KR102167731B1 - An Illumination Device Capable of Outputting and Controlling an Augmented Reality Image - Google Patents

Abstract

Disclosed is a lighting device capable of outputting and controlling an augmented reality image.
According to an aspect of the present embodiment, a lighting unit that irradiates the daylight by a predetermined area, a recognition unit that recognizes information on an object or pattern disposed within the area to which the daylight is irradiated, a memory unit that stores an augmented reality image, and an augmented reality image A lighting apparatus comprising: a projector to be irradiated with the irradiated area and a control unit to select an augmented reality image corresponding to the object or pattern information recognized by the recognition unit in the memory unit and control the projector to irradiate it. to provide.

Description

An Illumination Device Capable of Outputting and Controlling an Augmented Reality Image}

The present invention relates to a lighting device capable of outputting and controlling an augmented reality image.

The content described in this section merely provides background information on the present embodiment and does not constitute the prior art.

Augmented Reality refers to a mixture of real world information and virtual images by inserting a virtual information image into a real environment.

In real-world information, there is information that the user does not need, and sometimes the information that the user needs may be insufficient. However, the augmented reality device allows the user to interact with the real world and necessary information in real time by combining the real world and the virtual world.

Conventional augmented reality devices are worn and used by users, such as HMD (Head Mounted Display) or smart glasses. A user wearing a conventional augmented reality device can view an augmented reality image by checking the real world seen through the conventional augmented reality device and a virtual image output from the conventional augmented reality device together. However, since the conventional augmented reality device must be worn by the user, discomfort arises from the feeling of wearing, movement of the user after wearing, and discomfort in sight.

An object of the present invention is to provide a lighting device that enables a user to view an augmented reality image without wearing it.

In addition, an embodiment of the present invention can output and control an augmented reality image using a lighting device that can be placed in a daily environment indoors or outdoors, even if equipment for separately outputting an augmented reality image is not provided. It has one purpose to provide a lighting device that is equipped with.

According to an aspect of the present invention, a lighting unit that irradiates the daylight by a predetermined area, a recognition unit that recognizes information on objects or patterns arranged within the area to which the daylight is irradiated, a memory unit that stores an augmented reality image, and an augmented reality image A lighting apparatus comprising: a projector to be irradiated with the irradiated area and a control unit to select an augmented reality image corresponding to the object or pattern information recognized by the recognition unit in the memory unit and control the projector to irradiate it. to provide.

According to an aspect of the present invention, when an object within an area to which the daylight is irradiated is disposed, the controller modifies the selected augmented reality image according to the curve or appearance of the object.

According to an aspect of the present invention, the recognition unit is characterized in that by photographing an area to which the daylight is irradiated, information on an object or pattern disposed within the area to which the daylight is irradiated is recognized.

According to an aspect of the present invention, the recognition unit is characterized in that the camera is implemented.

According to an aspect of the present invention, in a method of outputting an augmented reality image while the lighting device irradiates the daylight, the irradiation process of irradiating the daylight by a preset area and information on objects or patterns arranged in the area to which the daylight is irradiated Recognition process of recognizing and selection process of selecting an augmented reality image corresponding to object or pattern information recognized by the recognition unit among augmented reality images stored in the lighting device, and an investigation process of irradiating the augmented reality image with the area irradiated with daylight It provides an augmented reality image output method comprising a.

According to an aspect of the present invention, the recognition process is characterized in that the illumination device captures an area to which the daylight is irradiated, thereby recognizing information on an object or pattern disposed within an area to which the daylight is irradiated.

According to an aspect of the present invention, the image output method may further include a correction process of correcting a selected augmented reality image according to the curvature or appearance of an object arranged within an area to which the daylight is irradiated.

According to an aspect of the present invention, in an output device that outputs an augmented reality image in a preset area in which daylight is irradiated by a lighting device, the recognition unit and augmentation unit for recognizing information on objects or patterns arranged in the area to which the daylight is irradiated A memory unit for storing a reality image and a projector for irradiating an augmented reality image to the area to which the daylight is irradiated, and an augmented reality image corresponding to the object or pattern information recognized by the recognition unit is selected in the memory unit to be irradiated by the projector It provides an augmented reality image output device comprising a control unit to control.

According to an aspect of the present invention, when an object within an area to which the daylight is irradiated is disposed, the controller modifies the selected augmented reality image according to the curve or appearance of the object.

According to an aspect of the present invention, the recognition unit is characterized in that by photographing an area to which the daylight is irradiated, information on an object or pattern disposed within an area to which the daylight is irradiated is recognized.

According to an aspect of the present invention, the recognition unit is characterized in that the camera is implemented.

According to an aspect of the present invention, in a method of outputting an augmented reality image in a predetermined area in which the daylight is irradiated by the lighting device by the augmented reality image output device, the object or pattern information disposed within the area to which the daylight is irradiated is recognized. The recognition process includes a selection process of selecting an augmented reality image corresponding to the object or pattern information recognized by the recognition unit among the augmented reality images stored in the lighting device, and an irradiation process of irradiating the augmented reality image with the area irradiated with daylight. It provides an augmented reality image output method, characterized in that.

According to an aspect of the present invention, the recognition process is characterized in that the illumination device captures an area to which the daylight is irradiated, thereby recognizing information on an object or pattern disposed within an area to which the daylight is irradiated.

According to an aspect of the present invention, the image output method may further include a correction process of correcting a selected augmented reality image according to the curvature or appearance of an object arranged within an area to which the daylight is irradiated.

According to an aspect of the present invention, in an output device that outputs an augmented reality image in a preset area in which daylight is irradiated by a lighting device, the recognition unit and augmentation unit for recognizing information on objects or patterns arranged in the area to which the daylight is irradiated A memory unit that stores a reality image, a sensor unit that senses the illuminance or luminance of the object or the area to which the daylight is irradiated, a projector that irradiates the augmented reality image to the area to which the daylight is irradiated, and the object or pattern information recognized by the recognition unit A corresponding augmented reality image is selected in the memory unit to be irradiated by the projector, and the brightness of the augmented reality image to be irradiated by the projector is determined according to the illuminance or luminance of the object or the area to which the main light sensed by the sensor unit is irradiated. It provides a lighting device comprising a control unit to control.

According to an aspect of the present invention, a lighting unit that irradiates the daylight by a predetermined area, a communication unit that receives an augmented reality image from a server, a projector that irradiates the augmented reality image to the area to which the daylight is irradiated, and augmented reality received by the communication unit It provides a lighting device, characterized in that it comprises a control unit for controlling the projector to irradiate the image.

As described above, according to an aspect of the present invention, there is an advantage in that a user can view an augmented reality image even without wearing separate equipment.

In addition, according to an aspect of the present invention, as an augmented reality image is output and controlled using a lighting device that can be disposed in an indoor environment, there is an advantage that it is not necessary to have separate equipment to output and control the augmented reality image. have.

1 is a view showing a lighting device according to an embodiment of the present invention.
2 is a configuration diagram of a lighting device according to an embodiment of the present invention.
3 is a diagram showing an area in which a lighting device according to an embodiment of the present invention outputs light and augmented reality images.
4 is a view showing a lighting unit and a projector according to an embodiment of the present invention.
5 is a graph showing the intensity of light according to an angle at which an illumination unit irradiates light according to an embodiment of the present invention.
6 is a view showing a lighting system according to another embodiment of the present invention.
7 is a configuration diagram of a lighting device according to another embodiment of the present invention.
8 is a view showing a lighting system according to another embodiment of the present invention.
9 is a configuration diagram of a lighting device according to another embodiment of the present invention.
10 is a configuration diagram of a server according to another embodiment of the present invention.
11 is a flowchart illustrating a method of outputting an augmented reality image by a lighting device according to an embodiment of the present invention.
12 is a flowchart illustrating a method of outputting an augmented reality image by a lighting system according to an embodiment of the present invention.
13 is a flowchart illustrating a method of outputting an augmented reality image by a lighting device according to another embodiment of the present invention.

In the present invention, various changes may be made and various embodiments may be provided, and specific embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to a specific embodiment, it is to be understood to include all changes, equivalents, or substitutes included in the spirit and scope of the present invention. In describing each drawing, similar reference numerals have been used for similar elements.

Terms such as first, second, A, and B may be used to describe various elements, but the elements should not be limited by the terms. These terms are used only for the purpose of distinguishing one component from another component. For example, without departing from the scope of the present invention, a first element may be referred to as a second element, and similarly, a second element may be referred to as a first element. The term and/or includes a combination of a plurality of related listed items or any of a plurality of related listed items.

When a component is referred to as being "connected" or "connected" to another component, it is understood that it may be directly connected or connected to the other component, but other components may exist in the middle. Should be. On the other hand, when a component is referred to as being "directly connected" or "directly connected" to another component, it should be understood that there is no other component in the middle.

The terms used in the present application are used only to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" should be understood as not precluding the possibility of existence or addition of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification. .

Unless otherwise defined, all terms, including technical or scientific terms, used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs.

Terms as defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in this application. Does not.

In addition, each configuration, process, process, or method included in each embodiment of the present invention may be shared within a range not technically contradicting each other.

1 is a view showing a lighting device according to an embodiment of the present invention, Figure 2 is a configuration diagram of a lighting device according to an embodiment of the present invention.

1 and 2, a lighting device 100 according to an embodiment of the present invention includes an illumination unit 210, a sensor unit 220, a recognition unit 230, a projector 240, and an acoustic unit 245. , A control unit 250 and a memory unit 260.

The lighting unit 210 irradiates light. In particular, the lighting unit 210 irradiates the main light by a predetermined area.

The sensor unit 220 senses the illuminance or luminance of a preset area to which the main light of the illumination unit 210 is irradiated. The sensor unit 220 senses the illuminance or luminance of a preset area, or the illuminance or luminance of an object disposed within the preset area, and transmits the sensing value to the controller 250. As the sensor unit 220 senses the illuminance or luminance of a preset area or an object disposed within a preset area, the controller 250 may adjust the brightness of the augmented reality image to be irradiated with the preset area. When the illuminance or luminance of a preset area or an object disposed within a preset area is high, an augmented reality image having a certain level of brightness may be difficult to see to the user. In order to solve this problem, the sensor unit 220 senses the illuminance or luminance of the place where the augmented reality image is to be output and provides it to the control unit, so that the control unit 250 can output the augmented reality image so that the user can see the augmented reality image well. You can control the brightness of the image.

The recognition unit 230 recognizes object or pattern information within a preset area, or recognizes a user's motion.

The recognition unit 230 recognizes object or pattern information within a preset area or a user's motion. The recognition unit 230 captures a preset area to which the daylight is irradiated or an area larger than a preset area to which the daylight is irradiated to recognize object or pattern information or a user's motion. The recognition unit 230 may be implemented as a device capable of photographing within a preset area, such as a camera.

The recognition unit 230 recognizes information on an object or pattern disposed within a preset area. An object that the user wants to be fused with an augmented reality image may be disposed within a preset area to which the daylight of the lighting unit 210 is irradiated, or pattern information containing augmented reality image information that the user wants to watch may be disposed. The pattern information may be a barcode, a QR code, or a combination of other characters or symbols. The recognition unit 230 recognizes information on an object or pattern disposed within a preset area, and transmits the recognized information to the control unit 250.

The recognition unit 230 recognizes a user's motion within a preset area. The recognition unit 230 captures a preset area or a larger area, and recognizes whether a user's motion exists within the area captured by the recognition unit. The user's operation may be a control signal for an augmented reality image output from the lighting device 100. For example, a specific motion of the user may be a signal to stop or play the output of the augmented reality image, or to adjust the output speed of the augmented reality image. Alternatively, a specific motion of the user may be a signal to replace or edit the augmented reality image. The recognition unit 230 recognizes a user's motion, so that the lighting device 100 may interact with the components implementing the augmented reality image in the lighting device 100 and the user.

The projector 240 outputs an augmented reality image selected by the controller 250 under the control of the controller 250. The projector 240 irradiates the augmented reality image selected by the controller 250 in an area larger than a preset area to which the daylight is irradiated. The relationship between the preset area in which the lighting unit 210 irradiates the daylight and the area in which the projector 240 outputs an augmented reality image will be described with reference to FIGS. 3 to 5.

3 is a view showing an area in which a lighting device according to an embodiment of the present invention outputs light and an augmented reality image, and FIG. 4 is a view showing an illumination unit and a projector according to an embodiment of the present invention. 5 is a graph showing the intensity of light according to an angle at which an illumination unit irradiates light according to an embodiment of the present invention.

The preset areas 310 and S on which the lighting unit 210 irradiates the daylight has a certain area. Here, a certain area is set as shown in FIG. 5. Referring to FIG. 5, the intensity of daylight is strongest in the central axis of the lighting unit 210, and the intensity decreases as the distance increases by a certain angle from the central axis. That is, the intensity of light irradiated by the illumination unit has a unique brightness distribution (eg, Gaussian distribution) with respect to an angle. In this case, the preset area 310 is set in a range from the maximum intensity to an angle having a reduced intensity by a certain level (eg, 50% of the maximum intensity). Since only low-intensity light reaches outside the range of the preset area 310, the user has an inappropriate brightness for viewing the augmented reality image. Accordingly, the preset area 310 is set in a range from the maximum intensity to an angle with a certain level of reduced intensity.

The area 320 of the augmented reality image that the projector 240 can irradiate has an area that is at least equal to or larger than the area of the preset area 310.

In addition, the area 330 recognized by the recognition unit 230 has an area equal to or larger than the area 320 of the augmented reality image. The recognition unit 230 must recognize not only the object or pattern information arranged in the preset area 310 but also the user's motion for interaction. The user's operation may start from within the preset area 310, but may also start from outside the preset area 310. Therefore, the area 330 recognized by the recognition unit 230 is at least the area 320 of the augmented reality image so that the recognition unit 230 can clearly recognize the user's motion from the outside of the preset area 310. It has an area equal to or larger than

Referring back to FIG. 2, the sound unit 245 outputs a sound of an augmented reality image selected by the control unit 250.

The controller 250 selects an augmented reality image to be output according to object or pattern information, and controls an augmented reality image to be output according to illumination or brightness or a user's motion.

The controller 250 selects an augmented reality image to be output according to the object or pattern information. Various augmented reality images are stored in the memory unit 260. The controller 250 receives object or pattern information recognized by the recognition unit 230 and selects an augmented reality image corresponding to the recognized object or pattern information from among augmented reality images stored in the memory unit 260. For example, when the recognition unit 230 recognizes a specific object, the selected augmented reality image may be an instruction manual or a use case of the object. When the recognition unit 230 recognizes pattern information in a book such as a storybook or a problem book, the selected augmented reality image may be a description of the contents of the book, a related image, or a lecture image. The controller 250 selects an augmented reality image suitable for the object or pattern information recognized by the recognition unit 230.

When the recognition unit 230 recognizes an object, the controller 250 may modify the selected augmented reality image according to the curve or appearance of the object. When the object is disposed within the preset area 310, the augmented reality image may be output at a position adjacent to the object but not overlapped with the object, but may be output at a position overlapping the object. In the latter case, when the augmented reality image is output as it is without any manipulation, the sense of reality felt by the user is inevitably lowered. In order to solve this problem, when an object is disposed within the preset area 310, the controller 250 may determine the curve or appearance of the object and correct the selected augmented reality image according to the curve or appearance of the object. Accordingly, when an augmented reality image is output on an object, the user can feel a higher sense of reality.

The controller 250 controls the brightness of an augmented reality image to be output according to a preset area or illumination or brightness of an object. When the preset area or the illuminance or luminance of an object is high, an augmented reality image of too low brightness may be difficult to see to the user. Conversely, an augmented reality image that is too bright in a situation where the preset area or the illuminance or luminance of an object is low may be a waste of battery or energy, and a dazzling augmented reality image may be provided to the user. In order to solve these problems, the controller 250 receives a preset area or illuminance or luminance of an object from the sensor unit 220 and controls the brightness of an augmented reality image to be output accordingly.

The controller 250 controls an augmented reality image to be output or an augmented reality image to be output according to a user's motion recognized by the recognition unit 230. As described above, the user may input a control signal of an augmented reality image to the lighting device 100 as an operation. The recognition unit 230 recognizes the user's motion corresponding to the control signal of the augmented reality image and transmits it to the control unit 250, and the control unit 250 recognizes the control signal corresponding to the user's motion, Controls the augmented reality image to be output accordingly. For example, when the user performs an operation indicating a control signal to stop the output of an augmented reality image, the recognition unit 230 recognizes the user's motion and transmits it to the control unit 250, and the control unit 250 The recognition unit 230 recognizes that the recognized operation means a control signal for stopping the output of the augmented reality image, and stops the output of the augmented reality image. Accordingly, the user can easily view the augmented reality image or control the augmented reality image.

The memory unit 260 stores an augmented reality image. The memory unit 260 stores an augmented reality image corresponding to various objects or pattern information. The memory unit 260 stores sound of each augmented reality image along with the augmented reality image. Accordingly, the projector 240 may output the augmented reality image selected by the controller 250, and the sound of the selected augmented reality image may be output by the audio unit 245.

In this way, a configuration for generating and outputting an augmented reality image is included in the lighting device 100, so that the user does not need to install additional equipment to enjoy the augmented reality image, and a separate augmented reality image player is provided. It doesn't even have to be furnished. Anyway, for daily life indoors or outdoors, at least one lighting device must be provided, and in order to enjoy the augmented reality image, lighting is necessary to check the actual environment. Therefore, the lighting device 100 displays an augmented reality image. By including constructs to generate and output, it provides spatial and economic advantages to users.

6 is a view showing a lighting system according to another embodiment of the present invention.

Referring to FIG. 6, a lighting system 600 according to an embodiment of the present invention includes a master lighting device 610a and slave lighting devices 610b and 610c.

The master lighting device 610a divides the augmented reality image, outputs a part, and transmits the remaining part to the slave lighting devices 610b and 610c existing in a preset area.

The master lighting device 610a refers to a lighting device for outputting an augmented reality image by arranging object or pattern information within a preset area 310 to which the main light of the master lighting device 610a is irradiated. At this time, if the augmented reality image selected according to the arranged object or pattern information is a size that can be output within the area 320 of the augmented reality image that the master lighting device 610a can irradiate, there is no problem. However, if the selected augmented reality image is a size that cannot be all output within the area 320 of the augmented reality image that the master lighting device 610a can irradiate, the augmented reality image cannot be fully output. In the case of outputting at the size of the original image, since all the images within the preset area 310 irradiated with the daylight cannot enter, the augmented reality image cannot be fully provided to the user. Since the size of the image must be adjusted in order for all the images within the preset area 310 to be irradiated with the daylight to enter, a problem occurs that the realism of the augmented reality image to be provided to the user is significantly reduced.

In order to solve all these problems, the master lighting device 610a considers a preset area 310 to which the daylight is irradiated and an area 320 of the augmented reality image, and multiple augmented reality images according to the corresponding area 320. Divide into dogs. The master lighting device 610a outputs some of the divided images and transmits the remaining images to the slave lighting devices 610b and 610c so that the slave lighting devices 610b and 610c output the remaining images, respectively. Since the slave lighting devices 610b and 610c are arranged in a preset area around the master lighting device 610a, when the master lighting device 610a and the slave lighting devices 610b and 610c are divided to output an image , The user can recognize as if one augmented reality image is being output.

The slave lighting devices 610b and 610c are disposed within a preset area from the master lighting device 610a, and receive and output an augmented reality image from the master lighting device 610a.

7 is a configuration diagram of a lighting device according to another embodiment of the present invention.

Referring to FIG. 7, the lighting devices 610a, 610b, and 610c according to another embodiment of the present invention include the lighting unit 210, the sensor unit 220, and the lighting device 100 according to an embodiment of the present invention. In addition to the recognition unit 230, the projector 240, the sound unit 245, the control unit 710, and the memory unit 260, a communication unit 720 is further included.

In addition to the operation of the control unit 250 of the lighting device 100 according to an embodiment of the present invention, the control unit 710 is irradiated with a preset area 310 and a projector 240 to which the selected augmented reality image and daylight are irradiated. The area 320 of the augmented reality image that can be performed is compared. The controller 710 divides the augmented reality image into a plurality of pieces according to the corresponding areas 310 and 320 in consideration of the respective areas 310 and 320. The controller 710 may divide the augmented reality images to be output into a plurality of pieces and transmit some augmented reality images to the other slave lighting devices 610b and 610c. The controller 710 controls the projector 240 to output some augmented reality images, and the remaining augmented reality images are transferred to other lighting devices 610b and 610c existing in a preset area centered on the master lighting device 610a. send. The remaining slave lighting devices 610b and 610c output the remaining augmented reality images transmitted by the master lighting device 610a, so that all parts of the mid-reality image may be output.

The communication unit 720 checks whether the communication unit of the other slave lighting devices 610b and 610c exists within a preset area. The communication unit 720 checks whether the communication unit of the other slave lighting devices 610b and 610c exists in the preset area, so that the control unit 710 can check whether the other slave lighting devices 610b and 610c exist in the preset area. do.

The communication unit 720 transmits an augmented reality image to other slave lighting devices 610b and 610c. As described above, when the augmented reality image to be output is larger than the respective areas 310 and 320, the augmented reality image to be output is divided into a plurality of pieces. The communication unit 720 transmits each of the augmented reality images other than the augmented reality image to be output among the divided augmented reality images to different slave lighting devices 610b and 610c. Accordingly, the slave lighting devices 610b and 610c may output the remaining augmented reality images, respectively.

8 is a view showing a lighting system according to another embodiment of the present invention.

Referring to FIG. 8, a lighting system 800 according to another embodiment of the present invention includes a lighting device 810 and a server 820.

The lighting devices 810a, 810b, and 810c communicate with the server 820 and receive and output an augmented reality image (and sound) to be output from the server 820.

The lighting devices 810a, 810b, and 810c perform wired or wireless communication with the server 820. The lighting devices 810a, 810b, and 810c may communicate with the server 820 to receive an augmented reality image from the server 820 or transmit object or pattern information recognized by the server 820.

The lighting devices 810a, 810b, 810c, like the lighting device 100 described with reference to FIG. 1 or the lighting device 610 described with reference to FIG. 6, output augmented reality images separately from the operation of lighting. . However, like the above-described lighting devices 100 and 610, instead of outputting an augmented reality image stored in the memory unit including the memory unit, the lighting devices 810a, 810b, and 810c are Output the video.

The server 820 communicates with one or more lighting devices 810a, 810b, 810c and transmits an augmented reality image to the lighting device. The augmented reality image may be an image related to object or pattern information recognized by the lighting device and transmitted to the server 820, or may be an image transmitted by the server 820 unilaterally regardless of the information recognized by the lighting device. . A representative example of the latter is a pop-up advertisement. The server 820 transmits this augmented reality image to the lighting device.

The server 820 may transmit an augmented reality image to one or more lighting devices 810a, 810b, and 810c. When the augmented reality image to be transmitted is an image related to object or pattern information, the server 820 considers the size of the augmented reality image to be transmitted and the area of the augmented reality image that can be outputted by one lighting device. The image is transmitted to the lighting device. The server 820 transmits an augmented reality image to one lighting device, or divides the image into a plurality of images and transmits the augmented reality image divided to the plurality of lighting devices to each lighting device. On the other hand, when the augmented reality image to be transmitted is an image transmitted by the server 820 unilaterally, the server 820 may transmit the augmented reality image to all lighting devices that communicate with each other.

9 is a configuration diagram of a lighting device according to another embodiment of the present invention.

Referring to FIG. 9, a lighting device 810 according to another embodiment of the present invention includes a lighting unit 210, a sensor unit 220, and a recognition unit of the lighting device 100 according to an embodiment of the present invention. 230), the projector 240, the sound unit 245, and further includes a communication unit 910 to the control unit 250.

The communication unit 910 receives an augmented reality image to be output from the server 820. The communication unit 910 may receive a sound of an augmented reality image together with an augmented reality image.

The communication unit 910 may transmit object or pattern information recognized by the recognition unit 230 to the server 820. In order to output an augmented reality image related to the object or pattern information recognized by the recognition unit 230, the communication unit 910 may transmit the object or pattern information recognized by the recognition unit 230 to the server 820. The communication unit 910 transmits the object or pattern information recognized by the recognition unit 230 to the server 820, so that the server 820 can select and transmit an augmented reality image related to the object or pattern information.

10 is a configuration diagram of a server according to another embodiment of the present invention.

Referring to FIG. 10, a server 920 according to another embodiment of the present invention includes a communication unit 1010, a control unit 1020, and a memory unit 1030.

The communication unit 1010 transmits the augmented reality image selected by the control unit 1020 to one or more lighting devices.

The communication unit 1010 may receive object or pattern information recognized by the lighting device from the lighting device.

The controller 1020 controls the communication unit 1010 to select an augmented reality image stored in the memory unit 1030 and transmit it to one or more lighting devices.

The control unit 1020 selects an augmented reality image stored in the memory unit 1030. If it is to unilaterally transmit an augmented reality image to the lighting device, the controller 1020 selects a random augmented reality image in the memory unit 1030. However, if the object or pattern information recognized by the lighting device is received from the lighting device, the controller 1020 selects an augmented reality image that matches the received object or pattern information.

The controller 1020 controls the communication unit 1010 to transmit the selected augmented reality image to the lighting device. The controller 1020 considers the size of the selected augmented reality image and the area of the augmented reality image that can be irradiated that can be output by one lighting device. When the size of the selected augmented reality image is larger than the area of the augmented reality image that can be irradiated by one lighting device, the control unit 1020 divides the augmented reality image to adjacent the divided augmented reality image within a certain area. It transmits to multiple lighting devices. On the other hand, when the size of the selected augmented reality image is smaller than the area of the augmented reality image that can be irradiated by one lighting device, the augmented reality image is transmitted to a specific lighting device.

The memory unit 1030 stores an augmented reality image. The memory unit 1030 stores an augmented reality image corresponding to various objects or pattern information. The memory unit 1030 stores sound of each augmented reality image along with the augmented reality image.

11 is a flowchart illustrating a method of outputting an augmented reality image by a lighting device according to an embodiment of the present invention.

The lighting unit 210 outputs light (S1110).

The recognition unit 230 recognizes information on an object or pattern disposed within an area to which the daylight is irradiated (S1120).

The control unit 250 selects an augmented reality image corresponding to the object or pattern information recognized by the recognition unit 230 in the memory unit 260 (S1130).

The projector 240 outputs an augmented reality image selected by the controller 250 (S1140).

The sensor unit 220 or the recognition unit 230 senses the illuminance or luminance of an object or a preset area, or recognizes a user's motion (S1150). The sensor unit 220 senses the illuminance or luminance of an object or a preset area and transmits it to the controller 250, and the controller 250 determines the brightness of the augmented reality image to be output based on the value sensed by the sensor unit 220. Control. The recognition unit 230 recognizes the user's motion and transmits it to the controller 250, and the controller 250 recognizes a control signal corresponding to the user's motion, and controls the augmented reality image to be output according to the control signal.

The controller 250 controls an augmented reality image based on the sensed or recognized information (S1160).

12 is a flowchart illustrating a method of outputting an augmented reality image by a lighting system according to an embodiment of the present invention.

The lighting unit 210 outputs light (S1210).

The recognition unit 230 recognizes information on an object or pattern disposed within an area to which the daylight is irradiated (S1220).

The control unit 710 selects an augmented reality image corresponding to the object or pattern information recognized by the recognition unit 230 in the memory unit 260 (S1230).

The control unit 710 checks the slave lighting devices 610b and 610c existing in a preset area (S1240).

The controller 710 divides the augmented reality image by the number of slave lighting devices 610b and 610c existing in a preset area (S1250).

The communication unit 720 transmits each divided augmented reality image to each slave lighting device 610b and 610c (S1260).

13 is a flowchart illustrating a method of outputting an augmented reality image by a lighting device according to another embodiment of the present invention.

The lighting unit 210 outputs light (S1310).

The recognition unit 230 recognizes information on an object or pattern disposed within the area to which the daylight is irradiated (S1320).

The communication unit 910 transmits the recognized object or pattern information to the server 820 (S1330).

The communication unit 910 receives an augmented reality image from the server 820 (S1340).

The projector 240 outputs the received augmented reality image (S1350).

11 to 13 describe that each process is sequentially executed, but this is merely illustrative of the technical idea of an embodiment of the present invention. In other words, a person of ordinary skill in the art to which an embodiment of the present invention belongs can change the order shown in FIGS. 11 to 13 and execute one or more of each process without departing from the essential characteristics of an embodiment of the present invention. Since the process is executed in parallel, various modifications and variations may be applied, and thus FIGS. 11 to 13 are not limited to a time series order.

Meanwhile, the processes illustrated in FIGS. 11 to 13 can be implemented as computer-readable codes on a computer-readable recording medium. The computer-readable recording medium includes all types of recording devices that store data that can be read by a computer system. That is, the computer-readable recording medium includes storage media such as magnetic storage media (eg, ROM, floppy disk, hard disk, etc.) and optical reading media (eg, CD-ROM, DVD, etc.). In addition, the computer-readable recording medium can be distributed over a computer system connected through a network to store and execute computer-readable codes in a distributed manner.

The above description is merely illustrative of the technical idea of the present embodiment, and those of ordinary skill in the technical field to which the present embodiment belongs will be able to make various modifications and variations without departing from the essential characteristics of the present embodiment. Accordingly, the present exemplary embodiments are not intended to limit the technical idea of the present exemplary embodiment, but are illustrative, and the scope of the technical idea of the present exemplary embodiment is not limited by these exemplary embodiments. The scope of protection of this embodiment should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present embodiment.

100, 610a, 610b, 610c, 810a, 810b, 810c: lighting device
210: lighting unit
220: sensor unit
230: recognition unit
240: projector
245: acoustic unit
250, 710, 1020: control unit
260, 1030: memory unit
720, 910, 1010: communication department
820: server

Claims (16)

In a lighting device that outputs an augmented reality image while irradiating daylight,
A master lighting device that divides a corresponding augmented reality image into one or more divided images based on a preset area to which the daylight is irradiated and an area of the augmented reality image, outputs some of the divided images, and transmits the remaining divided images ; And one or more slave lighting devices disposed within a preset area from the master lighting device to receive and output a divided image from the master lighting device,
The master lighting device and the slave lighting device,
A lighting unit that irradiates daylight by a predetermined area; A recognition unit for recognizing information on an object or pattern disposed within an area to which the daylight is irradiated; A memory unit for storing an augmented reality image; A projector for irradiating an augmented reality image to an area irradiated with daylight; And a controller configured to select an augmented reality image corresponding to the object or pattern information recognized by the recognition unit in the memory unit and control the projector to irradiate it. The method of claim 1,
The control unit,
When an object within an area to which the daylight is irradiated is arranged, the selected augmented reality image is corrected according to the curvature or appearance of the object. The method of claim 1,
The recognition unit,
A lighting device, characterized in that by photographing an area to which the daylight is irradiated, information on an object or pattern disposed within the area to which the daylight is irradiated is recognized. The method of claim 3,
The recognition unit,
Lighting device, characterized in that implemented as a camera. In the method of outputting an augmented reality image while the lighting device irradiates the daylight,
An irradiation process of irradiating daylight by a predetermined area;
A recognition process of recognizing information on an object or pattern arranged in the area to which the daylight is irradiated;
A selection process of selecting an augmented reality image corresponding to the object or pattern information recognized in the recognition process from among augmented reality images stored in the lighting device; And
Including an investigation process of irradiating the augmented reality image to the area to which the daylight is irradiated,
Before the irradiation process, the augmented reality image is divided into one or more divided images based on a preset area to which the daylight is irradiated and the area of the augmented reality image, and some of the divided images are output by the master lighting device. And a control process of outputting the remaining divided images from a slave lighting device existing in a preset area centered on the master lighting device. The method of claim 5,
The recognition process,
The augmented reality image output method, characterized in that the lighting device recognizes information on an object or pattern arranged in the area to which the daylight is irradiated by photographing an area to which the daylight is irradiated. The method of claim 5,
An augmented reality image output method, characterized in that it further comprises a correction process of modifying the selected augmented reality image according to the curvature or appearance of the object arranged in the area to which the daylight is irradiated. In an output device for outputting an augmented reality image in a preset area in which daylight is irradiated by a lighting device,
A recognition unit for recognizing information on an object or pattern disposed within an area to which the daylight is irradiated;
A memory unit for storing an augmented reality image;
A projector for irradiating an augmented reality image to an area irradiated with daylight; And
Including a control unit for controlling the projector to irradiate by selecting an augmented reality image corresponding to the object or pattern information recognized by the recognition unit in the memory unit,
The lighting device includes a master lighting device for outputting an augmented reality image by arranging object or pattern information within a preset area to which the daylight is irradiated, and one or more slave lighting devices disposed in a preset area around the master lighting device. and,
The control unit divides the corresponding augmented reality image into one or more divided images based on a preset area to which the daylight is irradiated and the area of the augmented reality image, and outputs some of the divided images by a master lighting device, and the remaining An augmented reality image output device, characterized in that to transmit and output the segmented image to the slave lighting device. The method of claim 8,
The control unit,
An augmented reality image output device, characterized in that when an object within an area to which the daylight is irradiated is arranged, correcting the selected augmented reality image according to the curvature or appearance of the object. The method of claim 8,
The recognition unit,
An augmented reality image output device, characterized in that by photographing an area to which the daylight is irradiated, information on an object or pattern disposed within the area to which the daylight is irradiated is recognized. The method of claim 8,
The recognition unit,
Augmented reality image output device, characterized in that implemented as a camera. In the method of outputting an augmented reality image in a preset area where the daylight is irradiated by the lighting device by the augmented reality image output device,
A recognition process of recognizing information on an object or pattern arranged in the area to which the daylight is irradiated;
A selection process of selecting an augmented reality image corresponding to the object or pattern information recognized in the recognition process from among augmented reality images stored in the lighting device; And
Including an investigation process of irradiating the augmented reality image to the area to which the daylight is irradiated,
Before the irradiation process, the augmented reality image is divided into one or more divided images based on a preset area to which the daylight is irradiated and the area of the augmented reality image, and some of the divided images are output by the master lighting device. And a control process of outputting the remaining divided images from a slave lighting device existing in a preset area centered on the master lighting device. The method of claim 12,
The recognition process,
The augmented reality image output method, characterized in that the lighting device recognizes information on an object or pattern arranged in the area to which the daylight is irradiated by photographing an area to which the daylight is irradiated. The method of claim 12,
An augmented reality image output method, characterized in that it further comprises a correction process of modifying the selected augmented reality image according to the curvature or appearance of the object arranged in the area to which the daylight is irradiated. In an output device for outputting an augmented reality image in a preset area in which daylight is irradiated by a lighting device,
A recognition unit for recognizing information on an object or pattern disposed within an area to which the daylight is irradiated;
A memory unit for storing an augmented reality image;
A sensor unit sensing the illuminance or luminance of the object or the area to which the daylight is irradiated;
A projector for irradiating an augmented reality image to an area irradiated with daylight; And
The augmented reality image corresponding to the object or pattern information recognized by the recognition unit is selected in the memory unit to be irradiated by the projector, and the object or daylight sensed by the sensor unit is irradiated according to the illuminance or luminance. Including a control unit for controlling the brightness of the augmented reality image to be irradiated by the projector,
The lighting device includes a master lighting device for outputting an augmented reality image by arranging object or pattern information within a preset area to which the daylight is irradiated, and one or more slave lighting devices disposed in a preset area around the master lighting device. and,
The control unit divides the corresponding augmented reality image into one or more divided images based on a preset area to which the daylight is irradiated and the area of the augmented reality image, and outputs some of the divided images by a master lighting device, and the remaining An augmented reality image output device, characterized in that to transmit and output the segmented image to the slave lighting device. In a lighting device that outputs an augmented reality image while irradiating daylight,
A master lighting device that divides a corresponding augmented reality image into one or more divided images based on a preset area to which the daylight is irradiated and an area of the augmented reality image, outputs some of the divided images, and transmits the remaining divided images ; And one or more slave lighting devices disposed within a preset area from the master lighting device to receive and output a divided image from the master lighting device,
The master lighting device and the slave lighting device,
A lighting unit that irradiates daylight by a predetermined area;
Communication unit for receiving an augmented reality image;
A projector for irradiating the augmented reality image to an area irradiated with daylight; And
And a control unit for controlling the projector to irradiate the augmented reality image received by the communication unit.

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