• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a system or method which uses a viewing direction-coupled sensor 1. The viewing direction-coupled sensor 1 enables a user to individually detect and identify the subscribers 3, 4 of a lighting system 2 by directing his or her view of the subscriber 3, 4 to be detected. The viewing direction-coupled sensor 1 then detects the subscriber 3, 4 and wirelessly reads an identification of the detected subscriber 3, 4. The user can then automatically operating parameters and possible input commands for the identified participants 3, 4 are displayed. The input commands include instructions for manipulating and / or configuring the identified subscriber 3, 4 via an input device 6.
    公开号:AT15403U1
    申请号:TGM9020/2013U
    申请日:2013-12-19
    公开日:2017-08-15
    发明作者:Prior Simon
    申请人:Tridonic Gmbh & Co Kg;
    IPC主号:
    专利说明:

    description
    SYSTEM AND METHOD FOR SELECTION OF PARTICIPANTS OF A LIGHTING SYSTEM
    The present invention relates to a system and a method for selecting and identifying participants of a lighting system, in particular of an operating device and / or a lighting device of the lighting system. In particular, the system and method of the present invention is based on the use of a view-direction coupled sensor.
    Different approaches are known from the prior art to select participants of a lighting system. The participants of a lighting system are, for example, operating devices or lighting. If necessary, such participants must be individually selected and controlled for installation, maintenance or configuration.
    Bulbs of FL lamps are typically taken out. In addition, lamps are also known from the prior art, which generate and reproduce an identification code by a modulation of their illumination spectrum, which can be read by an optical sensor, for example, to identify a lamp.
    However, these previously known approaches are too complicated and time consuming, especially if they have to be applied for a large number of participants of a lighting system, for example in an office building. In addition, at least some of the participants in a lighting system are usually placed on high ceilings or in otherwise hard to reach places, so it can be difficult to directly access particular users to configure them.
    Furthermore, the above-mentioned reproduction of an identification code by the modulation of the illumination spectrum of, for example, the lighting means of a lighting system control technology consuming as soon as a large number of light sources is present. In addition, a special control system must be used. The approach is not easy to implement for conventional lamps.
    The present invention proposes a system and a method which has the object to eliminate or at least alleviate the above-mentioned disadvantages of the prior art. In particular, it is the object of the present invention to enable a simplified selection and identification of subscribers of a lighting system and to simplify the manipulation and / or configuration of a plurality of subscribers.
    The present invention solves the above objects by means of a system and a method according to the appended independent claims. The dependent claims further advantageously form the core idea of the invention.
    More particularly, the present invention relates to a system for selecting subscribers of a lighting system, comprising an illumination system including at least one subscriber, for example an operating device and / or a lighting means, a viewing direction coupled sensor for detecting a subscriber, the viewing direction coupled sensor thereto is configured to wirelessly read an identification of the detected participant.
    The viewing direction coupled sensor includes, for example, a visual sensor, IR sensor or other suitable sensor with directivity, wherein the sensor is coupled to the viewing direction of a user or can be coupled. For this purpose, the sensor can be installed, for example, in a suitable device, such as a pair of glasses or a helmet, so that it is always aligned according to the viewing direction of the user. The user of the system can now capture and thus select and simultaneously identify this participant by directing his gaze to a participant in the lighting system. Through this quick and easy selection and identification process, it is possible in a short time to select a multiplicity of subscribers one after the other and to configure these, for example. This considerably simplifies, for example, the installation or maintenance of lighting systems in buildings, since in particular hard to reach participants can be easily selected.
    By wireless readout of the identification, the user receives the required information for configuring and / or manipulating the detected participant in a simple manner. The identification can either be read out directly from the detected participant, for example via RFID, or from a marking, for example a number, character, or bar code, on the participant, which lies in the perspective of the user or the viewing direction-coupled sensor. Alternatively, the identification based on the visual or other features of the detected participant (in particular its position / coordinates in space, its arrangement in the lighting system, its shape, size or other characteristic features) can be read via a wireless network, for example by a server. For this purpose, a plan of all participants of the lighting system can be stored on a server.
    Advantageously, the at least one subscriber is provided with a 1D or 2D bar code, and the viewing direction coupled sensor is adapted to read the bar code.
    In the barcode a variety of information and parameters can be encoded, which are available to the user quickly and easily (only by directing his gaze to a participant). For example, an identification of the subscriber, a control number and / or configuration parameters can be coded.
    Advantageously, the viewing direction coupled sensor is a visual sensor or an IR sensor.
    Advantageously, the system further comprises an input device for displaying information and for inputting commands for manipulating and / or configuring the identified user.
    The user of the system can get the identification of the subscriber automatically displayed on the input device and based on wireless or wired transmit the commands to the detected participants.
    Advantageously, the input device has at least one touch-sensitive screen.
    In this case, the user can detect and select a subscriber by directing his gaze to the lighting system. This can be realized for example by glasses or a helmet or a helmet camera of the user. The touch-sensitive screen, such as a tablet computer, displays the identification of the detected party and possible commands and control options. The user can easily enter commands with both hands.
    Advantageously, the input device is wirelessly connected to the touch-coupled sensor.
    Alternatively, the input device is integrated with the viewing direction coupled sensor in a device and connected.
    Advantageously, the viewing direction coupled sensor is integrated into a pair of glasses, the glasses are designed to represent the input device to a user as augmented reality, and the input device can be operated by a gesture control of the user.
    This embodiment allows the user a particularly simple and fast selection and configuration or operation of participants of a lighting system.
    Advantageously, the system further comprises a controller for receiving the instructions for manipulating and / or configuring the identified subscriber from the input device and for controlling the detected subscriber based on the received commands.
    Advantageously, the control device is wirelessly and / or wired to the lighting system, for example via a DALI bus, connected.
    Advantageously, the control device is wirelessly connected via a WLAN network or via Bluetooth with the input device.
    Advantageously, the instructions for manipulating and / or configuring include: instructions for allocating a logical address, for example a manufacturer address, to the identified subscriber or instructions for performing maintenance operations of the identified subscriber.
    Advantageously, operating parameters are automatically received and displayed by the input device for an identified subscriber.
    The user can thus react quickly to possible deviations of the operating parameters.
    Advantageously, the operating parameters include the operating period of a lamp and / or temperatures of a control gear.
    The present invention further relates to a method for selecting subscribers of a lighting system, comprising the steps of detecting at least one participant of a lighting system, for example an operating device and / or a lighting means, by means of a viewing direction coupled sensor, and wirelessly reading an identification of the detected Participant through the direction of view coupled sensor.
    The method can be carried out by the system according to the invention. The method allows the same advantages as described for the system.
    The present invention will now be described in more detail with reference to the attached figures.
    Fig. 1 shows an overview of the basic idea of the present invention.
    Fig. 2 shows a schematic view of a system of the present invention.
    Fig. 3 shows a schematic view of a system of the present invention.
    Figs. 4-7 show application examples of the present invention.
    Fig. 1 clearly shows the basic idea of the present invention. The idea is based on a provided system and a correspondingly executed procedure.
    The system of the present invention comprises a viewing direction-coupled sensor 1, with which at least one participant 3, 4 of a lighting system 2 can be detected and thus selected. The viewing direction-coupled sensor 1 is, for example, a camera, a visual sensor, an IR sensor, or another sensor with directivity. The sensor 1 is designed so that it is connected to the viewing direction of a user or can be coupled. For example, the sensor 1 may be coupled to the viewing direction of a human user by being integrated into a pair of glasses (such as shown in FIG. 1, for example, glasses similar to the project "Google Glass"), a helmet camera, or similar device. which the user preferably wears on his head.
    The viewing direction-coupled sensor 1 is suitable for detecting a participant 3, 4 of the illumination system 2. In addition, the viewing direction-coupled sensor 1 is designed to wirelessly obtain an identification of the detected subscriber. By way of example, the viewing direction-coupled sensor 1 can read out a 1D or 2D barcode 5 which is assigned to a detected subscriber 3, 4 of the illumination system 2. However, the viewing direction-coupled sensor 1 can also detect and identify a detected participant 3, 4 of an illumination system 2 on the basis of its shape, size, position in space or arrangement in the illumination system. For this purpose, the viewing direction-coupled sensor 1, for example, wirelessly via a network 9 necessary for identification information, such as its current location, the surrounding area and / or all installed participants 3, 4 of a lighting systems 2 and 3.4 all participants in the environment Sensors 1 received.
    The lighting system 2 can be controlled, manipulated and / or configured via a control device 7. The commands for controlling the illumination system 2, in particular for manipulating and / or configuring the detected participant 3, 4, can be input by the user via an input device 6. The input device 6 is advantageously wirelessly connected to the viewing direction coupled sensor 1, but can also be firmly connected to this or even integrated into a device.
    For example, the input device can be represented virtually as an augmented reality, as indicated in FIG. 1, on the spectacle lenses of a pair of spectacles containing the viewing direction-coupled sensor 1. This virtual input device can be superimposed on the reality that the user perceives through the lenses. Instructions for manipulating and / or configuring the detected subscriber 3, 4 can be determined, for example, by a gesture control of the user and transmitted wirelessly via a network 9 to the control device 7 in order to control the identified subscriber 3, 4.
    The user of a system of the present invention can thus only by judging his view of a participant 3, 4 of the lighting system 2, this participant 3, 4 capture, so select, and wirelessly read an identification of the participant 3, 4.
    Fig. 2 shows a schematic representation of a system of the present invention. The system comprises an illumination system 2, which has at least one participant 3, 4. A participant 2, 4 is e.g. a lighting means 3 or an operating device 4. The lighting system 2 may include a plurality of subscribers 3, 4, wherein, for example, each operating device 4 is assigned a lighting means 3 and connected thereto. However, it is also possible to operate a plurality of lighting means 3 by a control device 4. The illumination system 2 is advantageously connected via an interface to a control device 7. The interface can be wired or wireless. For example, the control device 7 and the operating device 4 are connected via a DALI interface, i. a DALI bus, connected.
    The illumination system 2, or each participant 3, 4 of the illumination system 2, is advantageously provided with a readable mark 5, such as a bar code, number code, or most preferably a 1D or 2D bar code 5. The bar code 5 can be read out by the viewing direction-coupled sensor 1. The viewing direction-coupled sensor 1 may include means for decrypting the 1D or 2D barcode 5, such as a microprocessor, to independently perform an identification of the detected subscriber 3, 4 from the barcode 5. However, the viewing direction-coupled sensor 1 can also be transmitted wirelessly via a network 9, e.g. to be connected to a server 8 to obtain an identification of the subscriber 3, 4 detected by him based on the read barcode 5.
    The viewing direction-coupled sensor 1 may for example be integrated into a cloud and / or be connected to a server 8 via a WLAN network, mobile radio network, UMTS network, LTE network or Bluetooth network. On the server 8 information regarding all participants 3, 4 of the lighting system 2 can be stored.
    These include features such as shape, size, luminosity, color, position in space, orientation, placement in the lighting system, connected participants or the like. The server 8 is either wired or wirelessly connected to the controller 7, preferably via a TCP / IP interface.
    The viewing direction-coupled sensor 1 is further connected to an input device 6. The connection can be either wired or wireless. However, the viewing direction-coupled sensor 1 and the input device 6 can also be integrated into a single device.
    In one example, the viewing direction coupled sensor 1 is incorporated in a helmet camera of the user. The input device may then be, for example, a tablet computer or other device having at least one touch-sensitive screen. The input device 6 is wirelessly connected to the viewing direction-coupled sensor 1.
    In another example, the input device 6 is a virtual input device that is projected onto eyeglass lenses of a pair of eyeglasses to create an augmented reality for a user. The viewing direction-coupled sensor 1 is also integrated in the glasses in this example.
    A user can via the input device 6 of the system commands for manipulating and / or configuring the lighting system 2, in particular the detected and identified subscriber 3, 4, to the control device 7 transmit, or also directly to the detected participants 3, 4 transmit ,
    The control device 7, based on the received commands, the lighting system 2, in particular the selected participants 3, 4, control. However, a control of the selected participant 3, 4 can also be done directly, as shown for example in Figure 3. In FIG. 3, each subscriber 3, 4 and also the control device 7 are provided with a suitable Bluetooth device in order to communicate with the viewing direction-coupled sensor 1 or the input device 6 via a Bluetooth network 10. In FIG. 3, the input device is shown integrated with the sensor 1 in an apparatus only by way of example.
    Instructions for manipulating and / or configuring may include, for example, the allocation of a logical address, such as a manufacturer address of the operating device. However, even simpler commands such as on / off, brighter / darker etc. can be entered. For different users, the system may also provide various rights regarding the configuration and / or manipulation of the lighting system 2. Then, for example, a user first has to log on to the input device 6 and / or the viewing direction-coupled sensor 1, for example by entering a user identification. The corresponding rights can, for example, be read out wirelessly from a server 8 in accordance with the user identification, or stored locally. For example, different rights can be assigned for service personnel, installation personnel or normal users. For example, a normal user may only transmit on / off and lighter / darker commands, whereas for service personnel, for example, more advanced configurations such as e.g. Commands for performing maintenance operations or allocating logical addresses of the identified subscriber 3, 4 are available.
    Fig. 4 shows an application example of the present invention. FIG. 4 shows that an illumination system 2 is provided with a barcode 5, which can be recognized by directing the viewing direction-coupled sensor 1 onto the barcode 5 and is readable. The input device 6 in the example of FIG. 4 is an augmented reality that is superimposed on the user via a projection goggle in the field of view, for example. The barcode 5 contains, for example, information about an identification number of the lighting system 2, a control number, a password and configuration parameters. Operating parameters, such as the operating period of the associated illuminant, temperatures in a detected operating device 4 or other operating parameters can be automatically displayed in detecting and identifying a subscriber 3, 4 by the viewing direction-coupled sensor 1 in the input device 6.
    As shown in Fig. 5, it may be provided that for the detected participants 3, 4 first an access authorization of the user is queried. Thus, for example, for a subscriber 3, 4 only a certain group of users can gain access, for example
    To read information such as operating parameters and execute configurations. For example, a service personnel and / or installation personnel may gain access for the maintenance and / or configuration of the subscribers 3, 4, while other users may only perform basic operations such as ON / OFF.
    FIG. 6 shows, for example, how basic commands for manipulating and / or configuring the illumination system 2, in particular the detected participant 3, 4, can be input via the input device 6. The commands may e.g. turning on (On), turning off (Off), raising or lowering the brightness of the lighting system 2 (1, 2 or 3, or steplessly as a control slider). The commands may be entered, for example, by gesture control (particularly when augmented reality is used as the input device 6) or via a touch-sensitive screen.
    The entered commands are then transmitted by wire or wireless to the control device 7 of the lighting system 2. The commands can also be first interpreted by a server 8 and passed to the control device 7, whereby it is possible to set the system to different control devices 7. The input device 6 is advantageously provided with an antenna for wireless transmission of commands and for receiving the detection and identification of the subscribers 3, 4 from the viewing direction-coupled sensor 1.
    Fig. 7 shows an example in which different participants 3, 4 of a lighting system 2 are displayed and automatically transmitted and displayed operating parameters for a detected participant or all participants. The operating parameters may include a DALI address, the operating time duration, other parameters such as a temperature in the operating device 4 or the lighting means, an applied voltage or current, or the last maintenance date of at least one subscriber 3, 4. It can also be displayed maintenance information. The above parameters can also be displayed only to a specific user group, for example service personnel.
    Overall, therefore, a user of the system or method according to the invention by a viewing direction coupled sensor 1 simply detect the participants 3, 4 of a lighting system 2 individually and identify by merely looking at the respective participants 3, 4 directed. Thereafter, the user is optionally automatically presented with operating parameters and possible input commands for the identified subscriber 3, 4, on the basis of which the user can then transmit commands for manipulating and / or configuring the identified subscriber 3, 4 by an input device 6 wirelessly to a control device 7. Various wireless networks can be used for the wireless connection. In principle, a wired communication between the viewing direction-coupled sensor 1 and a control device 7 for the lighting system 2 is also conceivable. For the user, with the system according to the invention, it is easy to select the desired subscribers 3, 4 from a multiplicity of subscribers, for example in an office building, even if the subscribers 3, 4 are installed unfavorably and are therefore difficult to reach. Maintenance or control of the participants 3, 4 of the lighting system is thereby considerably simplified. This achieves a significant improvement with respect to the known state of the art.
    权利要求:
    Claims (12)
    [1]
    claims
    A system for selecting subscribers of a lighting system (2) comprising an illumination system (2) comprising at least one subscriber (3, 4), for example an operating device (4) and / or a light source (3), a viewing direction-coupled sensor (1), for detecting the at least one subscriber (3, 4), wherein the viewing direction coupled sensor (1) is a camera coupled to the viewing direction of a user, which is always aligned according to the viewing direction of the user, wherein the viewing direction coupled sensor (1) adapted to wirelessly read out a visual identification of the detected subscriber (3, 4), the system further comprising an input device (6) for displaying information and for inputting commands for manipulating and / or configuring the identified subscriber (3, 4 ), which is integrated and connected to the viewing direction-coupled sensor (1) in a pair of glasses, wherein the glasses are adapted to the input device (6) to represent a user as augmented reality.
    [2]
    2. System according to claim 1, wherein the at least one participant (3, 4) with a 1D or 2D bar code (5) is provided, and the viewing direction coupled sensor (1) is adapted to read the bar code (5).
    [3]
    3. System according to one of claims 1 or 2, wherein the viewing direction coupled sensor (1) is a visual sensor or an IR sensor.
    [4]
    A system according to claim 1, wherein the input device (6) comprises at least one touch-sensitive screen.
    [5]
    The system according to claim 4, wherein the input device (6) is wirelessly connected to the viewing direction coupled sensor (1), wherein the input device (6) is adapted to evaluate a gesture control of the user for operation.
    [6]
    A system according to any one of claims 1 to 5, further comprising a control device (7) for receiving the commands for manipulating and / or configuring the identified subscriber (3, 4) from the input device (6) and for controlling the detected subscriber ( 3, 4) based on the received commands.
    [7]
    7. System according to claim 6, wherein the control device (7) wirelessly and / or wired to the lighting system (2), for example via a DALI bus connected.
    [8]
    8. System according to claim 6 or 7, wherein the control device (7) is wirelessly connected via a WLAN network (9) or via Bluetooth (10) to the input device (6).
    [9]
    The system of any one of claims 1 to 8, wherein the instructions for manipulating and / or configuring include: instructions for allocating a logical address, such as a manufacturer address, to the identified subscriber (3, 4) or instructions for performing maintenance operations of the identified one Participant (3, 4).
    [10]
    10. System according to one of claims 1 to 9, wherein for an identified participant (3, 4) automatically receive operating parameters from the input device (6) and displayed.
    [11]
    11. The system according to claim 10, wherein the operating parameters include the operating period of a light source (3) and / or temperatures of a control gear (4).
    [12]
    12. Method for selecting subscribers of a lighting system (2), comprising the steps of detecting at least one subscriber (3, 4) of a lighting system, for example an operating device (4) and / or a lighting device (3), by means of a direction-of-view sensor ( 1), wherein the viewing direction-coupled sensor (1) is a camera coupled to the viewing direction of a user, which is always aligned according to the viewing direction of the user, wireless reading a visual identification of the detected participant (3, 4) by the viewing direction coupled sensor (1) Presenting information by means of an input device (6) for displaying information and for inputting commands for manipulating and / or configuring the identified participant (3, 4) which is integrated and connected to the viewing direction-coupled sensor (1) in a pair of spectacles, the glasses being the input device (6) to a user as augmented reality represents.
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    同族专利:
    公开号 | 公开日
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    WO2014094011A2|2014-06-26|
    CN104871644B|2017-05-03|
    DE102012224147A1|2014-06-26|
    EP2936937A2|2015-10-28|
    WO2014094011A3|2014-08-28|
    EP2936937B1|2020-03-18|
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    法律状态:
    2020-08-15| MM01| Lapse because of not paying annual fees|Effective date: 20191231 |
    优先权:
    申请号 | 申请日 | 专利标题
    DE102012224147.7A|DE102012224147A1|2012-12-21|2012-12-21|System and method for selecting subscribers of a lighting system|
    PCT/AT2013/000205|WO2014094011A2|2012-12-21|2013-12-19|System and method for selecting participants of a lighting system|
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