KR102378047B1 - Image reflector apparatus for face and pupil capture - Google Patents

Abstract

The present invention captures the eyes of a test taker as if they are facing each other or making eye contact during video conference or remote learning, and transmits them to the other party for eye contact, so that the concentration and efficiency of conversation can be increased. It relates to an image reflector device for To this end, the present invention provides a display panel for outputting a compressed image compressed according to a preset resolution upward, a cylinder lens disposed on the display panel and penetrating the output compressed image to correct the compressed image, a display panel from the bottom and Combined with the cylinder lens, curved so as to protrude forward toward the top, the reflective panel that reflects the corrected image forward and the reflective panel are disposed behind the reflective panel, the user's pupil gazing at the corrected image reflected from the reflective panel and a photographing module for photographing a face.

Description

IMAGE REFLECTOR APPARATUS FOR FACE AND PUPIL CAPTURE

The present invention relates to an image reflector device for capturing faces and pupils, and more particularly, captures the pupils of a test taker as if they are facing each other or making eye contact during a video conference or remote learning and transmits them to the other party for Eye contact It relates to an image reflector device for capturing faces and pupils that can increase the concentration and efficiency of conversations by allowing them to do so.

In general, two-way connections between two or more people that are far apart from each other are highly dependent on communication links and equipment that facilitates the required level of interaction.

Most of the cameras are installed above the monitor when doing video conferences or remote classes through the camera attached to the monitor or television (TV, television). When you don't make eye contact, your concentration in conversation is significantly lowered, and you lose your strength in conversation.

Meanwhile, in broadcasting companies, broadcasters use a machine called a teleprompter to stare at the camera, but it is difficult to generalize due to the size and price of the device. The teleprompter system is a technology that allows the person standing in front of the camera to see the image through the mirror by reflecting the image displayed on the monitor to the mirror.

In addition, in order for the camera to capture the pupil of the front while looking at the entire image provided on the display, it is necessary to check the position of the user's pupil, but it is practically difficult with the conventional image display method.

Korean Patent Application Laid-Open No. 10-2017-0039622 discloses an invisible light irradiation device that irradiates invisible light to the user's eyes, a non-visible light mirror that reflects invisible light and transmits visible light, a filter that transmits invisible light and does not transmit visible light, Disclosed is an apparatus for detecting a gaze that detects a gaze of a user's eyes, including an imaging device capable of imaging an image by invisible light.

Korean Patent Publication No. 10-2017-0039622 (2017.04.11, published)

Therefore, the present invention was derived to solve the above problems, and the present invention captures the pupils of the test takers as if they are facing each other or making eye contact during video conference or remote learning and transmits them to the other party for eye contact. An object of the present invention is to provide an image reflector device for capturing faces and pupils that can increase the concentration and efficiency of conversations by doing so.

Other objects of the present invention will become clearer through the examples described below.

An image reflector apparatus for capturing a face and eyes according to an aspect of the present invention includes: a display panel for outputting a compressed image compressed according to a preset resolution upward; a cylinder lens disposed on the display panel and transmitting the output compressed image to correct the compressed image; a reflective panel coupled to the display panel and the cylinder lens from the lower portion, curved to protrude forward toward the upper portion, and reflecting the corrected image forward; and a photographing module disposed at the rear of the reflective panel and photographing the eyes and face of the user gazing at the corrected image reflected from the reflective panel.

The image reflector apparatus for capturing a face and pupils according to the present invention may include one or more of the following embodiments.

For example, the display panel is movable in a forward and backward direction from the reflective panel and is connected to be rotatable based on the reflective panel. It can be rotated to change the output angle of the compressed image.

and a distance sensor disposed behind the reflective panel to measure a distance between the reflective panel and the user, wherein the display panel moves and rotates in length from the reflective panel according to the distance measured by the distance sensor to rotate the compressed image You can change the output angle of

The display panel may include a display film having a plurality of pixel regions having different resolutions and a driving means for adjusting the resolution by moving the display film.

The driving means may move the display film so that one of the plurality of pixel areas is opened upward according to a visual acuity input from a user or a user's visual acuity separately measured through an eyesight measuring device.

The display panel further comprises an illuminance sensor for measuring the brightness of the current space and a tracker sensor for measuring visual fatigue by tracking the pupil of the user, wherein the display panel outputs illuminance according to the measured brightness value for the current space and the visual fatigue. It may be characterized in that the variable.

The cylinder lens may be characterized in that one surface is flat and the other surface is convex to reduce refraction of the compressed image according to the distribution of the refraction angle of the other surface.

The cylinder lens may be characterized in that one surface is flat and the other surface is concave, so that the compressed image is refracted and enlarged according to the distribution of the refraction angle of the other surface.

The reflective panel includes a side frame forming both side surfaces, an upper frame connecting the side frames to form an upper surface, a rear frame connecting the rear end of the side frame and the rear end of the upper frame to form a rear surface, and the side frame It may be made of a front reflector that is curved by connecting the front end of the upper frame at the lower center of the .

The upper frame may be formed to be movable forward and backward in length according to the height of the user's face photographed through the photographing module, and may vary the bending angle of the front reflector as it moves forward and backward.

The photographing module may be provided in plurality and arranged at regular intervals, and may detect the position of the user's face and adjust the photographing angle based on a virtual photographing point centered on the position of the user's face.

The image reflector device for capturing the face and the pupil according to the present invention provides the following effects.

The present invention has the effect of increasing the concentration and efficiency of conversation by capturing the eyes of the test taker as if they were facing each other or making eye contact during video conference or remote learning and transmitting it to the other party for eye contact.

Effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a side perspective view illustrating an image reflector device for capturing a face and pupils according to an embodiment of the present invention.
2 is a perspective view from the other side illustrating an image reflector device for capturing a face and pupils according to an embodiment of the present invention.
3 is a diagram illustrating a convex cylinder lens of an image reflector device for capturing a face and a pupil according to an embodiment of the present invention.
4 is a side perspective view illustrating an image reflector device for capturing a face and pupils according to another embodiment of the present invention.
5 is a perspective view from the other side illustrating an image reflector device for capturing a face and pupils according to another embodiment of the present invention.
6 is a view illustrating a concave cylinder lens of an image reflector device for capturing a face and pupils according to another embodiment of the present invention.
7 is a diagram illustrating a display panel of an image reflector device for capturing a face and pupils according to an embodiment of the present invention.
8 is a diagram illustrating a rotatable display panel of an image reflector device for capturing a face and pupils according to an embodiment of the present invention.

Since the present invention can apply various transformations and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the present invention, if it is determined that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It is to be understood that this does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Terms such as first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings, and in the description with reference to the accompanying drawings, the same or corresponding components are given the same reference numbers regardless of reference numerals, and overlapping A description will be omitted.

Hereinafter, an image reflector apparatus for capturing a face and a pupil according to embodiments of the present invention will be described in detail with reference to FIGS. 1 to 8 .

1 is a side perspective view illustrating an image reflector device for capturing a face and pupils according to an embodiment of the present invention, and FIG. 2 is an image reflector device for capturing a face and pupils according to an embodiment of the present invention. It is the other side perspective view.

1 and 2, the image reflector device for capturing the face and pupil according to an embodiment of the present invention includes a display panel 110, a convex cylinder lens 120a, a reflective panel 130, and photographing. It includes a module 140 , and may further include a distance sensor 150 , an illuminance sensor 160 , and a tracker sensor 170 .

The display panel 110 is arranged to output an image upward, and outputs a compressed image compressed according to a preset resolution upward. The preset resolution may be one of a normal 4K (3840×2160) or 8K (7680×4320) resolution, but is not limited thereto. The compressed image may be provided after being vertically compressed based on an image output algorithm. The image output algorithm is a programmed procedure used to create a compressed image by compressing a normal image. It compresses the image according to the resolution of the screen to output the normal image, and inverts the image to output a vertically compressed image. can do. Here, due to the characteristics of the cylinder lens 120 , the image is refracted to the upper side of the reflective panel 130 from the cylinder lens 120 positioned in the front with respect to the reflective panel 120 , and the image is refracted to the rear with respect to the reflective panel 120 . Since the image is refracted to the lower side of the reflective panel 130 from the cylinder lens 120 positioned at , vertical inversion of the image can be performed.

For example, the display panel 110 may be manufactured as a stretch display, which collectively refers to a display panel having a very narrow width manufactured by horizontally cutting a general display panel.

Referring to FIG. 7 , the display panel 110 has one end connected to the lower side frame 131 of the reflective panel 130 and the other end connected to face the front where the user is located, and the length from the reflective panel 130 to the front and rear. The hinge H1 may be connected to be movable. In addition, the display panel 110 may be connected to the hinge H2 so as to be rotatable up and down with respect to the reflective panel 130 .

In one embodiment, the display panel 110 moves forward and backward lengthwise or rotates up and down with respect to the reflective panel 130 so that the vertical axis of the image is optimized for the refraction angle for enlargement or reduction of the cylinder lens 120 to rotate the cylinder lens 120 ) and the reflective panel 130 may be formed to allow angle adjustment according to the structure.

In another embodiment, the display panel 110 moves forward and backward lengthwise or rotates up and down from the reflective panel 130 to optimize the height of the user's face according to the position of the user's face photographed through the photographing module 140 to output a compressed image You can change the angle.

In another embodiment, the display panel 110 is the reflective panel 130 to provide an image optimized at the user's location according to the distance measured by the distance sensor 150 that measures the distance between the reflective panel 130 and the user. ), you can change the output angle of the compressed image by moving the length forward or backward or rotating it up and down.

Referring to FIG. 8 , the display panel 110 may provide images with different resolutions according to the user's eyesight so that the user can see a clearer or more enlarged image. To this end, the display panel 110 moves the display film 111 and the display film 111 having a plurality of pixel regions 111-1, 111-2, 111-3, and 111-4 having different resolutions. A driving means 112 for adjusting the resolution and a roller 113 for rotating the display film 111 under the control of the driving means 112 while wrapping the display film 111 on both sides of the display film 111 can be done

The driving means 112 includes a plurality of pixel pixel areas 111-1, 111-2, 111-3, and 111-4 according to a visual acuity input from a user or a user's visual acuity separately measured through an eyesight measuring device (not shown). ), the display film 111 may be moved by controlling the roller 113 so that one of them is opened upward in the output direction of the image. The driving means 112 may lower the resolution as the user's visual acuity is lower so that the output image is enlarged.

The display panel 110 varies the output illuminance of the image according to the brightness value for the current space measured through the illuminance sensor 160 to be described later and the visual fatigue level measured through the tracker sensor 170 to be described later, so that the user's eyes You can provide an image so as not to overdo it. For example, when the brightness value for the current space is high, the display panel 110 increases the output illuminance of the image so that the user can see the image, but reduces visual fatigue caused by invisibility of the image, and When the brightness value is low, the output illuminance of the image is lowered so that the user can see the image, but visual fatigue caused by the glare of the image can be reduced. For another example, when the user's visual fatigue is high, the display panel 110 may vary the output illuminance so that the output image does not become blurred or blur according to the brightness value of the current space.

The convex cylinder lens 120a is used to correct an image compressed by an optical effect, and may be manufactured as a convex lens that reduces as a lens with the same curvature as if a part of a circular cylinder was cut. That is, the convex cylinder lens 120a has a flat surface and a convex surface, so that the compressed image can be refracted and reduced according to the distribution of the refraction angle of the other surface.

The convex cylinder lens 120a is disposed on the display panel 110 , and transmits and refracts the compressed image output from the display panel 110 to correct the compressed image.

In one embodiment, the convex cylinder lens 120a has the same shape as the first convex cylinder lens 120a-1 and the second convex cylinder lens 120a-2 to match the refraction angle distribution with the enlarged image as shown in FIG. 3 . This can be diversified.

The reflective panel 130 reflects the corrected image from the convex cylinder lens 120a to the front where the user is located, and provides the image to correspond to the position of the user's face and pupil. The reflective panel 130 is coupled to the display panel 110 and the cylinder lens 120 at the bottom, and may include a side frame 131 , an upper frame 132 , a rear frame 133 , and a front reflector 134 . .

The side frames 131 form both sides of the reflective panel 130 and are arranged in pairs to have a width corresponding to the length direction of the display panel 110 and the convex cylinder lens 120a, and from the top to the top. It may be coupled with the frame 132 , coupled with the rear frame 133 from the rear, and coupled with the front reflector 134 from the front.

The upper frame 132 forms the upper surface of the reflective panel 130 while connecting the side frames 131, and is coupled to the rear frame 133 from the rear, and can be combined with the uppermost end of the front reflector 134 from the front. there is.

In one embodiment, the upper frame 132 is formed to be movable forward and backward lengthwise according to the height of the user's face photographed through the photographing module 140 to change the bending angle of the front reflector 134 . That is, when the height of the user's face is higher than the preset reference height, the upper frame 132 moves to the rear by gently varying the bending angle of the front reflector 134 to increase the height of the reflected image, and increase the height of the user's face. When is lower than the preset reference height, the height of the reflected image can be lowered by moving forward and rapidly changing the bending angle of the front reflector 134 .

The rear frame 133 connects the rear end of the side frame 131 and the rear end of the upper frame 132 to form a rear surface, and a photographing module 140 disposed between the side frame 131 and the front reflector 134 . , at least one of the distance sensor 150 and the tracker sensor 170 may be covered.

The front reflector 134 is curved by connecting the front end of the upper frame 132 at the lower center of the side frame 131 , and may reflect the corrected image forward while passing through the convex cylinder lens 120a. For example, the front reflector 134 may be formed of ultra-thin glass (UTG) to provide a variable curved shape.

In one embodiment, the front reflector 134 may be formed of a reflector made of a flexible material that can change a bending angle when the upper frame 132 moves forward and backward.

The photographing module 140 is disposed behind the reflective panel 130 , and photographs the eyes and face of a user who gazes at the corrected image reflected from the reflective panel 130 . A plurality of photographing modules 140 are provided and arranged at regular intervals, detect the location of the user's face in each of the plurality, determine a virtual photographing point centered on the location of the face, and take vertical, left, and right photographing based on the virtual photographing point. The angle can be adjusted.

In an embodiment, the photographing module 140 may provide the user's pupil images photographed in conjunction with the tracker sensor 170 to the tracker sensor 170 sequentially in time.

The distance sensor 150 is disposed at the rear or front of the reflective panel 130 to measure the distance between the reflective panel 130 and the user. The distance sensor 150 is illustrated as being disposed at the rear of the reflective panel 130 in the drawing, but is not limited thereto, and measures the distance between the reflective panel 130 and the user, such as the front and side of the reflective panel 130 . It can be placed anywhere as long as there is a space where it can be done.

The distance sensor 150 may be used to adjust the forward and backward length movement and vertical rotation of the display panel 110 based on the measured distance value, and may be implemented by, for example, an ultrasonic method or an infrared method.

The illuminance sensor 160 measures the brightness of the current space, and may be disposed on the side frame 131 or the upper frame 132 of the reflective panel 130 . Although the illuminance sensor 160 is illustrated as being disposed on the side of the reflective panel 130 in the drawing, it is not intended to be limited thereto, and a position capable of measuring the illuminance for the current space, such as the front and the upper portion of the reflective panel 130 . It can be placed anywhere.

The illuminance sensor 160 may be used to vary the illuminance of the image output from the display panel 110 based on the brightness value of the current space.

The tracker sensor 170 is a sensor for measuring visual fatigue by tracking the user's pupil, and may be disposed behind the reflective panel 130 . The tracker sensor 170 is shown to be disposed on the rear of the reflective panel 130 in the drawing, but is not intended to be limited thereto, and any position that can track the user's pupils, such as the front and side of the reflective panel 130, is provided. It can be placed anywhere.

The tracker sensor 170 may measure the user's visual fatigue based on the number of times the user closes their eyes, the temperature around the eyeballs, the number of saccades, and the pupil adjustment speed. The tracker sensor 170 may determine that the more the user closes his eyes, the higher the temperature around the eyeballs, the fewer the number of saccades (momentum), and the slower the pupil adjustment speed, the higher the visual fatigue.

4 is a side perspective view showing an image reflector device for capturing a face and pupils according to another embodiment of the present invention, and FIG. 5 is an image reflector device for capturing a face and pupils according to another embodiment of the present invention. It is a perspective view of the other side shown.

4 and 5, the image reflector device for capturing the face and pupil according to another embodiment of the present invention includes a display panel 110, a concave cylinder lens 120b, a reflective panel 130 and It includes a photographing module 140 , and may further include a distance sensor 150 , an illuminance sensor 160 , and a tracker sensor 170 .

An image reflector device for capturing faces and pupils according to another embodiment of the present invention includes a display panel 110 , a reflection panel 130 , a photographing module 140 , a distance sensor 150 , an illuminance sensor 160 , and a tracker Since the sensor 170 is the same as the configuration of the embodiment described with reference to FIGS. 1 and 2 , a detailed description will be omitted, and only the concave cylinder lens 120b will be described.

The concave cylinder lens 120b is used to correct an image compressed by an optical effect, and may be manufactured as a concave lens that enlarges as a lens with the same curvature as if a part of a circular cylinder was cut. That is, the concave cylinder lens 120b has a flat surface and a concave surface, so that the compressed image can be refracted and enlarged according to the distribution of the refraction angle of the other surface.

The concave cylinder lens 120b is disposed on the display panel 110 and transmits and refracts the compressed image output from the display panel 110 to correct the compressed image.

In one embodiment, the concave cylinder lens 120b has the same shape as the first concave cylinder lens 120b-1 and the second concave cylinder lens 120b-2 to match the refraction angle distribution with the projected image as shown in FIG. 6 . This can be diversified.

Although the above has been described with reference to one embodiment of the present invention, those of ordinary skill in the art can variously change the present invention within the scope not departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that modifications and variations are possible.

110: display panel
120a, 120b: cylinder lens
130: reflective panel
140: shooting module
150: distance sensor
160: light sensor
170: tracker sensor

Claims (11)

a stretch-type display panel for outputting a vertically compressed image upward according to a preset resolution;
a cylinder lens disposed on the display panel and penetrating the output compressed image to correct the compressed image;
Left and right side frames, an upper frame connecting the left and right side frames, and a plate-shaped front reflector bent to protrude further from the lower part to the upper part, the display panel at the lower part and a reflective panel to which the cylinder lens is coupled, and for forwardly reflecting the image corrected by the cylinder lens using the front reflector; and
It is disposed at the rear of the reflective panel, including a photographing module for photographing the user's pupils and face gazing at the corrected image reflected from the reflective panel
Image reflector device for face and pupil capture. According to claim 1,
The display panel is
It is connected to be movable in a lengthwise forward and backward direction from the reflective panel and rotatably based on the reflective panel,
Changing the output angle of the compressed image by moving and rotating the length from the reflective panel according to the position of the user's face photographed through the photographing module
Image reflector device for face and pupil capture. 3. The method of claim 2,
Further comprising a distance sensor disposed at the rear of the reflective panel to measure the distance between the reflective panel and the user,
The display panel is
Changing the output angle of the compressed image by moving and rotating the length from the reflective panel according to the distance measured by the distance sensor
Image reflector device for face and pupil capture. According to claim 1,
The display panel is
A display film comprising a plurality of pixel regions having different resolutions, and a driving means for adjusting the resolution by moving the display film.
Image reflector device for face and pupil capture. 5. The method of claim 4,
the driving means
moving the display film so that one of the plurality of pixel areas is opened upward according to a visual acuity input from a user or a user's visual acuity separately measured through a visual acuity measuring device
Image reflector device for face and pupil capture. According to claim 1,
Further comprising an illuminance sensor for measuring the brightness of the current space and a tracker sensor for measuring visual fatigue by tracking the user's pupil,
The display panel is
Characterized in that the output illuminance is varied according to the measured brightness value of the current space and the degree of visual fatigue.
Image reflector device for face and pupil capture. According to claim 1,
The cylinder lens
One side is flat and the other side is convex, characterized in that the compressed image is refracted and reduced according to the distribution of the refraction angle of the other side
Image reflector device for face and pupil capture. According to claim 1,
The cylinder lens
One surface is flat and the other surface is concave, characterized in that the compressed image is refracted and enlarged according to the distribution of the refraction angle of the other surface
Image reflector device for face and pupil capture. delete According to claim 1,
the upper frame
It is formed to be movable forward and backward according to the height of the user's face photographed through the photographing module, and characterized in that the bending angle of the front reflector is varied as it moves forward and backward.
Image reflector device for face and pupil capture. According to claim 1,
The photographing module is
It is provided with a plurality and is arranged at regular intervals, and it detects the position of the user's face and adjusts the shooting angle based on a virtual shooting point centered on the position of the face.
Image reflector device for face and pupil capture.

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