associated screen, that is, the display device 108.
  • the display areas 404, 405, 406, 1 12 are shown as arranged one below the other, any other type of arrangement is possible.
  • the plurality of display areas 404, 405, 406 may be arranged around the second display area 12. It is also possible that the second display area 1 12 overlaps one or more of the plurality of sub-display areas 404, 405, 406.
  • FIG. 5 shows a further embodiment of a service machine 50, which has a device 500 for outputting display data to a display device 108.
  • the device 500 has a third input 501 for receiving third data 502.
  • These third data 502 are addressed image data.
  • the third data 502 are also forwarded to the mixing unit 105.
  • the mixing unit 105 generates an intermediate signal 106 based on the first data 103, the second data 104, and the third data 502.
  • the mixing unit 105 passes the intermediate signal 106 to the graphics processing device 107, which processes the intermediate signal 106 and generates a digital output video signal 110.
  • the output digital video signal 110 has display data for the first display area 11 1, the second display area 12, and a third display area 503 of the display device 108.
  • the third display area 503 is associated with the third data 502. Although in Fig. 5, the first display area 1 1 1, the second display area 1 12 and the third display area 503 are arranged one above the other, also a different arrangement of the display areas 1 1 1, 1 12, 503 is possible.
  • the mixing unit 105 When combining the first data 103, the second data 104 and the third data 502, the mixing unit 105 preferably prioritizes the second data 104 and the third data 502 with respect to the first data 103 so that the second data 104 and the third data 502 are always displayed , As a result, the respective complete visibility of the second display area 12 and the third display area 503 is ensured.
  • FIG. 6 shows a further embodiment of a service machine 60 which has a device 600 for outputting display data to a display device 108.
  • the mixing unit 105 may include a storage device 602.
  • the mixing unit 105 may receive a position signal or position information 601 stored in the memory device 602.
  • the position information 601 may include information on which position the display areas 1 1 1, 1 12 are displayed on the display device 108, as well as information about their orientation or other display information.
  • the position information 601 may be received as an external signal, such as a position signal, or may be included in the first data 103 or the second data 104.
  • the display device 108 may be, for example, an HD display (High Definition Display) with a dual-channel LVDS interface and a resolution of, for example, 1920 ⁇ 1080 pixels.
  • the application software that is, the second data 104, typically requires a lower resolution than the HD display 108 and generates, for example, screen data contained in the intermediate signal 106 for an XGA graphics resolution of only 1024x768 pixels.
  • FIG. 7 shows a schematic flow diagram of a method 700 for outputting display data.
  • first data 103 are received at a first input 101 of a device 100.
  • second data 103 are received at a second input 101 of a device 100.
  • Step 702 second data 104 is received at a second input 102 of device 100. Subsequently, the first data 103 and the second data 104 are combined into an intermediate signal 106, so that the first data 103, the first display area 1 1 1 and the second data 104, the second display area 1 12th assigned.
  • the second display area 1 12 has predefined properties that correspond to predefined properties of the second data 104.
  • the combining of the first data 103 and the second data 104 (third step 703) is performed in a mixing unit 105.
  • the mixing unit 105 passes the intermediate signal 106 to a graphics processing device 107, which then processes the intermediate signal 106 (fourth step 704) and generates an output digital video signal 110 based on the intermediate signal 106 (fifth step 705). After generating 705 of the output digital video signal 110, the output video signal 110 is output to the display device 108 of the service machine 10 in a sixth step 706.

Abstract

L'invention concerne un distributeur automatique de service comprenant un dispositif d'affichage et un dispositif destiné à délivrer des données à afficher au dispositif d'affichage. Le dispositif d'affichage possède au moins une première zone d'affichage et une deuxième zone d'affichage. Le dispositif présente les caractéristiques suivantes : une première entrée, qui est conçue pour la réception de premières données, une deuxième entrée, qui est conçue pour la réception de deuxièmes données, une unité de mélange, qui est conçue pour combiner les premières et deuxièmes données en un signal intermédiaire de telle sorte que les premières données sont associées à la première zone d'affichage et les deuxièmes données à la deuxième zone d'affichage. La deuxième zone d'affichage possède des propriétés prédéfinies qui correspondent à des propriétés prédéfinies des deuxièmes données. Le dispositif selon l'invention comprend également un dispositif de traitement graphique qui est conçu pour le traitement du signal intermédiaire et pour générer un signal vidéo de sortie numérique à partir signal intermédiaire, et une sortie qui est conçue pour délivrer le signal vidéo de sortie au dispositif d'affichage.
PCT/EP2013/065460 2013-07-23 2013-07-23 Distributeur automatique de service WO2015010721A1 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
EP13742605.2A EP3025313A1 (fr) 2013-07-23 2013-07-23 Distributeur automatique de service
PCT/EP2013/065460 WO2015010721A1 (fr) 2013-07-23 2013-07-23 Distributeur automatique de service

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/EP2013/065460 WO2015010721A1 (fr) 2013-07-23 2013-07-23 Distributeur automatique de service

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020190630A1 (fr) 2019-03-15 2020-09-24 Sequent Medical, Inc. Dispositifs filamenteux munis d'une articulation flexible pour le traitement d'anomalies vasculaires

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20090149254A1 (en) * 2005-09-07 2009-06-11 Bally Gaming, Inc. Video switcher and touch router system for a gaming machine
EP2541514A1 (fr) * 2011-06-29 2013-01-02 IGT, a Nevada Corporation Commande de mixage vidéo externe

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20090149254A1 (en) * 2005-09-07 2009-06-11 Bally Gaming, Inc. Video switcher and touch router system for a gaming machine
EP2541514A1 (fr) * 2011-06-29 2013-01-02 IGT, a Nevada Corporation Commande de mixage vidéo externe

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020190630A1 (fr) 2019-03-15 2020-09-24 Sequent Medical, Inc. Dispositifs filamenteux munis d'une articulation flexible pour le traitement d'anomalies vasculaires

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