• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
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  • 优先权
    • 专利摘要:
    An illumination system (1) has an operating device (2) which contains a camera unit (23) for detecting the environment of the operating device (2) as a moving image. In addition, the operating device (2) includes a display device (21) on which the moving image is displayed in real time. Furthermore, it comprises a position detection device (22), which determines position information of the operating device (2). In addition, the operating device (2) comprises a display overlay device (24), which, based on environmental information and the determined position information, inserts visual illumination information in a largely correct perspective into the displayed moving image. Furthermore, the invention comprises a corresponding method for interaction with a lighting system (1).
    公开号:AT14791U1
    申请号:TGM392/2014U
    申请日:2014-11-10
    公开日:2016-06-15
    发明作者:Gregor Mayr
    申请人:Zumtobel Lighting Gmbh;
    IPC主号:
    专利说明:

    description
    AUGMENTED REALITY-BASED LIGHTING SYSTEM AND METHOD
    The invention relates to a lighting system and method for interacting with a lighting system utilizing augmented reactivity.
    For visualization of a not yet established Beieuchtungssystems traditionally drawings or 3D-Modeiie, bei by a Beieuchtungspianer ersteiit used. For this purpose, however, it is necessary to perform a precise measurement of the corresponding premises and in a time-consuming process, a 3D-Modeii the space with built-up Beieuchtungssystem erstiien. The disadvantage of this is that a significant amount of time passes between the emergence of a lighting idea and its visualization, and, moreover, a considerable processing effort is necessary.
    Patent Application GB 2494697 A shows a system and method which use augmented reality to place furniture in a camera-housed space. Shown there is however iedigiich the positioning of a sofa. In particular, there is no arrangement of objects interacting with the spatial illumination such as e.g. Lights shown.
    The invention is based on the object to provide a lighting system and a method for interacting with a Beieuchtungssystem which allow with little time and great Fiexibiiität a Pianung the Beieuchtungssystems.
    The object is achieved geiöst for the device by the features of independent claim 1 and for the method by the features of independent claim 11. Advantageous disclosures are the subject of the dependent claims.
    E in the invention Beuguchtungssystem here has an operating device which includes a camera unit for detecting the environment of the operating device as a moving image. In addition, the HMI device includes a display device on which the moving image is displayed in real time. Furthermore, it comprises a position detection device which detects position information of the operating device. The position information preferably includes a position and an orientation of the HMI device. In addition, the operating device comprises a display overlay device which, based on environmental information and the determined position information, insert visual information into the displayed motion document largely in perspective, and display it in the middle of the display device. Thus, an idea of lighting can be visualized without time delay and without significant processing time.
    The Beieuchtungsinformationen are at least one virtueiie lamp (3), a Beieuchtungs- and / or Abstrahicharakteristik or other effects of Beieuchtung and / or an indication of energy consumption (36) of a virtueiien lamp (3) or by the display device (21 ) detected light (30, 31, 51, 52, 53), additional information (34, 36, 41) of a lamp (3, 30, 31, 51, 52, 53), a Bedieneiement (35) for operating and controlling a lamp (3, 30, 31, 51, 52, 53), or information relating to a defective lamp (3, 30, 31, 51, 52, 53). Thus, the Beieuchtungssystem can be very fiexibei gepied and controlled.
    The environment information preferably includes a spatial geometry of a room in which the operating device is located. Additionally or alternatively, the display overlay device is designed to warn or receive the environmental information from a database, or to diagnose it based on the motion biobe and / or sensor information of a sensor device. This means that the luminaire inserted into the motion picture can be adapted very precisely to the geometry of the room. A very reaiisti-Abbiid is thus created.
    Preferably, the display overlay device is designed to simulate a lighting of the environment of the HMI device, preferably by the at least one lamp, as lighting information and in perspective largely correctly inserted into the displayed moving image. In this case, as the illumination information, a brightness and / or light color and / or emission characteristic of the illumination can be set by a user. Thus, the effects of the inserted luminaire on the lighting situation of the room can be estimated before mounting the luminaire. Time-consuming and resource-intensive renovation work after a faulty decision in the design process can thus be avoided.
    Preferably, the lighting system comprises at least one lamp. The camera unit is designed to detect and recognize the at least one light on the detected moving image. So it is possible to interact with the detected light by means of the HMI device. A very simple operation of the lighting system can be achieved.
    Preferably, the display overlay device is designed to insert additional information regarding the at least one virtual light detected light as lighting information in an area of at least one lamp in the moving image. The additional information may be assembly instructions and / or technical data and / or operating information. Thus, a very accurate and sound operation of the lighting system can be done.
    Preferably, the lighting system further has a control unit. In this case, the display superimposition device is designed to insert at least one operating element assigned to the at least one luminaire into the moving image as illumination information in an area of the at least one luminaire. The operating device is designed to detect an operation of the displayed operating element and to transmit to the control unit. In this case, the control unit is designed to control the at least one light of the lighting system based on the operation transmitted by the operating device. The operation may include switching and / or dimming and / or changing a color temperature and / or changing an illumination color of the luminaire. Also, an input of complex control processes such. a dimming process via the HMI device is conceivable. This makes it very easy to interact with the lighting system.
    Preferably, the display overlay device is further configured to simulate after detection of the operation of the displayed control element, effects of operation as lighting information on a current lighting or virtual light of an area represented by the moving image and to insert in perspective largely largely correct in the displayed moving image. Additionally or alternatively, in this case, the display superimposition device is designed to estimate a power consumption of the luminaire after performing the operation and to insert it into the moving image as illumination information in an area of the at least one luminaire. The operating device is designed to transmit the operation to the control unit only after a renewed confirmation of the operation. Thus, it is possible for users to judge the consequences of the input operation before actually controlling the lights of the lighting system.
    Preferably, the camera unit has a fault detection device, which is designed to detect on the basis of the moving image, defects in the at least one luminaire of the illumination system and / or defects in components in the at least one luminaire of the illumination system. The display overlay device is then designed to provide information about the defect and / or a list of replacement parts needed for repair of the defect in a region of the defective luminaire and / or the defective component, and / or instructions for carrying out a repair of the defect as illumination information in the window insert the displayed moving picture. Thus, a user can be meaningfully supported in the detection and correction of the defect.
    Preferably, the error detection means is adapted to the defects on the basis of limited light intensity and / or flickering and / or faulty light color of the lamp and / or based on flashing patterns of the lamp and / or based on flashing patterns of built-in light status LEDs detect. This ensures automatic detection of the defects. A particularly simple operation and repair by the user is possible.
    An inventive method for interacting with an illumination system, which includes an operating device, includes the following steps: detecting an environment of the HMI device as a moving image, displaying the moving image in real time by means of the HMI device, determining position information of the HMI device and perspective largely correct insertion visual Illumination information in the displayed moving image based on motion information and position information. This ensures a particularly simple planning of the lighting system.
    The invention will be described by way of example with reference to the drawing, in which an advantageous embodiment of the invention is shown. In the drawing: FIG. 1 shows a first embodiment of the illumination system according to the invention in a three-dimensional view; FIG. FIG. 2 shows a second exemplary embodiment of the illumination system according to the invention in a block diagram; FIG. FIG. 3 shows a third embodiment of the illumination system according to the invention in a three-dimensional view; FIG. FIG. 4 shows a fourth exemplary embodiment of the illumination system according to the invention in a three-dimensional view; FIG. 5 shows a fifth embodiment of the illumination system according to the invention in a block diagram; FIG. 6 shows a sixth exemplary embodiment of the lighting system according to the invention in a block diagram; FIG. 7 shows a detail of an operating device of a seventh embodiment of the illumination system according to the invention in a block diagram; Fig. 8 shows a first embodiment of the method according to the invention in one
    Flow chart; 9 shows a second embodiment of the method according to the invention in one
    Flow chart; 10 shows a third embodiment of the method according to the invention in one
    Flowchart, and Fig. 11 shows a fourth embodiment of the method according to the invention in one
    Flow chart.
    First, reference will be made to the structure and operation of different embodiments of the illumination system according to the invention with reference to FIGS. 1-7. Subsequently, reference is made to the detailed operation of various embodiments of the method according to the invention with reference to FIGS. 8-11. Identical elements were z.T. not shown and described repeatedly.
    In Fig. 1, a first embodiment of the illumination system 1 according to the invention is shown. The illumination system 1 here only contains an operating device which has a display device 21. The HMI device may be, for example, a tablet PC or a mobile phone. In addition, the operating device 2 has a camera unit, which is not visible here and is arranged on the rear side of the operating device 2. The HMI device 2 is directed with the camera unit to a room 4, in which currently no lamp is mounted. This situation occurs, for example, in a shell inspection. A pian wants to gain an impression mögiicher lights in the room 4 using the Beieuchtungssystems invention.
    The recorded by the camera unit Bewegtbiid the room 4 is dargesteiit on the display device 21 of the HMI device 2. In addition, the operating device 2 uses a virtueiie luminaire 3 ais visueiie Beieuchtungsinformation to a festiegbare by a user Steiie. In this case, the lamp 3 is inserted in perspective correctly at a fixed position of the space 4 in the dargesteiite from the display device 21 Bewegtbiid. Thus, different luminaires or even several luminaires can be used in combination. The user is thus able to gain an impression of how the room 4 works with the luminaires mounted before installing the luminaires. In addition, it is also possible to simulate a lighting situation generated by the inserted luminaires 3. It is also possible to simulate a dimming process, different light colors, different brightnesses, etc. All of this information may be presented as a visual informational information.
    In order to be able to correctly arrange the luminaire 3 in perspective in the moving image, the operating device 2 uses position information of the operating device, which detects a position detection device not shown here. In addition, the HMI device 2 uses environmental information, for example, including a room geometry of the room 4. The environment information may be the HMI device 2 either in the Zuhiife-taking of the camera unit or additional sensors ermittein or ausge from a database or received via a communication device.
    In order to select a luminaire to be simulated in the room, it is possible to make use of an optional list of luminaires that is optional from the operating unit on the display device 21. Alternatively, the camera unit can scan bar codes or QR codes from existing luminaires or in a kataiog, which are then displayed. It is also conceivable to use an RFiD reader to record the luminaires to be displayed if luminaires have RFiD tags.
    In Fig. 2 is a second Ausführungsbeispiei the Beieuchtungssystems invention 1 dargesteiit in a Biockschaitbiid. Here, iedigiich the internal structure of the HMI device 2 is shown. The operating device 2 comprises a display device 21, a position detection device 22, a camera unit 23, a display superimposition device 24, a control device 25, a database 26 and an operating device 27.
    As described above, the display device 21 represents the moving image recorded by the camera unit 23. The position detection device 22 determines the position information of the HMI device. The display superimposing device 24 generates all the information or displays to be superimposed on the moving image recorded by the camera unit 23. The database 26 optionally stores environmental information and information regarding the visual lighting information, displays and lights to be displayed by the display overlay device 24. These are read from the database 26 as needed. In addition, the operating device 27 serves to operate the operating device 2 by a user. This may be, for example, a touch-sensitive screen.
    The control device 25 is connected to all other components 21-24, 26 and 27. The control device 25 serves to control the remaining components 21 -24, 26 and 27.
    If the function shown in FIG. 1 is to be performed, then the control device 25 controls the camera unit 23 to record a moving image of the space 4 from FIG. The resulting moving picture is transmitted from the controller 25 to the display device 21, which displays the moving picture. At the same time position information is detected by the position detection device 22 and transmitted to the control device 25. The
    Display overlay device 24 now uses this position information to calculate a perspective correct representation of the luminaire 3 from FIG. 1 and to transmit it via the control device 25 to the display device 21. This displays the luminaire 3 as visual illumination information in the moving image. In addition to the position information of the position detection device 22, the display overlay device 24 furthermore uses environment information concerning the space 4. This environment information will be e.g. read out of the database 26. They include e.g. the spatial geometry of the space 4. The environment information can be created with the aid of the moving image of the camera unit 23 of the controller 25 and stored in the database 26. Alternatively, the environment information is determined in advance and stored in the database 26. By means of the operating device 27, various lights or other components of the lighting system can be virtually positioned by a user as visual lighting information at different positions of the space 4.
    In Fig. 3, a third embodiment of the illumination system 1 according to the invention is shown. The lighting system 1 here now includes the control unit 2 and two lights 30, 31. The control unit 2 detects here again a moving image of the room 4 with the lights 30 and 31. In this case, the control unit 2 detects the lights 30, 31 not only, but recognizes they also. The space 4 and the lights 30 and 31 are displayed on the display device 21 of the HMI device. In this case, in order to recognize the lights 30, 31 detected by the camera unit and to assign them to the addressable lights of the lighting system 1, it is possible to access position information of the lights which have been stored for example in a device of the lighting system 1 for the lights. Based on the orientation and position of the HMI device 2 and the known position information of the lights, each detected by the camera unit light can be clearly assigned to a lamp of the lighting system 1. A control of individual luminaires or a grouping of luminaires and joint control of lighting groups is conceivable.
    In addition, here an operating element 35 is shown as visual lighting information in the vicinity of the lamp 31. By means of this control element 35, the lamp 31 can be controlled. The operating element 35 is displayed, for example, when a user selects the luminaire 31 on the display device 21.
    In particular, a light distribution, a color temperature, a dimming curve, or a light mood or an entire lighting situation can be set and simulated via the control element 35. The operations of several lights can be set and the effect on the display device 21 of the HMI device 2 are displayed before the HMI device 2 forwards the corresponding operations to the control unit of a lighting system 1.
    In addition, here additional information 34, 36 are shown to the lights 30, 31 as visual lighting information. To the light 30 additional information 34 is shown. Here is the content of the additional information that the lamp 30 has a defect, namely that the lamp of the lamp 30 is defective. Such a defect is transmitted to the operating device 2 either by a control device, not illustrated here, of the lighting system 1 or independently detected by the operating device 2. The detection of the defect takes place either by a determination of a faulty luminosity, color temperature or by determining a flickering of the lamp or by a targeted emission of a flashing pattern through the lamp or a built-in light status LED, which are detected by the control unit 2. All of these signals are detected by the camera unit of the HMI device 2.
    In addition, defects can also be simulated for training purposes. In this case, e.g. A technician will be notified of a defect in an actual luminaire in order to train its correct repair capabilities.
    With regard to the luminaire 31, the current energy consumption of 60 watts is shown here as additional information 36. If a change in the illumination is controlled by the light 31 with the operating element 35, this operation is either carried out directly, or the effect of the operation is initially only displayed virtually as a simulation on the display device 21. That the changed lighting situation of the room 4 is simulated and inserted in perspective correct in the moving image. In addition, the anticipated energy requirement can be displayed as additional information for the not yet implemented but only simulated new lighting situation. As additional information mounting instructions and / or technical data and / or operating information can continue to be displayed.
    In addition, optimization possibilities with regard to the energy requirement can be displayed as visual illumination information. For example, in a luminaire equipped with an incandescent lamp, it would be possible to automatically display how much energy could be saved by replacing the bulb with an energy-saving lamp.
    A detection of a not yet mounted light as part of the lighting system 1 is possible. In particular, for not yet mounted lights is a display of mounting instructions and / or possibly to be observed distance to walls or other lights or sanitary items relevant.
    4, a fourth embodiment of the illumination system 1 according to the invention is shown. Here, a recording of a lamp 40 by the operating device 2 is shown. Again, a moving image of the light in real time on the display device 21 is shown. The recorded part of the lamp is also shown here by the display device 21. Again, additional information 41 is shown as visual lighting information. For example, a repair instruction and / or a spare part list 41 is shown here for a defective lamp 40. The luminaire 40 may be a mounted or an unassembled luminaire of the lighting system 1.
    In Fig. 5, a fifth embodiment of the illumination system 1 according to the invention is shown in a block diagram. The lighting system 1 here includes an operating device 2, which is connected via a wireless interface with a control unit 50. The control unit 50 is connected in each case wired with lights 51-53. The control unit 50 controls the lights 51 - 53. By means of the control unit operations of the lights 51 - 53, as shown with reference to FIG. 3, performed. In this case, when a light 51-53 is operated, it is input to the operating unit 2 and transmitted to the control unit 50 via the wireless interface. The controller 50 now performs the operation.
    If a simulation of the effect of the desired operation is first to be carried out on the operating device, then the operation is not yet transmitted to the control device 50 after the operation has been selected, but first the simulation and display are carried out. Only after a renewed confirmation of the operation by the user is a transmission to the control unit 50 and a corresponding control of the lights.
    6, a sixth embodiment of the illumination system 1 according to the invention is shown. Here only the internal structure of the HMI device 2 is shown. The operating device 2, which is shown here, largely corresponds to the operating device 2 of FIG. 2. In addition, however, the operating device 2 here has a communication device 28 and a sensor device 29. Here, the communication device 28 is the communication of the HMI device 2 with the control unit 50 of FIG. 5, as shown there. The communication serves to control the luminaires of the illumination system 1. By means of the sensor device 29, the operating device 2 determines the environmental information in the space 4, which are stored in the database 26. Alternatively or additionally, the operating device 2 with the sensor device 29 detects defects in luminaires which can not be detected by the camera unit 23. In particular, the sensor unit 29 may include a color temperature sensor.
    In Fig. 7, a seventh embodiment of the illumination system 1 according to the invention is shown. Here, however, only the internal structure of the camera unit 23 of Fig. 2 and Fig. 6 is shown. The camera unit 23 comprises a camera 23a and an error detection device 23b. The error detection device 23b serves to detect errors in luminaires or components of luminaires. The camera 23a serves to record the moving image.
    FIG. 8 shows a first exemplary embodiment of the method according to the invention in a flow chart. In a first step 100, a moving image of the environment of an HMI device is detected. In a second step 101, the moving image is displayed in real time. In a third step 102, position information of the HMI device is determined. In a concluding fourth step 103, visual illumination information is inserted into the moving image in a largely correct perspective. This is, for example, a virtual light.
    FIG. 9 shows a second exemplary embodiment of the method according to the invention in a flow chart. In a first step 200, a light is detected and detected in the detected moving image. In a second step 201, additional information about the detected luminaire is displayed as visual illumination information by means of the operating device in the region of the respective luminaire.
    In Fig. 10, a third embodiment of the method according to the invention is shown in a flow chart. In a first step 300, a light is detected and detected in the detected moving image. In a second step 301, the detected luminaire is controlled via operating elements which are inserted in the moving image as visual illumination information. Optionally, effects of the operation as visual illumination information on the display device of the operating device can be simulated before the actual lights are controlled.
    In Fig. 11, a fourth embodiment of the method according to the invention is shown in a flow chart. In a first step 400, a light is detected and detected in the detected moving image. In a second step 401, errors of the detected lamp or components of the detected lamp are detected and detected. In a third step 402, in a region of the display device which corresponds to the defective luminaire or defective component of the luminaire, information regarding the type of fault and / or a repair instruction and / or a list of required replacement parts are displayed as visual illumination information.
    The invention is not limited to the illustrated embodiment.
    As already mentioned, a wide variety of lights can be displayed by the display unit of the HMI device and simulated in their function. Also, a plurality of identical or different lights can be controlled by the control unit. All features described above or features shown in the figures can be combined with each other in any advantageous manner within the scope of the invention. Within the scope of the invention, the moving picture is understood to mean the picture captured according to augmented reality, which can also be reproduced as a still picture, ie as a picture in general.
    权利要求:
    Claims (20)
    [1]
    claims
    1. illumination system (1) with an operating device (2), comprising: - a camera unit (23) which is designed to detect an environment (4) of the operating device (2) as a moving image, - a display device (21), which is formed to display the moving image in real time, - a position detection device (22), which is designed to determine position information of the operating device (2), and - a display overlay device (24), which is designed based on environmental information and the position information to insert visual illumination information in perspective substantially largely in the displayed moving image and display by means of the display device.
    [2]
    2. Illumination system (1) according to claim 1, characterized in that the illumination information is at least one virtual light (3), a lighting and / or Abstrahlcharakteristik or other effects of lighting and / or an indication of energy consumption (36) of a virtual Luminaire (3) or a luminaire (30, 31, 51, 52, 53) detected by the display device (21), additional information (34, 36, 41) of a luminaire (3, 30, 31, 51, 52, 53), an operating element (35) for operating and controlling a lamp (3, 30, 31, 51, 52, 53), or information relating to a defective lamp (3, 30, 31, 51, 52, 53).
    [3]
    3. lighting system (1) according to claim 1 or 2, characterized in that the environmental information, a spatial geometry of a room (4) in which the control unit (2) is located, and / or that the display overlay device (24) is formed, in order to read out or receive the environmental information from a database (26) or to determine it from the moving image and / or from sensor information of a sensor device (29).
    [4]
    4. Lighting system (1) according to one of claims 1 to 3, characterized in that the display overlay device (24) is designed to illuminate the environment (4) of the operating device (2), preferably by the at least one lamp (3, 30 , 31, 51, 52, 53), as illumination information to simulate and in perspective largely largely inserted correctly in the displayed moving image, wherein as the illumination information, a brightness and / or light color and / or radiation characteristic of the lighting are adjustable.
    [5]
    5. Lighting system (1) according to one of claims 2 to 4, characterized in that the illumination system (1) comprises at least one lamp (30, 31, 51, 52, 53), and that the camera unit (23) is formed to to detect and recognize the at least one lamp (30, 31, 51, 52, 53) on the detected moving image.
    [6]
    6. lighting system (1) according to one of claims 2 to 5, characterized in that the display overlay device (24) is formed to additional information (34, 36, 41) with respect to the at least one virtual lamp (3) or detected light (30, 31, 51, 52, 53) as Beleuchtungslnformatlon In a range of at least one lamp (3, 30, 31, 51, 52, 53) to insert into the moving image, wherein the additional information (34, 36, 41) mounting instructions and / or technical Data and / or operating information are.
    [7]
    7. lighting system (1) according to one of claims 2 to 6, characterized in that the illumination system (1) via a control unit (50) has, that the display overlay device (24) is adapted to at least one of the at least one lamp (3, 30, 31, 51, 52, 53) as illumination information in a region of the at least one luminaire (3, 30, 31, 51, 52, 53) in the moving image that the operating device (2) is formed for detecting an operation of the displayed control element (35) and transmitting it to the control device (50), and in that the control device (50) is designed to hold the at least one light (3, 30, 31, 51, 52, 53) the lighting system (1) based on the operation transmitted from the operating device (2), wherein the operation switching and / or dimming and / or changing a color temperature and / or changing a lighting color of the lamp (3, 30, 31, 51, 52, 53).
    [8]
    8. Illumination system (1) according to claim 7, characterized in that the display overlay device (24) is designed to detect the operation of the displayed operating element (35) after the operation has been detected, - effects of the operation as illumination information on a current illumination or virtual light (3 ) to simulate a perspective of the moving image and insert largely correctly perspective in the displayed moving picture, and / or - a power consumption (36) of the lamp (3, 30, 31, 51, 52, 53) after performing the operation estimate and Insert lighting information in an area of the at least one lamp (3, 30, 31, 51, 52, 53) in the moving image, and that the operating device (2) is adapted to the operation only after a renewed confirmation of the operation of the control unit ( 50).
    [9]
    9. lighting system (1) according to one of claims 2 to 8, characterized in that the camera unit (23) has a fault detection device (23b) which is designed to use the moving image defects in the at least one lamp (3, 30, 31 , 51, 52, 53) of the illumination system (1) and / or defects in components of the at least one luminaire (3, 30, 31, 51, 52, 53) of the illumination system (1), and in that the display overlay device (24) is formed in a region of the defective lamp (3, 30, 31, 51, 52, 53) and / or the defective component, information on the defect and / or a list for repairing the defect required spare parts and / or a To insert instructions for performing a repair of the defect (41) as lighting information in the displayed moving image.
    [10]
    10. Illumination system (1) according to claim 9, characterized in that the defect determination device (23b) is designed to detect the defects on the basis of limited light intensity and / or flickering and / or faulty light color of the luminaire (3, 30, 31, 51, 52 , 53) and / or based on flashing patterns of the luminaire (3, 30, 31, 51, 52, 53) and / or on the basis of flashing patterns of status light integrated into the luminaire (3, 30, 31, 51, 52, 53). To recognize LEDs.
    [11]
    11. A method for interacting with an illumination system (1), which comprises an operating device (2), comprising the following steps: detecting an environment of the operating device (2) as a moving image, displaying the moving image in real time by means of the operating device (2), - Determining position information of the operating device (2), and - Perspective largely correct insertion of visual lighting information in the displayed moving image based on environmental information and the position information.
    [12]
    12. The method according to claim 11, characterized in that the illumination information is at least one virtual light (3), a lighting and / or radiation characteristic or other effects of lighting and / or an indication of energy consumption (36) of a virtual light (3 ) or a light (30, 31, 51, 52, 53) detected by the display device (21), additional information (34, 36, 41) of a luminaire (3, 30, 31, 51, 52, 53), an operating element ( 35) for operating and controlling a lamp (3, 30, 31, 51, 52, 53), or information relating to a defective lamp (3, 30, 31, 51, 52, 53).
    [13]
    13. The method according to claim 11 or 12, characterized in that the environmental information comprises a spatial geometry of a room (4) in which the operating device (2) is located, and / or that the environment information from a database (26) is read or received or be determined on the basis of the moving image and / or on the basis of sensor information of a sensor device (29).
    [14]
    14. The method according to any one of claims 11 to 13, characterized in that an illumination of the environment (4) of the operating device (2), preferably by the at least one lamp (3, 30, 31, 51, 52, 53), as illumination information is simulated and inserted in perspective largely correct in the displayed moving image, wherein as the illumination information, a brightness and / or light color and / or radiation characteristic of the lighting can be adjusted.
    [15]
    15. The method according to any one of claims 12 to 14, characterized in that at least one lamp (30, 31, 51, 52, 53) of the illumination system (1) is detected and detected on the detected moving image.
    [16]
    16. The method according to any one of claims 12 to 15, characterized in that additional information (34, 36, 41) as lighting information regarding the at least one virtual light (3) or detected light (30, 31, 51, 52, 53) in one Area of the at least one lamp (3, 30, 31, 51, 52, 53) are inserted into the moving image, wherein the additional information (34, 36, 41) mounting instructions and / or technical data and / or operating information.
    [17]
    17. The method according to any one of claims 12 to 16, characterized in that at least one of the at least one lamp (3, 30, 31, 51, 52, 53) associated control element (35) as illumination information in a region of the at least one lamp (3 , 30, 31, 51, 52, 53) is inserted in the moving image, that an operation of the displayed operating element (35) is detected, and that the at least one lamp (3, 30, 31, 51, 52, 53) of the lighting system (1) is controlled based on the operation detected by the operating device (2), the operation comprising switching and / or dimming and / or changing a color temperature and / or changing an illumination color of the luminaire (3, 30, 31, 51, 52, 53).
    [18]
    18. The method according to claim 17, characterized in that after detecting the operation of the displayed Bedieneiements (35), - simulated effects of operation as lighting information on a current Beieuchtung or virtual light (3) of a moving image area shown and largely correct perspective are inserted into the displayed moving image, and / or - a power consumption (36) of the lamp (3, 30, 31, 51, 52, 53) estimated after performing the operation as lighting information and in an area of the at least one lamp (3, 30 , 31, 51, 52, 53) is inserted in the moving image, and that the at least one lamp (3, 30, 31, 51, 52, 53) is controlled only after a confirmation of the operation in accordance with the operation.
    [19]
    19. The method according to any one of claims 12 to 18, characterized in that based on the moving image defects in the at least one lamp (3, 30, 31, 51, 52, 53) of the illumination system (1) and / or defects in components of at least a lamp (3, 30, 31, 51, 52, 53) of the illumination system (1) are detected, and that in a region of the defective lamp (3, 30, 31, 51, 52, 53) and / or the defective component , Information on the defect and / or a list for a repair of the defect required spare parts and / or a manual for performing a repair of the defect (41) are inserted as lighting information in the displayed moving image.
    [20]
    20. The method according to claim 19, characterized in that the defects on the basis of limited light intensity and / or flickering and / or incorrect light color of the lamp (3, 30, 31, 51, 52, 53) and / or based on Blinkmustern the lamp ( 3, 30, 31, 51, 52, 53) and / or on the basis of flashing patterns of integrated into the lamp (3, 30, 31, 51, 52, 53) status LEDs are detected.
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    WO2016034711A1|2016-03-10|
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    法律状态:
    2021-07-15| MM01| Lapse because of not paying annual fees|Effective date: 20201130 |
    优先权:
    申请号 | 申请日 | 专利标题
    DE102014217675.1A|DE102014217675A1|2014-09-04|2014-09-04|Augmented reality-based lighting system and procedure|
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