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    • 专利摘要:
    The invention provides a system (capable of) / pre-controlling a number of (audio, visual and / or mechanical and / or lighting) devices in a location, the system comprising / consisting of (1) a housing comprising an electronic subsystem (controller) for generating (all) control signals for (all) said devices and input / output terminals for providing the generated control signals to said devices; and (2) a touchscreen console (in connection with said electronic subsystem), used (only) (and thus not for recording other visual information) for (and as the only physical way) (i.e. no additional buttons present, in one embodiment a further remote access via web browser is provided) controlling the activities of said electronic subsystem; whereby this touchscreen console is provided on the housing.
    公开号:BE1023476B1
    申请号:E2016/5012
    申请日:2016-01-08
    公开日:2017-04-03
    发明作者:Gielis HENDRIK-Jan;Hees Paul Van
    申请人:Giva Audiovisual Technologies Bvba;
    IPC主号:
    专利说明:

    Single housing audio, video and light control system. Field of the invention
    The invention relates to audio, video and / or light control, and computer programs and graphic user interfaces therefor.
    BACKGROUND OF THE INVENTION
    For audio / visual systems, very large systems are usually used, comprising several racks (separate enclosures), each of which realizes a specific function (audio, visual and other).
    To improve the efficiency of using these large expensive systems, these systems can be used in a distributed manner, meaning that one system is used to support a number of locations, each location then being provided with a simple user console, which is a has wired or wireless communication with the system. At the location of the system a more extensive (at least with more than the simple user console functions) console with more professional operation of the system can be provided.
    Of course there are also more specific devices. Television equipment usually has video signals and audio signals. A normal desk top computer is usually provided for video signals (for the computer screen) and audio signals. But those devices do not provide all the required functionalities.
    Summary of the invention
    The invention, on the other hand, provides for an audio / visual system by providing a system with all required functions (therefore, a general device) encapsulated in a single housing.
    The invented system is suitable for video in and out signals and audio output and in signals (preferably at least a pair that have a high quality stereo) and the signals that are suitable for controlling mechanical or lighting devices such as DMX. Moreover, in a preferred embodiment, the system has sufficient storage space for storing content (video, audio) that is not found in television sets.
    Therefore, the invention supports the use of one system for one location, while at least supporting the audio / visual requirements and preferably also controlling mechanical operations such as operations with shutters of that particular location, operating steering motors to position a projector in the correct position on the location or alternatively in addition to at least the audio requirements, you also control lights and / or use an output for digital messages or advertising.
    This deliberate single housing choice further allows (unlike ordinary desktop computers) integration of the console on or in the housing, so preferably the system also includes a touchscreen on or in the housing to be used as a console. Moreover, it is further preferred that the console can be used as a user and expert console (hence only 1 console is used to control the entire system).
    The above duplicate requirements on the console poses a challenge in particular to the supporting software (GUI), which must offer a first view, suitable for (inexperienced) user control, while also a more extensive view, suitable for more expert control, must be made available.
    Preferably, the first view is a relatively simple, with a number of pre-programmed scenario supporting buttons, supplemented with a pair of fixed sliders for audio and light control.
    Preferably the second view has more detailed sliders for separately tuning (further) aspects of the audio and / or light control, even more preferably, the second view is generated by a predetermined part of the provided sliders of the first view To hit.
    Of course, the dimensions of the entire system are limited in size (because it must also closely match the location it supports) and, consequently, the integrated touchscreen is also limited in size, which has further technical consequences for the GUI layout. Therefore, in a preferred embodiment, the more detailed sliders may, if activated, overlay or overlap with one or more elements (sliders, nodes) of the first view.
    Finally, it should be noted that while the system is integrated into one housing, this does not mean that it is limited in functionality per se. The amount of connectors adapted to support a single location is, of course, but in a further preferred embodiment, for example, the direct connection of content carriers (such as a USB stick) is also provided.
    In a further preferred embodiment, a distinction is made between the connections easily accessible to the user (such as the HDMI and / or USB port), which must lie on the side wall of the housing, while furthermore all or substantially all other connections are placed on the side of the housing is facing downwards, while the system is installed on its support (because they are actually relatively fixed connections with the external equipment in the room that supports the invented system).
    Again the above alternative use for lamp control and / or use of a digital message / advertising output on the console poses a challenge in particular to the software (GUI) as further described below.
    It will be appreciated that in a particular useful use of the system, the system is arranged so that the screen is arranged tilted at a predetermined angle with respect to a virtual vertical plane and the housing is mounted on a support. Since the amount of functionality leads to a relatively heavy weight and the necessary height (for the aforementioned with a reasonable image size), it must be understood that this is yet another technical design challenge to stability that needs to be addressed, in particular because the size of the lower part of the support is limited (considering the intended use). While the above boils down to ensuring that the vertical projection of the center of gravity of the entire system is within the space covered by the bottom part, it must be appreciated that the design space is given by the flat nature of the electronic plate (also tilted by the parallel to the front of the system) on which the electronics are mounted. Note that the requirement of stability is only mandatory for the tilted use case. In an embodiment of the invention, a strict rectangular housing and / or strict flat arrangement of electronic components is deviated from in that the lower part of the housing (the part directed to the lower part of the carrier) is considerably thicker than the upper one part and / or one or more of the electronic components are mounted in parallel planes (for example, one connector is fixed above a connector on the board) and preferably that thickening of the housing is only around those parts in which electronic components are fitted as above described). All this provides more mass in the lower part and contributes to better stability. Note that while the amount of functionality reflected in the amount of different connections leads in a simple structure to a linear positioning of all connections, again the smallness required limits. Another random positioning of the connector makes the electronic design more complicated and can lead to mechanical stability problems. The choice for a more or less symmetrical design of the connector device as seen along the width of the housing in combination with a central thickening of the housing allowing stacking of a number of connections and / or with connectors with at least two rows of input and / or output is therefore a deliberate choice with different synergistic effects on the design challenges for this system. Figure 5 shows an illustrative arrangement of the connections while Figure 6 shows the 3D corresponding shape of the housing.
    Given the amount of functionality (and even when taking into account the energy consumption reduction techniques carefully selected in the system) still the heat to be led away by the electronic components away from the interior of the system, in one embodiment of the invention the housing was provided of studs (e.g. made of aluminum) connected to one or more of the electronic components (e.g. the processor and / or amplifier) to conduct the heat outside.
    It will further be understood that the system has a multiple of diverse design requirements that influence each other such as thermal design, electronic design (including malfunctions), mechanical stability, functionality selection, hardware versus softwart design, user friendliness, in particular considering the touch screen or console is the primary use for interaction.
    Alternatively, we can state that one or more embodiments of the invention relates to an (electronic) system (capable of being) for controlling a number (sound, image (video) and / or mechanical and / or lighting). devices in a location, more particularly these devices are therefore of a different nature in terms of input and / or output signals. In a preferred embodiment the electronic system is arranged for controlling at least one audio device (at least generating speaker signals, possibly also being able to receive microphone data), a video device (at least generating a video signal but possibly also receiving video signals) and a the audio or visual (video) device, such as a mechanical and / or lighting device. Note that in an electronic system, an embodiment of the invention refers here to the hardware platform of electronic components and (PCB) board to which they are connected and the necessary software or firmware that is active on the programmable components.
    The system described above comprises a housing comprising an electronic subsystem for generating (all) signals (i.e. at least audio, video and signals suitable for controlling mechanical or lighting devices, such as DMX) for (all) said devices and input / output connections for providing the generated signals to these devices.
    It will be appreciated that integration of all such functionality requires special technical considerations if one wants to use as many programmable and available components as possible (instead of specific ASIC) while taking into account that each of these functions have considerably different requirements.
    In an embodiment of the invention the system comprises a processor suitable for general purposes (such as an ARM platform with an ARM processor and a number of storage means (memories) (for example for storing content)), which is used as a central controller, and distribute a digital signal processor (DSP) (under control of the general-purpose processor), wherein the DSP is adapted to handle the (high-quality) audio signals. In addition, microcontrollers are further provided which are capable (under control of the general purpose processor) of handling the synchronous signals required for controlling mechanical or lighting devices. All these electronic components are integrated on a board. The general processor can preferably be used in one or more wired or wireless communication. While the universal or general processor can execute video or multimedia programs and therefore receive input and / or output video signals, the quality processing of this incoming or outgoing video is further supported by a video switching component, again under the control of the general processor.
    Brief description of the figures
    Figure 1 gives a schematic overview of the invented system (100).
    Figure 2 illustrates schematically the touchscreen (500).
    Figure 3 shows a side view of an exemplary embodiment of the invention.
    Figure 4 shows a front view of an exemplary embodiment of the invention.
    Figure 5 shows the connector part on one side of the housing.
    Figure 6 shows the shape of the housing.
    Figure 7 provides a detailed schematic overview of an embodiment of the invented system (100).
    Figure 8 gives a more detailed schematic representation of an embodiment of the invented system (100).
    Detailed description
    Figure 1 gives a schematic overview of the invented system (100) arranged for controlling a number of (audio, visual and / or mechanical and / or light) devices (200, 210, 220), which system comprises (1) a housing (300) comprising an electronic sub or subsystem (310) for generating (all) control signals for (all) said devices and input / output connections (320) for providing the generated control signals to said devices, and (2) a touchscreen console (330) (in connection with said electronic subsystem), for controlling the operation of the electronic subsystem or subsystem, said touchscreen console being provided on the housing. In one embodiment, the system comprises a processor system (400) and other electronic components (410) integrated on one board.
    Figure 2 illustrates the touch screen (500), arranged (1) for providing a first display (in this example slider (510) and basic keys (520)), especially suitable for first (basic) users and (2) for providing, if desired, a second screen (here a combination of the first screen or display of the component (530)) specifically for second (expert) users of one or more of the plurality of devices, the second screen (at activation) at least partially overlaps with parts of the first view. The size of the touchscreen matches the size of a surface of the housing (300). Also in the context of the relatively small dimensions of the housing, the touchscreen with overlapping screens can facilitate intelligent control on demand.
    The invention provides an audio / visual support system by providing a system with all required functions encapsulated in a single housing. Therefore, the invention provides the use of one system for one location while supporting the audio / visual requirements and in particular also controls mechanical actions such as operating shutters from that particular location, controlling steering motors to position a projector in the correct position places at the location.!
    This conscious one housing choice allows for further integration of the console on or in the housing, so preferably the system comprises a touchscreen on or in the housing, as a console. Moreover, even more preferably, the console can be used as a user and expert console (hence only one console is used to control the entire system).
    The above duplicate requirement on the console poses a challenge especially to the software (GUI) that should support this, since a first view (or screen or display) suitable for (inexperienced) user control must be provided, while a more elaborate view (or screen or display), suitable for more expert control should also be made available.
    Preferably the first screen is relatively simple with a number of pre-programmed scenario support buttons, supplemented with a pair of fixed sliders for audio (sound) and light control.
    The second display (or the screen) preferably comprises more detailed sliders for separately tuning different (further) aspects of the audio and / or light control, even more preferably the second display is generated by a predetermined part of the to scroll the first view.
    Of course, the dimensions of the entire system are limited in space (because it must fit tightly at the location that it supports) and, consequently, the integrated touchscreen is also limited in size, which has further technical consequences for the GUI layout. Therefore, in a preferred embodiment, the more detailed sliders, if activated, can overlap with one or more elements (sliders or nodes) of the first display.
    Finally, it should be noted that while the system is integrated into one housing, it does not mean that it is limited in functionality per se. The amount of connectors is of course adapted for single location type support, but in a preferred embodiment, for example, direct connection of content carriers (such as a USB stick) is also provided.
    The invention relates to an (electronic) system (to be able) for controlling a number of (sound, image (video) and / or mechanical and / or lighting) devices in a location (space), in particular these devices of a different nature in terms of input and / or output signals that are required. In a preferred embodiment, the electronic system is arranged for controlling at least one audio device (i.e. at least generating speaker signals, and possibly also receiving microphone data), a video device (thus at least generating a video signal but optionally also receiving video signals) and another (except so the above audio or visual (video) device) device, such as a mechanical and / or lighting device. Note that in an embodiment of the invention the electronic system is understood to mean the hardware platform with electronic components and (PCB) board to which they are connected and the necessary software or firmware that runs on the programmable components.
    The system described above comprises a housing comprising an electronic subsystem for generating (of all) signals (i.e. at least audio, video and signals suitable for controlling mechanical or lighting devices, such as DMX) for (all) said devices and input / output connections for providing the generated signals to the devices.
    In a preferred embodiment, the system is further adapted to support Bluetooth, Wifi and / or IR (for example used to activate the video console used) wireless communication and also wired network connectivity should be able to support it.
    It is recognized that integration of all such functionality requires special technical considerations if one wants to use as many programmable and available components as possible (instead of specific ASIC) while one has to take into account that each of these functions have considerably different requirements. In an embodiment of the system described in Figures 7 and 8 it comprises a processor suitable for general purposes (such as an ARM platform with an ARM processor and a number of storage means (for example for storing data)), to be used as a central controller, and a digital signal processor (DSP) (under control of the general purpose processor), adapted to handle the (high quality) audio signals. In addition, furthermore, microcontrollers capable of providing (under control of the general purpose processor) the synchronous signals required for controlling mechanical or lighting devices are provided. All these electronic components are integrated on a board. Preferably, the general-purpose processor can also be used in one or more wired or wireless communication. While this universal processor can execute video or multimedia programs and therefore input or output video signals, the quality processing of incoming or outgoing video is further supported by a video switching component, again under general control of the processor. Note that the large arrows between the components (710, 720, 730) and the processor (400) indicate the control signals while the small arrows indicate mono or bi-directional data communication (audio, video, DMX).
    In one embodiment of the invention, the digital signal processor provides the implementation of an audio matrix functionality - hence, any audio input can be routed / routed to any audio output. Said function is realized by programming the digital signal processing via the GUI.
    Note that the asynchronous operation of the GPU (400) in combination with the synchronous signal demand of the elements (220) requires a buffer functionality of the microcontrollers (720).
    In one embodiment of the invention, one of the control buses is an I2C bus and in particular such a bus is selected for communication between the GPU (ARM) and the video component or video switch (730). In one embodiment of the invention, it is the GPU (ARM) that selects whether the data is from the GPU (ARM) or from an external source.
    In one embodiment of the invention, one of the control buses is an SPI bus and in particular such a bus is chosen for the (bidirectional) communication between the GPU (ARM) (example for enabling the GPU of the DSP and reading back) of sound levels from DSP to the GPU for further reproduction on the GUI) and further for communication between the DSP and / or between the GPU (ARM) and microcontrollers.
    In an embodiment of the invention, the bidirectional data (audio) communication (preferably stereo quality) is provided between GPU and DSP to enable the execution of an audio player on the GPU while routing / routing through the DSP of any desired audio output while at the same time recording of audio received via the DSP via the GPU should also be possible.
    In one embodiment of the invention, the communication between GPU and the display, preferably a touch screen, is organized by using an LVDS signal. In a preferred embodiment, a touch sensor is connected to the GPU via an I2C bus on the touch screen to indicate the touch positions.
    In an embodiment of the invention, the front part of the screen is provided with a motion sensor. Such a sensor is used for turning off the display after a predetermined time and for activating when a user comes close to the sensor. This function contributes to reducing energy consumption.
    Thus, in an embodiment of the invention there is generally the electronic subsystem comprising (i) a universal processor system (400), as a central controller, (ii) a digital signal processor (710), under general control of the processor via a first ( SPI) bus adapted or adapted to handle the audio signals and (iii) one or more microcontrollers (720) for generating, under control of the general purpose processor via a second special (SPI) bus (different from said first) special bus), of the synchronous signals (and therefore with buffering power) required for controlling mechanical or lighting devices, (iv) a video switching component (730) under general control of the processor via a third specific (I2C) bus and (v) a touchscreen connected to said via the universal processor system via a fourth specific (LVDS) bus while a touchscreen sensor communicates rt with said universal processor system via a fifth specific (I2C) bus (different from the third bus).
    The use of a system according to the invention ensures that in the room where the system stands at least the audio and / or video needs (hereinafter abbreviated AV) can be easily regulated and placed in 1 total solution.
    In versions of the system, you have direct access to content and complete control over the presentation, all on the same platform. Lighting, video and audio control are integrated and controlled on the same platform, making the system a cost-effective, all-in-one solution. AV needs are easily controlled by having and / or supporting the following: • an interface showing what you really need • wireless presentations • presentation files in internal memory • surfing the web • meetings with a minimum of disruptions • audio and light levels within reach • extensive audio facilities for optimum sound quality • recording: make a recording of your meeting and save time • room planner: plan a meeting on the panel or at your desk • robust design • low energy consumption • remote the system user interface provides a web browser to control your lighting (conventional and / or LED)
    To complete your AV total system, you only need to connect speakers and a monitor to the invented system.
    According to an embodiment of the invention, a touch interface is provided which is adapted such that it only shows what is really needed to operate the invented system.
    The invented touch interface is thus intentionally adapted to limit the information you need during meetings and presentations, and not to distract you from the essence of having an efficient and successful meeting.
    The invented system and / or related touch interface has been designed with the comfort of the presenter in mind. Starting a presentation, a film or music is very easy via the "guided" menu.
    In a further embodiment, the touch interface can be remotely brought to an external device, allowing control from anywhere in the room.
    The system makes it possible for wireless presentations with your favorite laptop, tablet or smartphone.
    Connecting to the screen provided in the meeting room or the projector has become very accessible. A presentation can be shown directly on the screen and the people in the meeting are motivated for active participation.
    To connect to the wireless presentations about the system, no additional hardware is required.
    The device connects to the system using built-in Airplay, Chromecast, Miracast technology. No extra apps are needed.
    Common content presented in a meeting, such as company presentations, documents, photos, graphics ... can be stored in and retrieved from the system's internal memory. Content that is regularly presented - such as company presentations - is immediately accessible.
    The built-in web browser ensures fast searches and information sharing. Click on the browser and go to the desired websites.
    People entering the room - while a meeting is in progress - can be disturbing. To prevent interruptions, a number of activities, such as ordering a drink or a taxi, can be handled / supported by the system. An automated e-mail message to a colleague will ensure the drinks arrive. The focus remains on the meeting and disruptions are minimized.
    Simple control over the sound volume and light levels is required at all times. Two sliders located at the left and right of the touch screen interface can be reached at all times, making moment control possible.
    The system has a built-in audio mixer. Microphones, CD players and other sources can be easily connected.
    Maximum listening experience is enhanced by a powerful DSP processor with multiple equalizer and limitation features. The integrated 2-channel 50 W amplifier completes the audio part. Only speakers must be added to your system to complete. The result is a crystal clear representation of your voice. Via Bluetooth, a wireless headset or telephone connection is provided. The internal music player or internet radio provides background music.
    Don't waste time taking notes, make an audio recording of your meetings. Archive your recordings for later consultation. The system is adapted to support such recordings.
    In a further embodiment of the invention, the system has the option of checking conventional room lighting or selecting the color of the LED lighting with a color wheel.
    The room planner takes care of the planning of the meetings and activities in a simple way. Gmail integration agenda display scheduled meetings everywhere.
    In one embodiment, the system is arranged to close the window covering and to dim lighting automatically during the presentation.
    Extensive automation functions allow the activation of effects on demand.
    The aluminum housing of the system provides robustness with a modern design. The system is designed for desk or wall mounting.
    The energy consumption is greatly reduced due to the system's complete electronic integration into its housing. The system is furthermore designed for working silently.
    According to an exemplary embodiment of the invention, the following technical specifications are found:
    Audio 72 balanced mic / line inputs, + 18dBu 4 balanced line inputs, + 18dBu 6 balanced line outputs, + 18dBu2 amplifier outputs 50W / 4ohm each Audio processing: 6 x 6 audio mix matrix 4-band parametric EQ on each input 4-band parametric equalizer, Xover, limiter on each output recording: 48 kHz / 24 bit
    Video HDMI 1920 x 1080p HD output HDMI input
    Light DMX 512 output 4 general purpose outputs 2 Universal inputs 2 general purpose inputs / outputs switchable Communication
    WiFi 802.11 a / b / g / n 2.4 / 5 GHz MIMO
    Bluetooth 4.0 / BLE 1 Gigabit Ethernet port 1 RS232 (Tx / Rx) port 1 IR output 1 USB host port
    General 10.1 "capacitive, multi-touch display Quad core Cortex A9 processor Proximity sensor
    Ambient light sensor Power: 24Vdc, 6a Max Power: 24 Vdc, 6Amax
    After extensive discussion of the functionality of the invented and related aspects such as the user console and its use and description of some embodiments of the invention, a number of details of the invention can now be further described.
    The system comprises, in addition to other electronic components such as an amplifier and / or components for wireless transmission, a programmable processor, while still a low energy system, realized by integrating all components, including the processor in a single housing, preferably on a board.
    In a preferred embodiment, the system further comprises one or more sensors.
    The processor is arranged for executing one or more computer programs for controlling the other electronic components, signal processing of sensor signals and / or controlling the actions of the user console.
    In an illustrative embodiment of the invention, a quad core ARM SoC Android is selected as the operating system. In a further embodiment of the invention it is worth noting that on top of the standard LINUX part of Android several drivers are provided to control these electronic components (other than the user interface).
    More generally in the invention, one or more processors suitable for mobile systems and / or battery power use were selected.
    In an exemplary embodiment, the system is adapted such that in the rest position the entire processor system consumes 0.5 W while in full execution (HD playback mode) still only 1.5 W.
    In addition to the processor system, the LCD, its lighting, a class D audio amplifier and components for realizing analog audio inputs and outputs and other I / O are provided in the system. One or more of these subsystems can be turned off to realize the low energy consumption.
    In an illustrative embodiment, the relative position of the electronic components such as amplifiers, processors is optimized because interference is minimized, in particular, the amplifier and / or switched power supply may not interfere with the analog part of the system.
    In an exemplary embodiment, the total system requires on average less than 20 W.
    In the system, a single power supply component for supplying energy to all said subsystems was provided, which in turn contributes to the low energy consumption required.
    Furthermore, as a result of the integration into a single housing, no further off-board communication channels are required for which energy consumption would have been necessary.
    In an illustrative embodiment, the system does not require a fan.
    In one embodiment of the invention, the housing has a width B, height H and the thickness D defined as follows: B 272 mm x H 177 mm x D 58 mm D.
    In an embodiment of the invention, the touchscreen surface has a width B, height H axis follows: W 223 mm x H 125 mm.
    Almost all buttons realized on the touchscreen have a minimum size of 20 x20 mm.
    Almost all sliders realized on the touchscreen have a minimum size of 70 mm in width and a height of at most the touchscreen surface height of 125 mm.
    In a first basic view there are at least 3, preferably 6 knots and at least 2 sliders, preferably with the minimum dimensions described above.
    In a second expert view there are at least 3, preferably 6 knots and at least more than 2 sliders, preferably with the minimum dimensions described above.
    The above exemplary embodiment shows that when the at least three buttons are aligned horizontally (and the 6-key embodiment preferably two rows of three buttons are used) in addition to the two sliders, given the distance determined between them, there is no place to provide further sliders with the second view, so that these additional sliders must overlap with one or more of these buttons.
    In an exemplary embodiment, there is a button for starting audio, a button for starting video and a button for controlling light conditions. For the sliders, preferably one is provided for audio (loudness) and one for the lighting conditions (brightness). When activating the additional sliders of the second view for the audio and / or lighting conditions, individual components thereof can be controlled. For the audio, this could for example be related to the number of audio channels supported by the system. Additional buttons may relate to mechanical operations, such as closing the shutters of a location (either all or individually).
    Alternatively, the invention is a system comprising a (programmable) controller to be able to control (simultaneously) a number of devices such as audio, video, data, lighting and / or motor or relay devices, wherein (programmable) control is connected to a touch screen coupled in a communication relationship with the (programmable) controller, and the touch screen are screens and user interface features, the user interface functions being usable for controlling the programmable controller and the multiple devices, said (programmable) controller being configured to store a user interface configuration indicating the user interface characteristics of the touch screen screens, which puts the user interface configuration of the device in a layout that essentially retains the user interface characteristics of these screens as they would be shown to a custom r on said touch screen, wherein the (programmable) controller is realized within a housing suitable for accommodating the touch screen, thus the touch screen is provided with selectable and adjustable functions distributed over several levels in a control hierarchy, the touch screen comprises a further display device for displaying a graphical user interface (GUI), the controller is provided to enable the user to control the devices via the GUI, the GUI providing a respective device for each of the multiple control levels, each respective layout having a respective first area of display in a first graphic representations of functionalities are provided selected at the level involved; and each respective device provides a respective second area of display (or display) of second graphical representations of functions for a selection of functions, wherein in a first device the first and second areas do not overlap while in a second layout the first and second overlapping area.
    Because careful technical considerations have been made in the invented system because the required context (small installation) requires design choices, such as the single housing / one board integration. Furthermore, the same required context requires further design challenges for the graphical user interface, especially when on the small single housing the user console is realized as a touchscreen. Moreover, the required support of such a touchscreen by a programmable processor leads to further requirements for the processor system in the field of energy consumption. Furthermore, the low noise requirement (which requires a fan-free approach) is a further requirement for the entire system in terms of energy consumption, for example the on / off switching functionality. The invention combines all these considerations and challenges for a specific system that can control a number of (audio, visual and / or mechanical and / or light) devices simultaneously. Moreover, the problems addressed in various very different domains such as mechanical (screen on the housing), electronic (selection of components and integration) and computer programs for graphical user interfaces and the programmable processor. Furthermore, the choices in one of these domains influence the choices in the other domain. Remember that the invention provides an audio / visual support system whose system with all required functions is encapsulated in a single housing. Therefore, the invention provides the use of a single system for a single location, supporting the audio / visual requirements thereof.
    A first special use is for halls, but the invention is not limited thereto. On the other hand, it is an aspect of the invention to provide a reusable hardware platform suitable for other contexts through application-level software applications and to ensure that such software modifications are sufficient. As a result, other applications, such as in cafés, restaurants, shops, etc. are also possible. The invention is adapted so that the user has the possibility to control the audio needs, but also the control of DMX controlled lamps and use of the HDMI output are used for digital advertising. In an embodiment of the invention, features suitable for use in a room can be intentionally omitted in the other version. For example the video streaming options and / menu presentations have been omitted. As indicated in the other user versions, additional functionality will be included, such as: (i) more advanced DMX lighting control, which requires more advanced programming techniques in a pub; and / or (ii the ability to start a powerpoint style presentation and run it in the background (for advertising use on a TV / projector in a cafe or restaurant) and / or (iii) the ability to start a video file and let it perform repeat mode (for advertising use on a TV / projector in a cafe or restaurant).
    Advanced DMX light controller
    In a pub situation, the user wants to control his lighting fixtures (as an application) from the AV panel and start / stop 'commands'. These commands are programs that have been programmed by the user / installer to initiate certain movements and / or color changes of the lamps. Below you will find more information about applications that are often used and how they should be checked. All values are displayed between 0-255 (8 bit).
    Common definitions:
    Pan: controls the horizontal position of a moving head.
    Tilt: controls the vertical position of a moving head.
    Color wheel: an internal wheel of a moving head that can be rotated to move a specific color filter in front of the lens.
    Gobo wheel: An internal wheel of a moving head that can be turned to place a specific stencil in front of the lens.
    Shutter: an internal plate that closes the light output of a moving head.
    Dimmer: can dim the light output of the fixture.
    DMX
    In one embodiment of the invented controller, one can set for each of the 16 devices whether to be intelligent or a general dimmer. If it is intelligent, we can assign channels that the customer finds in the fixture datasheet to corresponding function. Some have a lot of functions, some will only have pan / tilt / dim. For functions that the device does not have, we set the channel to 'none'.
    If it is a dimmer, we only have 8 dimmer channels available that we can rename for ease of use. intelligent fixture
    Moving lights are the most complex object. For example, when 4 luminaires are used, each device is set to its own start address. For example, if the device has 20 channels, the first DMX address becomes 1, the second 21, the third 41, and the fourth at 61.
    All "moving head" type luminaires have the same controls, but depending on the type they can have 1 or 2 color wheels, 1 or 2 gobo wheels, some have a DMX channel to turn the gobo itself.
    Generic dimmer fixture
    When we use the luminaire type 'dimmer', the lighting controller is actually informed that this luminaire is a multi-channel dimmer.
    Basic Operation
    Since there is no standard way of controlling an intelligent light, an important function for the light controller is to consolidate the different ways in which the hundreds of types of intelligent lighting are controlled in an abstract interface for the user. By integrating knowledge of different devices and their properties into the light controller, the details of how a feature such as pan or tilt is controlled for a particular device can be hidden from the user. This frees the operator to think in terms of what they want to achieve (for example, pan 30 degrees clockwise) rather than how it is achieved for a particular device (e.g., sending value 137 down channel 23). In a certain assignment, not the actual DMX channel is stored, but the functions of the selected luminaires with its value are stored.
    First step - setting up luminaires
    Before the user can start to use and program the light controller, the user must do the set-up of the lamps that will be checked. This is because the light usually needs to know, for example in a case of a 'moving head' armature, which channels are assigned to the pan / tilt / gobo / roller shutter etc.
    In programming mode this is done by pressing the 'edit program' button and set your fixture functions and start address.
    Second step - program the commands
    After the luminaires that the user to use have been set, he can start programming the commands.
    In the program mode and with 'edit COMMAND' selected, he can press a specific command button, which brings him to the 'edit COMMAND' window of that corresponding COMMAND.
    Example: he selects devices 1, 2, 3 and 4 simultaneously and moves their bundle to a specific location using the pan / tilt control. He then sets 'step 2' to ON and emphasizes the step 2 selection button. He then deselects devices 1 and 3 and in this way he can move fixture 2 and 4 to another position using the pan / tilt settings. When the sequence is executed, the sequences go from step to step with an interval. The sequences continue to run, so steps 1.2, 1.2. THIRD STEP - set effect generator presets if needed
    Now COMMAND 1 has saved something and we are back in the main window. We can press the 'JOB 1' button to make it run. Now we can also add an effect generator. In program mode, press the edit FX gen button. If we then press 'FX 1', we will go to the effects generator preset window. Here we can run a circle function left or right, select a number eight or linear. The size / speed etc can also be selected. This pan / tilt effects generator will run above all and adds its values with the pan / tilt values at a time in time. EDIT ASSIGNMENT in detail
    What is stored in an ORDER In short, all settings for each step and all functions values of the chosen device of each step.
    Example:
    Step 1: Luminaire 1,2, 3, 4 selected.
    Step 2: Luminaire 1, 3 is selected (user only wants to change functions of device 1, 3 and leave 2, 4 as in the previous step)
    Step 3: Confirmation 2, 4 are selected (user only wants to change the functions of the fixture 2, 4 and leave 1, 3 as they were in the previous step)
    The result is that all fixture settings fixture 1,2, 3, 4 are stored in the JOB! EFFECTS GENERATOR in detail
    In an embodiment of the invention, a separate effects generator is used, which technically consists of two 16-bit waveform generators, which, if synchronously, creates a certain pattern on the selected device.
    Sine generator 1 MSB is assigned to PAN, the LSB is assigned to PAN FINE Sine generator 2 MSB is assigned to tilt, the LSB is assigned to tilt FINE
    Circle ^: Pan sine, Tilt cosine Circle ^: Pan Cosine, Tilt sine Linear: Pan linear, Tilt linear Number eight: Pan linear, Tilt sine
    The speed knob controls both waveform generators simultaneously, but two buttons are set to the size of each waveform generator between 0 and max.
    Offset: 'none' means that all selected fixtures have 0 degrees of phase difference. "Per fixture" means that - if you selected 4 fixtures, then each device has a 90 degree phase difference.
    In one embodiment of the invention, this waveform generator is kept running in the background so that switching between one of the 6 keys only changes the value of the waveforms. In this way there is a smooth transition when choosing another 'preset' keys. The OFF button can cause the waveform generator to stop completely.
    Main Press window list button in detail
    What about switching between commands and effect generator preselection buttons CUE buttons: COMMAND buttons switching between COMMANDS are deemed to have been placed in a specific COMMAND group. (This is set for each JOB in the JOB Edit window);
    For example: you have set JOB 1.2, 3 to JOB group 1 and your JOB 4, 5, 6 are set to JOB group 2. Now you can switch between JOB 1.2, 3. JOB 4, 5, 6 are in another COMMAND group so that they can be separately switched between them.
    Example 2: you have set JOB 1.2, 3 to JOB group 1. JOB 1.2 are set to 'toggle mode' and JOB 3 is set to 'flash'. When JOB 2 is active and you press JOB 3, the JOB 3 will run as long as you press it and when you release the button it will run back to the last JOB in this group (JOB 2).
    Effects generator buttons: These switch between the six buttons
    EDITING APPLICATIONS / LUMINAIRES / LIGHTING DEVICES IN DETAIL
    If we want to set up the applications, we must first choose which type (intelligent or dimmer) it is.
    If intelligent, we can change the channel for every function of applications. As dimmer Type: One will only show a 'dimmer' tab with eight dimmer scroll wheels that you can rename.
    For each application you must set the starting address. This is done for ease of use. The datasheet of the application says that PAN is 1 l, TILT is ch 2 etc. When you send the start address to 101, the PAN value will be DMX channel slot 101 and TILT on DMX channel slot 102
    As described above, the applications for lamp control and / or use of an output used for digital advertising or signaling are also a challenge in particular to the software (GUI) to support it. Again, the GUI must support different views, such as the Live View mode and / or program mode. Between those one must be able to switch easily. In the program mode, other points of view can be worked out, such as various editing modes. The GUI views have a few fixed sliders for audio and light control in common. A special embodiment of the GUI is arranged for processing (use (in live mode), editing (in one or more of the application's views) programs programmed by the user / installer for specific movements and / or color changes. In a further embodiment, so-called effects generator are also provided consisting of those two waveform generators that can be used to make a certain pattern with the selected application (fixtures) .These effect generators can also be programmed and edited. further embodiment (to be combined with the other embodiments) one can program, edit or adjust the features of adapted or intelligent lamps provided.
    In summary, the invention provides a system (capable of) / controlling a number (audio, visual and / or mechanical and / or light) devices in a location, the system comprising / comprising (1) a housing comprising an electronic subsystem (controller) for generating (all) control signals for (all) said devices and input / output connections for providing the generated control signals to said devices; and (2) a touchscreen console (in connection with said electronic subsystem), (only) used (and therefore not for recording other visual information) for (and as the only physical way) (so no extra buttons are present, in one version) a further external access is provided via web browser) control of the activities of said electronic subsystem; whereby this touchscreen console is provided on the housing.
    权利要求:
    Claims (15)
    [1]
    A system for controlling a number of devices in a location, at least one of the devices being an audio device (200), at least one of the devices being a video device (210) and at least one of the devices is a device other than an audio or video device (220), such as a mechanical and / or lighting device, which system comprises (1) a housing (300) comprising (a) an electronic subsystem (310) for generating control signals for (all) said devices and (b) suitable input / output connections (320) for providing the generated control signals to said devices; and (2) a touchscreen console (330) in communication with said electronic subsystem for controlling the operation of said electronic subsystem; whereby this touchscreen console is provided on the housing.
    [2]
    The system of claim 1, wherein said electronic subsystem comprises (i) a universal processor system (400), as a central controller, (ii) a digital signal processor (710), under the control of this universal general purpose processor, adapted for handling of the audio signals and (iii) one or more microcontrollers (720), for generating, under the control of the universal general purpose processor, the synchronous signals required for controlling mechanical or lighting devices.
    [3]
    The system of claim 2, wherein said digital signal processor is capable of performing an audio matrix functionality.
    [4]
    The system of claim 2, wherein said electronic subsystem further comprises a video switching component (730) under control of the universal general purpose processor.
    [5]
    The system of claims 2 and 4, wherein the digital signal processor (710) under control of the universal general-purpose processor via a first special bus, the one or more microcontrollers (720) under control of the universal general-purpose processor via a second special bus (different from the first bus), said video switching component (730) under control of the universal general purpose processor via a third special bus (different from the first and second bus) and said touchscreen is connected to the universal processor system via a fourth specific bus (other than the other buses) while the touchscreen sensor communicates with said universal processor system via a fifth special bus (which differs from the other buses).
    [6]
    A system according to any one of the preceding claims, wherein the touchscreen is configured (1) to provide a first display specific to first (basic) users and (2) to provide a second display specific to the second (expert) if desired. users of one or more of the multitude of devices.
    [7]
    The system of claim 6, wherein the second display / screen (upon activation) at least partially overlaps with the first display / screen.
    [8]
    A system according to any one of the preceding claims, wherein the touchscreen is configured (1) to provide a first display intended for a user to select programs and / or effects for at least one lighting device and (2) to provide on demand from a second display / screen dedicated to creating or modifying by a user such programs and / or effects.
    [9]
    A system according to any one of the preceding claims, wherein the total energy consumption is limited to 20 watts.
    [10]
    A system according to any one of the preceding claims, wherein the system comprises a processor system (400) and other electronic components (710, 720, 730) integrated on a board, the ratio of the energy consumption of the processor system to total energy consumption being less then 0.2.
    [11]
    The system of claim 10, wherein the system is adapted to switch off one or more of said other electronic components.
    [12]
    The system of claim 10, wherein the 2D location of the electronic components is selected to minimize interference.
    [13]
    The system of claim 1, wherein the housing comprises input / output terminals for providing the generated control signals to devices, wherein the housing is mounted on a support and wherein a plurality of said input / output terminals are provided on the side of the housing aimed at the carrier.
    [14]
    The system of claim 13, wherein at least two of the plurality of input / output terminals are superposed on top of each other in the direction of the depth of the housing (and the housing is locally adapted thereto).
    [15]
    A computer program product comprising computer readable code which, when executed on a system according to any one of the preceding claims, supports a graphical user interface on the touchscreen of the system.
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    EP15151420.5|2015-01-16|
    EP15151420|2015-01-16|
    EP15163268|2015-04-10|
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