KR102219979B1 - Method And System for Displaying Image by using Digital Signage - Google Patents

Abstract

Disclosed are a method and a system for displaying an image by using a digital signage. The present embodiment includes a digital signage for controlling a digital signage display, in which an image is projected from a projector installed on one side of the digital signage to the floor, and when an object passing through an area corresponding to the image projected by the projector is detected, the area through which the object passes and a video interacting with the image projected on the corresponding area are output to the digital signage display. The digital signage includes an auxiliary lighting unit that emits light having a preset amount of light toward the preset area to generate an illuminance variation due to an object entering the preset area. The auxiliary lighting unit is disposed between the projectors, at least one of a color and a character matched with identification information is projected for each preset area by using the projector, and an illuminance sensing device is implemented in the form of a block on the floor such that an illuminance sensor can be implemented for each corner of the upper surface of the block or the illuminance sensor can be implemented on both ends of the upper surface of the block to sense an illuminance value for each of the preset areas.

Description

Image output control method and system using digital signage {Method And System for Displaying Image by using Digital Signage}

An embodiment of the present invention relates to a method and system for controlling image output using digital signage.

The contents described below merely provide background information related to the present embodiment, and do not constitute the prior art.

Digital signage refers to a digital bulletin board that outputs various information and advertisements using a digital player, replacing the existing analog billboards (posters, guide signs, signage, etc.).

Digital signage is connected to a network and can control content remotely, has excellent attention and information delivery. Digital signage is an advertisement medium using a display and digital technology, and outputs advertisements and images produced as digital contents according to a preset schedule.

However, digital signage simply repeatedly delivers content according to a preset schedule to an unspecified number of users, and it is not possible to provide various content that is converted by interacting with a user.

In this embodiment, when an object passing through an area corresponding to an image projected by the projector is detected while projecting an image from a projector installed on one side of the digital signage to the floor surface, the object passes through and interacts with the image projected on the area. An object of the present invention is to provide a method and system for controlling an image output using digital signage for outputting an image to a digital signage display.

The image output control system including digital signage according to the present exemplary embodiment senses and transmits an illuminance value for each of the preset regions using an illuminance sensor arranged in a straight line for each of a plurality of preset regions. A device, a projector for projecting an image to the plurality of preset areas, respectively, and an illumination change detection signal for an area in which an illumination change is detected among the plurality of preset areas based on the illumination value, and detects the illumination change When it is recognized that an object is detected in the area where the signal is detected, controlling the digital signage display to output content that interacts with the image projected to the area where the illumination change detection signal is detected, to the digital signage display Includes digital signage.

According to an embodiment, the image output control system further includes an auxiliary lighting unit configured to emit light having a preset amount of light toward the plurality of preset areas to cause a change in illumination due to an object entering the plurality of preset areas. And, the auxiliary lighting unit is disposed between the projectors.

The digital signage uses the projector to project at least one of a color and a letter matched with the identification information for each of the plurality of preset areas.

The illuminance sensing device is implemented in the form of a block on the bottom surface. The illuminance sensing device implements the illuminance sensor at each corner of the upper surface of the block, or implements the illuminance sensor at both ends of the upper surface of the block, and senses illuminance values for each of the plurality of preset regions.

In the method for controlling image output according to an embodiment of the present invention, digital signage is a housing of the digital signage. The process of controlling the projector to project an image to a plurality of preset areas respectively to a projector installed at a predetermined unit spaced apart at the bottom, and the digital signage is arranged in a straight line for each of the plurality of preset areas in the illuminance sensing device. A process of controlling the illuminance sensor to sense an illuminance value for each of the plurality of preset regions using an illuminance sensor, and the digital signage detects an illuminance change among the plurality of preset regions based on the illuminance value. The process of generating an illuminance change detection signal for an area, and the digital signage recognizes that an object is detected in the area where the illuminance change detection signal is detected, and the image projected to the area where the illuminance change detection signal is detected is mutually And controlling the digital signage display so that the active content is output to the digital signage display.

As described above, according to the present embodiment, when an object passing through an area corresponding to the image projected by the projector is detected while projecting an image from the projector installed on one side of the digital signage to the floor, the area passing the object and the corresponding area There is an effect of controlling the digital signage display so that an image interacting with the projected image is output to the digital signage display.

1 is a diagram showing an image output control system using digital signage according to the present embodiment.
2 and 3 are diagrams illustrating an illuminance sensing device installed in an area where a project image is projected according to the present embodiment.
4 is a diagram illustrating an operation when an object enters the middle of a projection area of a projector according to the present embodiment.
5 and 6 are diagrams for explaining an operation when an object enters from the right side of the projection area of the projector according to the present embodiment.
7 and 8 are diagrams for explaining an operation when an object enters from the left side of the projector projection area according to the present embodiment.
9, 10, 11, and 12 are diagrams for explaining an operation using an ultrasonic sensor according to the present embodiment.
13, 14, and 15 are diagrams for explaining a method of recognizing the height of an object using an ultrasonic sensor according to the present embodiment.
16 is a diagram for explaining brightness control according to a standby state according to the present embodiment.

Hereinafter, this embodiment will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an image output control system using digital signage according to the present embodiment.

An image output control system using digital signage according to the present embodiment includes a digital signage 110, a projector 112, and an illuminance sensing device 120. Components included in the image output control system using digital signage are not necessarily limited thereto.

The digital signage 110 includes a memory for storing a program or protocol for communicating with the illuminance sensing device 120 via a network, and a processor for calculating and controlling by executing the program.

The digital signage 110 includes a communication device such as a communication modem for performing communication with various devices or wired/wireless networks, a memory for storing various programs and data, a microprocessor for calculating and controlling by executing a program. It is a variety of devices. According to at least one embodiment, the memory is a computer such as a random access memory (RAM), a read only memory (ROM), a flash memory, an optical disk, a magnetic disk, a solid state disk (SSD), etc. It may be a readable recording/storing medium. According to at least one embodiment, the microprocessor may be programmed to selectively perform one or more operations and functions described in the specification. According to at least one embodiment, the microprocessor may be implemented entirely or partially as hardware such as an Application Specific Integrated Circuit (ASIC) having a specific configuration.

The auxiliary lighting unit 114 and the projector 112 are installed under the housing of the digital signage 110. The auxiliary lighting unit 114 is installed in a direction inclined with a slope having a preset angle. The digital signage 110 emits light in a direction inclined with a slope having a preset angle using the auxiliary lighting unit 114 so that the shadow direction of the object entering the preset area forms a constant direction. ) To control. The digital signage 110 adjusts the auxiliary lighting unit 114 at a preset angle so that the shadow direction of the object entering the preset area is adjusted.

The digital signage 110 controls the auxiliary lighting unit 114 to emit light having a preset amount of light toward a preset area (eg, a floor surface) using the auxiliary lighting unit 114. The digital signage 110 controls the projector 112 to project an image (eg, a text image) on a preset area (eg, a floor surface) using the projector 112.

Digital signage 110 is a housing Projecting images for each of a plurality of preset projector projection areas using the projectors 112 spaced apart in preset units at the bottom, it recognizes that an object is detected on the illuminance change detection area based on the illuminance change detection signal. The digital signage display 116 is controlled so that content that interacts with the image projected onto the projector projection area is output to the digital signage display 116.

The auxiliary lighting unit 114 emits light having a preset amount of light toward a preset projector projection area so that a change in illumination due to an object entering the preset area occurs. The auxiliary lighting unit 114 may be disposed between the projectors 112. The projector 112 allows one or more of colors and letters matched to identification information (at least one of individuals, companies, and advertisers) to be projected for each preset area (eg, floor surface).

The illuminance sensing device 120 includes a memory for storing a program or protocol for communicating with the digital signage 110 via a network, and a processor for calculating and controlling by executing the program.

The illuminance sensing device 120 is implemented in the form of a block on the bottom surface.

The illuminance sensing device 120 senses an illuminance value for each preset area by using the illuminance sensors 210 and 310 arranged in a straight line for each of a plurality of preset areas and transmits it to the digital signage 110. The digital signage 110 generates an illuminance change detection signal for a region in which an illuminance change is detected among preset regions based on an illuminance value for each preset region received from the illuminance sensing device 120.

The illuminance sensing device 120 may implement the illuminance sensor 210 at each corner of the upper surface of the block, or may implement the illuminance sensor 310 at both ends of the upper surface of the block. The illuminance sensing device 120 senses an illuminance amount of a preset area (eg, a floor surface) using the illuminance sensors 210 and 310.

The illuminance sensing device 120 uses the illuminance sensors 210 and 310 to generate an illuminance value obtained by sensing an amount of illuminance due to an object entering a preset area. The auxiliary lighting unit 114 of the digital signage 110 emits light in a tilted direction having a preset angle so that an object entering a preset area has a preset shadow direction.

The illuminance sensing device 120 generates an illuminance value by sensing the amount of illuminance due to a preset shadow of an object that enters a preset area by the auxiliary lighting unit 114 secondly using the illuminance sensors 210 and 310. . The digital signage 110 generates an illuminance change detection signal for an area in which an illuminance change is detected among preset regions based on an illuminance value received from the illuminance sensing device 120. The digital signage 110 detects whether an object exists in a preset area and a moving direction based on the illumination change detection signal.

The digital signage 110 checks whether an object passing through a preset area is stepping on a specific image among a plurality of images based on an illuminance value received from the illuminance sensing device 120.

The digital signage 110 generates an illuminance change detection signal for a specific area in which an illuminance change is detected among preset areas based on an illuminance value received from the illuminance sensing device 120, and matches the image projected to the specific area. The resulting content (eg, advertisement content) is output to the digital signage display 116 area.

For example, the digital signage 110 projects the letter'S' to a specific area among a plurality of preset areas using the projector 112.

The digital signage 110 projects the letter'S' when a change in illumination is detected in an area where the letter'S' is projected among a plurality of preset areas based on the illumination value received from the illumination sensing device 120. Generates an illuminance change detection signal for the selected area. The digital signage 110 digitally stores content (eg, company S advertisement) matched to the letter'S' based on a light intensity change detection signal for the area where the letter'S' is projected among a plurality of preset areas. It is output on the niji display 116.

2 and 3 are diagrams illustrating an illuminance sensing device installed in an area where a project image is projected according to the present embodiment.

The illuminance sensing device 120 is implemented in the form of a block attached or mounted on the bottom surface. The upper surface of the block surrounding the illuminance sensing device 120 has a material that allows the image of the projector 112 of the digital signage 110 to be projected.

As shown in FIG. 2, the illuminance sensing device 120 includes an upper left illuminance sensor 210-1 provided at the upper left corner, a lower left illuminance sensor 210-2 provided at the lower left corner, and an upper right corner It includes an upper right illuminance sensor 210-3 provided in, and a lower right illuminance sensor 210-4 provided at the lower right corner.

The illuminance sensing device 120 detects a change in illuminance from the upper left illuminance sensor 210-1 or the lower left illuminance sensor 210-2, and then the upper right illuminance sensor 210-3 or the lower right illuminance sensor 210- When a change in illuminance is detected from 4), it is transmitted to the digital signage 110 in the order of detection.

The digital signage 110 generates an illuminance detection order based on the order of illuminance values received from the illuminance sensing device 120. The digital signage 110 recognizes that the object has moved from left to right based on the illuminance detection order, so that content that interacts with the image projected to the area where the illuminance change is detected is output in the order of illuminance detection.

The illuminance sensing device 120 detects a change in illuminance from the upper right illuminance sensor 210-3 or the lower right illuminance sensor 210-4, and then the upper left illuminance sensor 210-1 or the lower left illuminance sensor 210- When a change in illuminance is detected from 2), it is transmitted to the digital signage 110 in the order of detection.

The digital signage 110 generates an illuminance detection order based on the order of illuminance values received from the illuminance sensing device 120. The digital signage 110 recognizes that the object has moved from right to left based on the illuminance detection order, so that content that interacts with the image projected to the area where the illuminance change is detected is output in the order of illuminance detection.

As shown in FIG. 3, the illuminance sensing device 120 includes a left illuminance sensor 310-1 provided at a left end and a right illuminance sensor 310-2 provided at a right end. The illuminance sensing device 120 detects the illuminance change from the left illuminance sensor 310-1 and then transmits the illuminance change to the digital signage 110 in the order of detection when the illuminance change is detected by the right illuminance sensor 310-2.

The digital signage 110 generates an illuminance detection order based on the order of illuminance values received from the illuminance sensing device 120. The digital signage 110 recognizes that the object has moved from left to right based on the illuminance detection order, so that content that interacts with the image projected to the area where the illuminance change is detected is output in the order of illuminance detection.

4 is a diagram illustrating an operation when an object enters the middle of a projection area of a projector according to the present embodiment.

The digital signage 110 includes the auxiliary lighting unit 114 in a tilted direction having a predetermined angle. The digital signage 110 emits light in a tilted direction having a preset angle using the auxiliary lighting unit 114, and the shadow direction of the object entering the preset area is formed in a preset direction. Let the shadow come in. The digital signage 110 adjusts the auxiliary lighting unit 114 at a preset angle so that the shadow direction of the object entering the preset area is adjusted.

The illuminance sensing device 120 uses the illuminance sensors 210 and 310 to generate an illuminance value obtained by sensing an illuminance amount due to an object entering a preset area and transmits it to the digital signage 110.

The illuminance sensing device 120 uses the illuminance sensors 210 and 310 to generate an illuminance amount by sensing the illuminance amount due to the shadow of an object entering a preset area by the auxiliary lighting unit 114, and It is transmitted to the nige 110. In other words, since the digital signage 110 emits light having a preset threshold value in a preset direction in a preset area using the auxiliary lighting unit 114, since the shadow direction of the object is known in advance, the illuminance sensing device Based on the illuminance value received from 120, the amount of illuminance change due to the shadow of the object may be sensed.

When a change in illuminance is detected from at least two or more of the plurality of illuminance sensors 210 and 310 installed on the upper surface of the block, the illuminance sensing device 120 transmits it to the digital signage 110 in the order of detection.

The digital signage 110 generates an illuminance detection order based on the order of illuminance values received from the illuminance sensing device 120. The digital signage 110 recognizes that the object has moved in a specific direction after stepping on a specific area among preset areas based on the order of detecting the illuminance.

The illuminance sensing device 120 first generates a first illuminance value obtained by sensing an amount of illuminance change by an object among the plurality of illuminance sensors 210 and 310 installed on the upper surface of the same block. The illuminance sensing device 120 generates a second illuminance value obtained by sensing an amount of illuminance change due to the shadow of the object on the same block. The illuminance sensing device 120 transmits the illuminance value sensing sequence to the digital signage 110. The digital signage 110 generates an illuminance detection order based on the order of illuminance values received from the illuminance sensing device 120.

The digital signage 110 detects an illuminance change from the lower left illuminance sensor 210-2 or the lower right illuminance sensor 210-4 based on the illuminance value received from the illuminance sensing device 120, or the upper left illuminance sensor When an illuminance change is detected from (210-1) or the upper right illuminance sensor 210-3, an illuminance change detection signal including the corresponding illuminance sensor position is generated.

As shown in FIG. 4, the digital signage 110 recognizes that the object has entered the middle of a preset area based on the location of the illuminance sensor that detects the change in illuminance, and interacts with the image projected to the corresponding region. Is displayed.

5 and 6 are diagrams for explaining an operation when an object enters from the right side of the projection area of the projector according to the present embodiment.

Among the auxiliary lighting units 114 installed at the bottom of the digital signage 110, the first auxiliary lighting unit emits light in a first direction corresponding to an angle inclined with a first inclination toward the first area.

The digital signage 110 detects a change in illuminance caused by the entry of an object in a state in which light is emitted in a first direction in a first area based on an illuminance value received from the illuminance sensing device 120 to detect a first illuminance change. Generate a signal. The digital signage 110 generates a first illuminance change detection signal for the first area based on the illuminance value received from the illuminance sensing device 120, and recognizes that an object has been detected in the first area. The first content that interacts with the image projected is output.

Among the auxiliary lighting units 114 installed at the bottom of the digital signage 110, the second auxiliary lighting unit emits light in a second direction corresponding to an angle inclined with a second inclination toward the second area. The digital signage 110 detects a change in illuminance caused by the entry of an object in a state in which light is emitted in a second direction in the second area based on the illuminance value received from the illuminance sensing device 120 to detect the second illuminance change. Generate a signal. The digital signage 110 generates a second illuminance change detection signal for the second area based on the illuminance value from the illuminance sensing device 120, recognizes that an object is detected on the second area, and projects it to the second area. The second content that interacts with the image to be displayed is output.

After receiving the first illumination change detection signal for the first area from the illumination sensing device 120, the digital signage 110 receives the second illumination change detection signal for the first area from the illumination sensor 120 before the preset timer is completed. When the illuminance change detection signal is received, it is determined that the object is first detected in the first area and then moved to the second area, and it is determined that the object has moved from the first area to the second area.

When the digital signage 110 generates a second illuminance change detection signal for the second area from the illuminance sensing device 120 and then generates a third illuminance change detection signal for the third area before the preset timer is completed. , It is determined that the object is first detected in the second area and then moved to the third area, and it is determined that the object has moved from the second area to the third area.

The digital signage 110 generates a third illuminance change detection signal for the third area based on the illuminance value received from the illuminance sensing device 120, and then from the illuminance sensing device 120 before the preset timer is completed. When the fourth illuminance change detection signal for the fourth area is generated, it is determined that the object is first detected in the third area and then moved to the fourth area, and it is determined that the object has moved from the third area to the fourth area.

The digital signage 110 generates an illuminance detection order based on the order of illuminance values received from the illuminance sensing device 120. The digital signage 110 generates an illumination change detection order for at least two or more of the plurality of illumination sensors 210 and 310 installed on the upper surface of the illumination sensing device 120 based on the illumination detection order. The digital signage 110 recognizes that an object has moved in a specific direction after stepping on a specific area among preset areas based on an illuminance detection order.

The illuminance sensing device 120 receives a certain amount of light emitted from the auxiliary lighting unit 114 installed at the bottom of the digital signage 110 using the illuminance sensors 210 and 310 installed on the upper surface, and then passes the object and An illuminance value obtained by sensing an illuminance amount according to an object shadow is generated and transmitted to the digital signage 110.

The digital signage 110 determines an illuminance detection order according to the order of illuminance values received from the illuminance sensing device 120. The digital signage 110 recognizes that the object has moved in a specific direction after stepping on a specific area among preset areas based on the order of detecting the illuminance.

The digital signage 110 moves from the side area to the center area (②③ area) when an object moving from the side area to the center area (②③ area) among preset areas based on the illumination detection order is detected. Recognize the object

The digital signage 110 recognizes the initial entry direction of the object to the side based on the order of detecting the illuminance, and recognizes that the object has moved from the side area to the central area (area ②③). The digital signage 110 is to be output on the area of the digital signage display 116 provided with content that interacts with the image projected to the side area and the center area (area ②③).

Digital signage 110 is illuminance when an object enters the side (left (position ①) → center (position ②), or right (position ④) → center (position ③)) Recognizes the entry direction of the object according to the detection order. The digital signage 110 combines or arranges and outputs contents in an order according to the entry direction and movement direction of the object.

If the digital signage 110 determines that the object has moved to the right (position ④) → the center (position ③, ②) based on the order of detecting the illuminance, the digital signage 110 continuously plays the contents in the order of the second contents after the third contents. After that, the hidden third cookie content is played.

The digital signage 110 determines that the object has moved to the right (position ④) → the center (position ③, ②) → the left (position ①) based on the order of detecting the illuminance, the third content, the second After the content is continuously played in the order of content and third content, the hidden fourth cookie content is played.

The digital signage 110 detects a change in illuminance of an object moving from the rightmost area (④ area) to the center area (②③ area) among preset areas based on the order of illuminance detection. ) To the central area (area ②③) is recognized. The digital signage 110 recognizes the entry direction of the object as the most right, based on the order of illuminance detection, and recognizes that the object has moved from the rightmost area (area ④) to the center area (area ②③). The digital signage 110 continuously reproduces the content in the order of the third content that interacts with the image projected to the center area (②③ area) after the fourth content that interacts with the image projected to the rightmost area (④ area). After that, the hidden third cookie content is played.

The digital signage 110 detects a change in illuminance of an object moving from the rightmost area (area ④) to the center area (area ②③) to the left area (area ①) among preset areas. Recognizes an object moving from (4) to the left (1) through the center (②③).

The digital signage 110 recognizes the entry direction of the object to the rightmost based on the order of illuminance detection, and the object goes from the rightmost area (④ area) to the left area (area ①) via the center area (②③ area). It is recognized as being moved.

The digital signage 110 includes a fourth content that interacts with an image projected to the rightmost area (area ④), a third content that interacts with an image projected to the center area (area ②③), and a right area of the second content. After the content is continuously played in the order of the first content that interacts with the projected image, the hidden fourth cookie content is played.

7 and 8 are diagrams for explaining an operation when an object enters from the left side of a projector projection area according to the present embodiment.

The digital signage 110 detects a change in illuminance of an object moving from the side area (① or ④ area) to the center area (②③ area) among preset areas based on the order of illuminance detection. ④ Area) to the central area (②③ area) is recognized.

The digital signage 110 recognizes the entrance direction of the object to the side based on the order of detecting the illuminance, and recognizes that the object has moved from the side area (① or ④ area) to the center area (②③ area).

The digital signage 110 is output on the area of the digital signage display 116 provided with content that interacts with the image projected to the side area (1 or 4 area) and the center area (2) 3 area.

If the digital signage 110 determines that the object has moved to the left (position ①) → the center (position ②, ③) based on the order of detecting the illuminance, the digital signage 110 continuously plays the contents in the order of the second contents after the first contents. After that, the hidden first cookie content is played.

The digital signage 110 determines that the object has moved to the left (position ①) → the center (position ②, ③) → right (position ④) based on the order of detecting the illuminance, the first content, the second Contents are continuously played in the order of content and third content, and then hidden second cookie content is played.

The digital signage 110 detects a change in illuminance of an object moving from the leftmost area (① area) to the center area (②③ area) among preset areas based on the illumination detection order, the leftmost area (① area). ) To the central area (area ②③) is recognized.

The digital signage 110 recognizes the entry direction of the object to the leftmost based on the order of detecting the illuminance, and recognizes that the object has moved from the leftmost area (area ①) to the center area (area ②③).

The digital signage 110 continuously reproduces the content in the order of the first content that interacts with the image projected to the leftmost area (area ①) and then the second content that interacts with the image projected to the center area (area ②③). After that, the hidden first cookie content is played.

The digital signage 110 detects a change in the illumination intensity of an object moving from the leftmost area (area ①) to the right area (area ②③) among the preset areas based on the illumination detection order. Objects moving from the left area (area ①) to the right area through the center area (area ②③) are recognized.

The digital signage 110 recognizes the entry direction of the object as the leftmost, based on the order of detecting the illuminance, and recognizes that the object has moved from the leftmost area (① area) to the right area through the center area (②③ area). do.

The digital signage 110 includes a first content that interacts with an image projected to the leftmost area (area ①), a second content that interacts with an image projected to the center area (area ②③), and a right area. The hidden second cookie content is played after the content is continuously played in the order of the fourth content that interacts with the projected image.

9, 10, 11, and 12 are diagrams for explaining an operation using an ultrasonic sensor according to the present embodiment.

9, the digital signage 110 is a housing The direction of entry of an object into a plurality of preset areas is recognized by using the ultrasonic sensors 910 spaced apart from each other in a preset unit at the bottom. The sensor value of the ultrasonic sensor 910 is transmitted to a processor (not shown) of the digital signage 110. The processor may receive a sensor value of the ultrasonic sensor 910 and recognize an object entry direction into a plurality of preset areas.

For example, when an object enters the digital signage 110 from the left direction, the digital signage 110 An object entry direction may be recognized in a plurality of preset areas using the ultrasonic sensor 910-1 installed at the bottom. That is, the digital signage 110 is a housing It is possible to recognize that the object enters from the left by using the ultrasonic sensor 910-1 installed at the bottom.

When the object enters the digital signage 110 from the center, the digital signage 110 An object entry direction may be recognized in a plurality of preset areas by using the ultrasonic sensor 910-2 installed at the bottom. That is, the digital signage 110 is a housing It is possible to recognize that the object enters from the center by using the ultrasonic sensor 910-2 installed at the bottom.

When the object enters the digital signage 110 from the right direction, the digital signage 110 An object entry direction may be recognized in a plurality of preset areas by using the ultrasonic sensor 910-3 installed at the bottom. That is, the digital signage 110 is a housing It is possible to recognize that the object enters from the right using the ultrasonic sensor 910-3 installed at the bottom.

Based on FIG. 10, it is assumed that the object enters from the right (4) of the preset areas (①②③④). The digital signage 110 detects that an object enters from the right (area ④) by using the ultrasonic sensor 910. According to an embodiment, in the digital signage 110, an object enters the area where the change in illumination is first detected among preset areas based on the illumination value received from the illumination sensing device 120-N located on the right (4 area). It can be perceived as one entry direction.

The object can be stopped in the desired area among the preset areas (①②③④).

When the object is to output content that interacts with an image projected to any one of the preset areas (①②③④area) (eg, ② area) on the digital signage display 116, shown in FIGS. As shown, the ④ area, ③ area, and ② area may be passed in order in the object entry direction (eg, right direction (④ area)) recognized around the digital signage 110.

When the object has finished moving to any one of the preset areas (①②③④) (eg, ②), the shadow of the object extends to the adjacent area (eg, ③) among the preset areas (①②③④). Can be. When the shadow of an object extends to an adjacent area (eg, area ③), the illumination sensing devices 120-1 to 120-N use the installed illumination sensors 210 and 310 in a preset area (area ① to area ④). Thus, the sensed illuminance value is transmitted to the digital signage 110. The illuminance sensing apparatuses 120-1 to 120-N detect the object by the ultrasonic sensor 910, and after a predetermined time elapses, the illuminance value sensed using the illuminance sensors 210 and 310 is digital signage 110. ).

The digital signage 110 receives an illuminance value corresponding to each preset area (area ① to area ④) from the illuminance sensing devices 120-1 to 120-N.

The digital signage 110 analyzes an illuminance value corresponding to each of the preset areas (areas ① to ④) and checks the area in which the change in illuminance is detected. The analysis refers to the following operation. The digital signage 110 does not detect changes in the illumination intensity (maintaining a high brightness value) corresponding to the ① area and ④ area among the preset areas (area ① to ④), and corresponds to the ② area and ③ area. A change in illuminance (change from a high brightness value to a low brightness value) is detected.

As shown in Fig. 12, when the object is located in any one of the preset areas (①②③④) (for example, ②), any one of the preset areas (①②③④) (for example, ② ), the illuminance value may be changed by the object, and the adjacent area (eg, area ③) may be changed by the shadow of the object. Therefore, when the digital signage 110 detects a change in illuminance (change from a high brightness value to a low brightness value) in any one of the preset areas (area ②) and an adjacent area (area ③), the change in illuminance is detected. It is not possible to accurately determine which area of the area the object exists.

The digital signage 110 is among a plurality of areas (areas ② and ③) in which a change in illuminance is detected based on the object entry direction (the direction of the ④ area where the first object first entered) recognized using the ultrasonic sensor 910. It determines where the area (area ②) farthest from the object entry direction is. An object exists in an area far away from the home (area ②). This is because the shadow is formed behind the object. The ③ area is closer to the entry direction than the ② area.

The digital signage 110 enters the object when there is an object entry direction (the direction of the area where the first object first entered ④) based on the illuminance value received from the illuminance sensing devices 120-1 to 120-N. Based on the direction, it is determined which of the plurality of areas (area ② and area ③) in which the change in illuminance is detected is the area farthest from the object entry direction (area ②). This is because an object exists in an area farthest from the object entry direction (area 2) among the plurality of areas (area ② and area ③) in which the change in illumination is detected based on the direction of the object entry. The digital signage 110 recognizes that the object is located in the determined furthest area (area ②). If the digital signage 110 has an object entry direction (the ④ area direction where the first object first entered) based on the illuminance value received from the illuminance sensing devices 120-1 to 120-N, It can be confirmed that the object exists in the area farthest from the object entry direction (area ①) among the plurality of areas (area ① and area ②) in which the change in illumination is detected based on the direction of entry into the object. The digital signage 110 recognizes that the object is located in the determined furthest area (area ②). The digital signage 110 controls the digital signage display 116 so that content that interacts with the image projected to the area (area ②) that is finally recognized as the location of the object is output to the digital signage display 116 do.

It is assumed that the object enters from the left (1 area) of the preset areas (①②③④). The digital signage 110 detects that an object enters from the left (area ①) using the ultrasonic sensor 910. According to an embodiment, in the digital signage 110, an object enters the area where the change in illumination is first detected among preset areas based on the illumination value received from the illumination sensing device 120-N located on the left (area ①). It can be perceived as one entry direction.

The object can be stopped in the desired area among the preset areas (①②③④).

When the object is to output content that interacts with an image projected to any one of the preset areas (①②③④area) (eg, ② area) on the digital signage display 116, shown in FIGS. As shown, it is possible to pass the ② area, the ③ area, and the ④ area in order from the object entry direction (eg, left direction (① area)) recognized around the digital signage 110.

When the object has finished moving to any one of the preset areas (①②③④) (eg, ②), the shadow of the object extends to the adjacent area (eg, ①) among the preset areas (①②③④). Can be. When the shadow of an object extends to an adjacent area (eg, area ①), the illumination sensing devices 120-1 to 120-N use the illumination sensors 210 and 310 installed in a preset area (area ① to area ④). Thus, the sensed illuminance value is transmitted to the digital signage 110. The illuminance sensing apparatuses 120-1 to 120-N detect the object by the ultrasonic sensor 910, and after a predetermined time elapses, the illuminance value sensed using the illuminance sensors 210 and 310 is digital signage 110. ).

The digital signage 110 receives an illuminance value corresponding to each preset area (area ① to area ④) from the illuminance sensing devices 120-1 to 120-N.

The digital signage 110 analyzes an illuminance value corresponding to each of the preset areas (areas ① to ④) and checks the area in which the change in illuminance is detected. The analysis refers to the following operation. The digital signage 110 does not detect changes in the illumination intensity (maintaining a high brightness value) corresponding to the ③ area and ④ area among the preset areas (area ① to ④), and corresponds to the area ① and ② A change in illuminance (change from a high brightness value to a low brightness value) is detected.

As shown in Fig. 12, when the object is located in any one of the preset areas (①②③④) (for example, ②), any one of the preset areas (①②③④) (for example, ② ), the illuminance value may be changed by the object, and the illuminance value may be changed by the shadow of the adjacent area (eg, area ①). Therefore, when the digital signage 110 detects a change in illuminance (a change from a high brightness value to a low brightness value) in any one of the preset areas (area ②) and an adjacent area (area ①), the change in illuminance is detected. It is not possible to accurately determine which area of the area the object exists.

The digital signage 110 is among a plurality of areas (areas ① and ②) in which the change in illumination has been detected based on the object entry direction (the direction of the area where the first object first entered ①) using the ultrasonic sensor 910. It determines where the area (area ②) farthest from the object entry direction is. The object exists in the farthest area (area ②). This is because the shadow is formed behind the object. The ① area is closer to the entry direction than the ② area.

The digital signage 110 enters the object when there is an object entry direction (the direction in which the first object first entered ① area) based on the illuminance value received from the illuminance sensing devices 120-1 to 120-N. Based on the direction, it is determined which of the plurality of areas (area ① and area ②) in which the change in illuminance is detected is the area farthest from the object entry direction (area ②). This is because the object exists in the area farthest from the object entry direction (area ②) among the plurality of areas (area ① and area ②) in which the change in illumination is detected based on the direction of object entry. The digital signage 110 recognizes that the object is located in the determined furthest area (area ②). The digital signage 110 controls the digital signage display 116 so that content that interacts with the image projected to the area (area ②) that is finally recognized as the location of the object is output to the digital signage display 116 do.

13, 14, and 15 are diagrams for explaining a method of recognizing an object height using an ultrasonic sensor according to the present embodiment.

The digital signage 110 senses the height of an object entering a preset area by additionally installing an ultrasonic sensor 910 on the side, bottom, or in a separate area. The digital signage 110 may sense the height of an object passing through a preset area by additionally installing an ultrasonic sensor 910 in units wider than a preset threshold distance.

The digital signage 110 determines whether a corresponding object is an adult or a child based on the height of the object sensed using the ultrasonic sensor 910. The digital signage 110 allows adult-specific content to be output when the identified object is an adult. The digital signage 110 enables child-specific content to be output when the identified object is a child.

The digital signage 110 senses the height of an object passing through a set area from an ultrasonic sensor installed in a unit wider than a preset threshold distance in a side, a bottom, or a separate area.

The digital signage 110 determines whether the object is an adult or a child based on the height of the object. The digital signage 110 outputs adult-specific video content when the determined object is identified as an adult. The digital signage 110 enables child-specific video content to be output when the determined object is identified as a child.

As shown in FIG. 13, the digital signage 110 calculates the height of an object using an ultrasonic sensor 910 installed at the bottom of the housing, and compares the average height value of the adult and the average child You can decide whether you are a child or not.

As shown in FIG. 10, the digital signage 110 calculates the height of an object passing through a preset area using an ultrasonic sensor 910 installed at the bottom of the housing.

As shown in FIGS. 14 and 15, the digital signage 110 may detect whether an object is an adult or a child by classifying and detecting a preset detection area in order to quickly detect whether an object is an adult or a child using the ultrasonic sensor 910.

The digital signage 110 may divide a preset detection area into an upper detection area and a lower detection area. The digital signage 110 divides the upper detection region and the lower detection region, transmits different ultrasonic waves, and receives a reflected signal reflected from each region to quickly determine whether an object is an adult or a child.

The digital signage 110 detects whether an object exists by first transmitting an ultrasound to a lower detection area in order to quickly distinguish whether an object is an adult or a child. When an object is detected in the lower detection area, the digital signage 110 detects the existence of the object by transmitting ultrasonic waves to the upper detection area. When the reflected signal is not received by transmitting ultrasonic waves to the upper detection area, the digital signage 110 determines the object detected in the lower detection area as a child. The digital signage 110 quickly determines that the object is an adult when the reflected signal is received by transmitting ultrasonic waves to the upper detection area. The digital signage 110 may use the ultrasonic sensor 910 to count the number of objects passing through a preset area and determine a child ratio among all objects.

16 is a diagram for explaining brightness control according to a standby state according to the present embodiment.

When it is recognized that the object does not exist in a preset area, the digital signage 110 operates in a standby state. The digital signage 110 outputs an image in which the screen output in the standby state is darkened (low brightness), and an image in which the brightness of the image output by the lower projector is brightly output is output to induce people to pass by. do.

In other words, the digital signage 110 controls the brightness value of the screen output to the area of the digital signage display 116 in the standby state to be less than or equal to a preset illuminance value. The digital signage 110 controls an image projected for each of a plurality of preset areas using the projector 112 so that the brightness value exceeds the preset illuminance value.

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 technological 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 interpreted as being included in the scope of the present embodiment.

110: digital signage
112: projector
114: auxiliary lighting unit
116: digital signage display
120: illuminance sensing device
210,310: illuminance sensor
910: ultrasonic sensor

Claims (5)

An illuminance sensing device for sensing and transmitting an illuminance value for each of the preset regions using an illuminance sensor arranged in a linear shape for each of a plurality of preset regions;
A projector for projecting images to the plurality of preset areas, respectively; And
When an illumination change detection signal is generated for an area in which illumination change is detected among the plurality of preset areas based on the illumination value, and when it is recognized that an object is detected in the area where the illumination change detection signal is detected, the illumination intensity And a digital signage controlling the digital signage display so that content that interacts with the image projected to the area where the change detection signal is detected is output to the digital signage display,
The digital signage,
And an auxiliary lighting unit configured to emit light having a preset amount of light toward the preset area so that a change in illuminance due to an object entering the preset area is generated, and the auxiliary lighting unit is disposed between the projectors,
At least one of a color and a letter matched to the identification information is projected for each preset area using the projector,
The illuminance sensing device,
Implemented in the form of a block on the bottom surface, the illumination sensor is implemented at each corner of the upper surface of the block, or the illumination sensor is implemented at both ends of the upper surface of the block to sense the illumination value for each of the preset areas. system. delete delete delete Digital signage is the housing of the digital signage Controlling the projector to project an image to a plurality of preset areas respectively to a projector installed spaced apart by a preset unit at the bottom;
The digital signage is a process of controlling the illuminance sensor to sense an illuminance value for each of the plurality of preset regions using an illuminance sensor arranged in a linear shape for each of the plurality of preset regions in an illuminance sensing device;
In the digital signage, generating an illuminance change detection signal for an area in which an illuminance change is detected among the plurality of preset regions based on the illuminance value; And
The digital signage recognizes that an object is detected in the area where the illumination change detection signal is detected, and the content interacts with the image projected to the area where the illumination change detection signal is detected is output to the digital signage display. Including the process of controlling the signage display,
The digital signage,
And an auxiliary lighting unit configured to emit light having a preset amount of light toward the preset area so that a change in illuminance due to an object entering the preset area is generated, and the auxiliary lighting unit is disposed between the projectors,
At least one of a color and a letter matched to the identification information is projected for each preset area using the projector,
The illuminance sensing device,
An image output control method in which the illuminance sensor is implemented on a bottom surface in the form of a block and implements the illuminance sensor at each corner of the upper surface of the block or the illuminance sensor at both ends of the upper surface of the block.

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