CN116847058A - Digital display device - Google Patents

Abstract

The invention relates to the technical field of digital display and discloses a digital display device, which comprises a display device main body, wherein a horizontal camera group is arranged in front of a screen of the display device main body, the top end of a central shaft of the horizontal camera group is arranged, and the joint of the center of the horizontal camera group and the horizontal camera group is a coordinate axis origin of the horizontal camera group and the coordinate axis origin.

Description

Digital display device

Technical Field

The invention relates to the technical field of digital display, in particular to a digital display device.

Background

The digital display device is used for displaying images and sounds through equipment for converting digital information into the digital information, is generally used for displaying a market or a exhibition area, and can be matched with an interactive function to display the digital display device for improving the display effect, so that a viewer can increase impression and improve the display effect through the display mode, and the display mode is more and more at present, and is also a preferable scheme for displaying in various industries.

However, in the present digital display device, interactivity is not imagined to be perfect, and there are problems of delay and inaccurate interaction positions, and after the viewer acts, because the information received by the interaction module in the digital display device is not accurate enough, even the interactive action performed by the viewer is not monitored, the interactivity is greatly hit for the viewer, and thus the interest of the viewer in displaying content is reduced.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, the present invention provides a digital display device to solve the above-mentioned problems in the prior art.

The invention provides the following technical scheme: the utility model provides a digital display device, includes the display device main part, be provided with horizontal camera group before the screen of display device main part, the top of the center pin of horizontal camera group sets up, the center handing-over department of horizontal camera group and is horizontal camera group and the coordinate axis origin, and wherein horizontal camera group is including the preceding camera A that is located display device main part department, back camera B, left camera C, right camera D, top camera Z, and the coordinate axis that preceding camera A established is forward.

A display method of a digital display device, comprising the following contents:

s1, firstly dividing a display area where a display device is located, dividing the area into X-axis and Y-axis and Z-axis respectively, dividing the area into interval differentiation marks, capturing the real-time display area, capturing the positions of the characters and animals in the display area, capturing motion change, arranging cameras in the real-time display area, arranging cameras in four corner areas of the real-time monitoring area, arranging top cameras at the top end of the monitoring area for the accuracy of the positions, marking the top cameras as a front camera A, a rear camera B, a left camera C, a right camera D and a top camera Z respectively according to the arrangement, taking the midpoint of the real-time monitoring area aligned by the cameras A as the set direction of a three-dimensional axis, the display device is used for simulating the environment image and the biological image in the camera image, modeling and capturing the change of the action biological image, so that the actual position simulation is performed, in the simulation, the 3D video played through the image of the display device is combined and overlapped with the simulated biological image position and the environment image, in the interaction of the display device, the change of the environment biological image is continuously simulated through the camera group, the change of the image is regulated according to the change of the biological image, the built-in computer of the display device can perform dynamic response according to the change of the angle action of the actual biological position, and meanwhile, the change value of the camera group is utilized, and the coordinate information generated by each camera after the simulation molding of the biological environment is as follows:

A ₀ (x _a0 ，z _a0 )-A ₁ (x _a1 ，z _a1 ) Wherein the coordinate information when a group of viewers enter the area is also provided by the front camera A ₁ (x ₀ ，z ₀ ) The height of the viewer is z ₀

B ₀ (x _b0 ，z _b0 )-B ₁ (x _b1 ，z _b1 )

C ₀ (y _c0 ，z _c0 )-C ₁ (y _c1 ，z _c1 )

D ₀ (y _d0 ，z _d0 )-D ₁ (y _d1 ，z _d1 )

Z ₀ (x _z0 ，y _z0 )-Z ₁ (x _z1 ，y _z1 )

Calculating the change of the action angle of the biological position, wherein the simulated change of the biological position and the angle is influenced by the change of a camera Z of a top camera, the change of the biological position and the action is influenced by a front camera A, a rear camera B, a left camera C and a right camera D of a four-way camera, the change of the biological position and the angle also comprises the change of the height, namely the simulated change of the biological width in the display device, the change of the height, comprising the change of the action of limbs and the position and the shape of the limbs;

s2, the steps of inputting the simulation result and calculating the simulation result in the computer program include the following steps of performing model simulation after overlapping the computer program, and marking the length, width and height of the simulated object as L respectively _{Long length} 、H _{High height} W is provided _{Wide width of} In order to reduce the operation pressure of the computer, multiple calculations of the simulated object are adopted, automatic sharpening processing is adopted through interval height calculation, a four-way camera and a top camera are combined to generate a uv map, automatic mapping of characters is carried out, a human model is enlarged and reduced after enlargement and reduction processing is carried out through the internal personal model of the computer, meanwhile, automatic mapping is carried out on the environmental object, mapping information is utilized, automatic matching processing of length and width is carried out, enlargement and reduction can be matched with the personal model, automatic mapping is carried out on the environmental object, and the automatic mapping is used for automatic overlapping, so that the numerical value is adjusted through the following formula calculation model when mapping is carried out:

in the real-time monitoring of the top camera Z, the angle of the organism in the flush direction of the operation axis is recorded, the value of the angle is alpha, and if the height value of the biological model is calculated, H for biological measurement can be known by combining _{High height} ：

Or (b)

Meanwhile, in order to determine the posture of the living being, the simulation posture is performed, so that the actual state of the living being can be obtained through calculation, namely Q is the state, an error value exists in the simulation posture, the error coefficient is set to be beta, and the calculation formula is

After the change

From the above ratios it will thus be possible to know the present state of the living being,

the horizontal direction information at the center of the camera Z for shooting and recording through the top camera is Z _{Wide width of} (x _{Width 0} ，y _{Width 0} ) Z is as follows _{Width 1} (x _{Width 1} ，y _{Width 1} )，

From the above can be from L _{Long length} W is provided _{Wide width of} To calculate the biological model biotype and to know the position of the organism by H _{Actual height} The actual biological height can be known, in this way, the objects in the display device, which are close to the display device, are subjected to computer cloud matching, then the same or similar objects are selected for uv mapping, and the uv mapping information utilizes L by utilizing the surrounding scene organisms according to the surrounding scene data information _{Long length} 、H _{Actual height} 、W _{Wide width of} The same calculation simulation is carried out, and the biological object close to the display device is automatically positioned at the position close to the display device for simulation display, so that the display device is fused with the environment, and when the L is confirmed _{Long length} 、H _{Actual height} 、W _{Wide width of} When the human body is in the built-in human body proportion, the display device does not display, but simulates according to the position, so that the display device perceives that the human body is in the position, and the limb movements of the human body are judged through the front camera A, the left camera C and the right camera D, so that the limb movements are transmitted to the human body model of the display device simulating the position, and the positions of the human faces in the human body model of the movements are transmitted to the display deviceMeanwhile, the display device can more conveniently close the angle watched by the human body, the display device can better enable the display device to display the content for watching by viewers, when the viewers are more, the most dense positions of the viewers are selected through simulating the positions of the viewers to serve as the central positions displayed by the display device, when the display device is interacted, the hands of interactors are automatically locked through the front camera A, the left camera C and the right camera D to carry out tracking interaction, and meanwhile, the interaction is carried out with the display content of the display device, the action of the interactors is automatically given to the simulated human body model, so that the same action is automatically carried out on the human body model in the display device, and the interaction is carried out with the display content.

Further, the human body model automatically makes the same action in the display device, so that the interaction with the display content means that when the interactor sends out the action, the human body model can make the same action, and the display device body overlaps the action of the content with the content by the computer.

Further, the L _{Long length} 、H _{Actual height} 、W _{Wide width of} The calculation of (1) comprises the steps of calculating a scene object close to the display device main body and carrying out uv mapping on the object at the display content of the later display device main body.

Further, the Q is used for reflecting the gesture of the viewer, and the calculated height value of the viewer entering the monitoring area is a normal value, namely Z of the coordinate axis Z axis identified by the camera a ₀ The numerical value is the normal height of the viewer, if the numerical value is 0<Q<1, the viewer is in a squatting state, and if q=1, the viewer is in a normal height, if Q>1, the viewer is in a raised state.

The invention has the technical effects and advantages that:

1. according to the invention, the display area where the display device is located is divided firstly, when the division is carried out, the area is divided into the X-axis, the Y-axis and the Z-axis respectively, the interval differentiation mark is carried out, meanwhile, the real-time display area capturing is carried out, the action change capturing is carried out after the figure animal position in the display area is captured, the camera arrangement is carried out in the real-time display area, and when the arrangement is carried out, the cameras are distributed and controlled in the four corner areas of the real-time monitoring area, wherein the top end of the monitoring area is further distributed and controlled for the accuracy of the position, the top end cameras can be respectively marked as a front camera A, a rear camera B, a left camera C, a right camera D and a top end camera Z according to the arrangement, and the midpoint of the real-time monitoring area aligned by the camera A is taken as the stipulated direction set up by the three-dimensional axis, so that the data conversion between the cameras can be carried out fastest in actual use, the generation of uv mapping in later period is facilitated, the display effect can be fused with the surrounding environment more accurately, and the display effect in the display process is increased.

2. According to the invention, automatic sharpening processing is adopted by the calculation of the height of the set section, the four-way camera and the overhead camera are combined to generate the uv map, the environment automatic map is carried out, the human body model is enlarged and reduced after the enlargement and reduction processing is carried out on the personal model in the computer, meanwhile, the environment object is automatically mapped, the map information is automatically matched with the personal model by utilizing the length, width and height, the enlargement and reduction can be matched with the personal model, the environment object can be automatically overlapped by using the automatic map, the action tracking speed of a later-stage observer can be accurately improved, namely, the observer can be accurately attached to the human body model only by tracking the position of the hand information, so that no abnormal action judgment occurs, the actions of the observer can be in a limited range, the range is a defined by the actions of the human body, the burden of the computer operation flow is reduced, the action tracking is increased, and the action capturing efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure and coordinate axes of the present invention.

Fig. 2 is a schematic diagram of the overall structure of the present invention.

FIG. 3 is a flow chart of the present invention.

The reference numerals are: 1. a display device body; 2. a horizontal camera group; 3. a top camera.

Detailed Description

The embodiments of the present invention will be described more fully hereinafter with reference to the accompanying drawings, in which the configuration of each structure described in the following embodiments is merely illustrative, and the digital display device according to the present invention is not limited to the configuration described in the following embodiments, but all other embodiments obtained by a person skilled in the art without making any creative effort are within the scope of protection of the present invention.

Referring to fig. 1 and 2, the invention provides a digital display device, which comprises a display device main body 1, wherein a horizontal camera group 2 is arranged in front of a screen of the display device main body 1, a top end of a central shaft of the horizontal camera group 2 is provided with a 3, a central joint of the horizontal camera groups 2 and 3 is a coordinate axis origin of the horizontal camera groups 2 and 3, wherein the horizontal camera group 2 comprises a front camera A, a rear camera B, a left camera C, a right camera D and a top-mounted top camera 3 camera Z which are positioned at the display device main body 1, and a coordinate axis established by the front camera A is a forward direction.

A display method of a digital display device, comprising the following contents:

s1, firstly dividing a display area where a display device is located, dividing the area into X-axis and Y-axis and Z-axis respectively, marking the interval differentiation of the display area, capturing the real-time display area, capturing the position of a character animal in the display area, capturing motion change, arranging cameras in the real-time display area, arranging cameras in four corner areas of the real-time monitoring area, arranging top cameras at the top end of the monitoring area for the accuracy of the position, marking the top cameras as a front camera A, a rear camera B, a left camera C, a right camera D and a top camera 3 camera Z according to the arrangement, taking the midpoint of the real-time monitoring area aligned by the cameras A as the set direction of a three-dimensional axis, the display device is used for simulating the environment image and the biological image in the camera image, modeling and capturing the change of the action biological image, so that the actual position simulation is performed, in the simulation, the 3D video played through the image of the display device is combined and overlapped with the simulated biological image position and the environment image, in the interaction of the display device, the change of the environment biological image is continuously simulated through the camera group, the change of the image is regulated according to the change of the biological image, the built-in computer of the display device can perform dynamic response according to the change of the angle action of the actual biological position, and meanwhile, the change value of the camera group is utilized, and the coordinate information generated by each camera after the simulation molding of the biological environment is as follows:

A ₀ (x _a0 ，z _a0 )-A ₁ (x _a1 ，z _a1 ) Wherein the coordinate information when a group of viewers enter the area is also provided by the front camera A ₁ (x ₀ ，z ₀ ) The height of the viewer is z ₀

B ₀ (x _b0 ，z _b0 )-B ₁ (x _b1 ，z _b1 )

C ₀ (y _c0 ，z _c0 )-C ₁ (y _c1 ，z _c1 )

D ₀ (y _d0 ，z _d0 )-D ₁ (y _d1 ，z _d1 )

Z ₀ (x _z0 ，y _z0 )-Z ₁ (x _z1 ，y _z1 )

Calculating the change of the action angle of the biological position, wherein the simulated change of the biological position and the angle is influenced by the change of a camera Z of the top camera 3, the change of the biological position and the action is influenced by a front camera A, a rear camera B, a left camera C and a right camera D of the four-way camera, the change of the biological position and the angle also comprises the change of the height, namely the simulated biological width change in the display device, the change of the height, the action change of limbs and the position and the shape of the limbs are captured;

s2, the step of calculating the input of the simulation program and the computer program comprises the following steps of simulating the model by overlapping the computer program, and then simulating the length of the objectThe width and height are respectively marked as L _{Long length} 、H _{High height} W is provided _{Wide width of} In order to reduce the operation pressure of the computer, multiple calculations of the simulated object are adopted, automatic sharpening processing is adopted through interval height calculation, a uv mapping is generated by combining a four-way camera and a top camera, environment automatic mapping is carried out, a human model is enlarged and reduced after enlargement and reduction processing is carried out through the internal personal model of the computer, meanwhile, the environment object is automatically mapped, mapping information is matched with the personal model by utilizing length-width automatic matching processing, the environment object is automatically overlapped by using the automatic mapping, and model adjustment values are calculated through the following formulas when the environment object mapping or the enlargement and reduction of the human model are carried out:

in the real-time monitoring of the top-mounted top-end camera 3 and the camera Z, the angle of the organism in the flush direction of the operation axis is recorded, the value of the angle is alpha, and if the height value of the biological model is calculated, H for biological measurement can be known by combining _{High height} ：

Or (b)

Meanwhile, in order to determine the posture of the living being, the simulation posture is performed, so that the actual state of the living being can be obtained through calculation, namely Q is the state, an error value exists in the simulation posture, the error coefficient is set to be beta, and the calculation formula is

After the change

From the above ratios it will thus be possible to know the present state of the living being,

the horizontal direction information at the center of the camera Z for shooting by the top camera 3 is Z _{Wide width of} (x _{Width 0} ，y _{Width 0} ) Z is as follows _{Width 1} (x _{Width 1} ，y _{Width 1} )，

From the above can be from L _{Long length} W is provided _{Wide width of} To calculate the biological model biotype and to know the position of the organism by H _{Actual height} The actual biological height can be known, in this way, the objects in the display device, which are close to the display device, are subjected to computer cloud matching, then the same or similar objects are selected for uv mapping, and the uv mapping information utilizes L by utilizing the surrounding scene organisms according to the surrounding scene data information _{Long length} 、H _{Actual height} 、W _{Wide width of} The same calculation simulation is carried out, and the biological object close to the display device is automatically positioned at the position close to the display device for simulation display, so that the display device is fused with the environment, and when the L is confirmed _{Long length} 、H _{Actual height} 、W _{Wide width of} When the human body is in proportion, the human body is not displayed, but is simulated according to the position of the human body, the display device perceives that the human body is in the position of the human body, and limb actions of the human body are judged through the front camera A, the left camera C and the right camera D, so that the human body model of the human body at the position is transmitted to the display device, the human face position is simulated in the human body model of the human body actions, and meanwhile, the display device can draw together the angle watched by the human body with the display content more conveniently located at the position, so that the display device can better display the content for a viewer to watch, and the viewer is moreWhen the display device is interacted, the hands of interactors are automatically locked through the front camera A, the left camera C and the right camera D to carry out tracking interaction, and meanwhile, the interaction is carried out with the display content of the display device, and the action of the interactors is automatically given to the simulated human model in the interaction, so that the same action is automatically carried out on the human model in the display device, and the interaction is carried out with the display content.

In this embodiment, the human body model automatically makes the same action in the display device, so that the interaction with the display content means that when the interactor sends out the action, the human body model will make the same action, and the display device main body 1 overlaps the action of the content with the content by the computer.

In the present embodiment, L _{Long length} 、H _{Actual height} 、W _{Wide width of} The calculation of (1) includes the calculation of scene objects near the display main body 1 and the uv mapping of objects at the display content of the display main body 1.

In this embodiment, Q is used to reflect the gesture of the viewer, where the gesture also has a normal value, i.e. the calculated height value of the viewer entering the monitoring area, which is the Z of the coordinate axis Z identified by the camera a ₀ The numerical value is the normal height of the viewer, if the numerical value is 0<Q<1, the viewer is in a squat state, and if q=1, the viewer is in a normal height, if Q>1, the viewer is in a raised state.

The working principle of the invention is as follows:

after the equipment is installed, the display device main body 1 with four cameras is installed in a required display area, in the display area, the front camera A of the display device main body 1 is installed at a stand of the display device main body 1, the display device main body 1 is started at the moment, meanwhile, the horizontal camera groups 2 and 3 are powered on, the front camera A rate works firstly at the moment, the height and the face position of a person in the display area are firstly obtained at work, the corresponding mannequin is carried out to simulate the height of the person of the viewer through the mannequin stored in a computer of the display device main body 1, after the determination, the horizontal camera group 2 is used for obtaining the map of the surrounding environment, and the 3 is responsible for obtaining the body width of the person of the viewer, the body width of the person and the object value of the environment, the corresponding human body simulation model is endowed with the numerical value, the horizontal camera groups 2 and 3 form a uv map, the display area close to the display device main body 1 and the environment is endowed with the simulation surrounding environment so as to be integrated into the surrounding environment, at the moment, the display device main body 1 displays the content to be displayed, the front camera A of the display device main body 1 works, the gesture action of a viewer is tracked, so that the display content of the display device main body 1 is visually adjusted, meanwhile, the human body model processed by the computer simulates the action of the viewer to carry out high-efficiency interaction on the display content, the watching effect of the viewer is guaranteed to be good, the interaction effect is good, meanwhile, the movement height of the viewer is observed through the horizontal camera group 2, the corresponding human body model is adjusted to vacate or squat down, and interaction is better.

Finally: the foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (5)

1. Digital display device, including display device main part (1), its characterized in that: be provided with horizontal camera group (2) before the screen of display device main part (1), the top of the center pin of horizontal camera group (2) sets up (3), the center handing-over department of horizontal camera group (2) and (3) is the coordinate axis origin of horizontal camera group (2) and (3), and wherein horizontal camera group (2) is including being located the preceding camera A of display device main part (1) department, back camera B, left camera C, right camera D, overhead top camera (3) camera Z, and the coordinate axis that former camera A established is forward.

2. A display method of a digital display device according to claim 1, comprising the following:

s1, firstly, dividing a display area where a display device is located, dividing the area into an X-axis and a Y-axis and a Z-axis respectively, capturing the area into different areas, capturing the area in real time, capturing the animal position of a person in the display area, capturing motion change, arranging cameras in the real time display area, arranging cameras in four corner areas of the real time monitoring area, arranging top cameras at the top of the monitoring area for the accuracy of the position, respectively marking the area as a front camera A, a rear camera B, a left camera C and a right camera D according to arrangement, arranging the top cameras (3) and Z cameras, capturing the midpoint of the real time monitoring area aligned by the cameras A as a three-dimensional axis, capturing the image of the person in the display area, modeling the environment image and the biological image change, simulating the actual position of the person in the real time display area, calculating the image, and the image change in the real time by the real time display area, and the biological image change, and the image in the real time display area, and the biological image change, and the image change, according to the real time, continuously calculating the motion change, and forming the image, and the image change, and the image in the real time, continuously and the real position.

A ₀ (x _a0 ，z _a0 )-A ₁ (x _a1 ，z _a1 ) Wherein the coordinate information when a group of viewers enter the area is also provided by the front camera A ₁ (x ₀ ，z ₀ ) The height of the viewer is z ₀

B ₀ (x _b0 ，z _b0 )-B ₁ (x _b1 ，z _b1 )

C ₀ (y _c0 ，z _c0 )-C ₁ (y _c1 ，z _c1 )

D ₀ (yd0，z _d0 )-D ₁ (y _d1 ，z _d1 )

Z ₀ (x _z0 ，y _z0 )-Z ₁ (x _z1 ，y _z1 )

Calculating the change of the action angle of the biological position, wherein the simulated change of the biological position and the angle is influenced by the change of a camera Z of a top camera (3), the change of the biological position and the action is influenced by a front camera A, a rear camera B, a left camera C and a right camera D of a four-way camera, the change of the biological position and the angle also comprises the change of the height, and the change of the body shape of the living being, namely the simulated biological width change, the change of the height, the action change of limbs, the position and the shape of the limbs are captured;

s2, the steps of inputting the simulation result and calculating the simulation result in the computer program include the following steps of performing model simulation after overlapping the computer program, and marking the length, width and height of the simulated object as L respectively _{Long length} 、H _{High height} W is provided _{Wide width of} In order to reduce the operation pressure of the computer, multiple calculations of the simulated object are adopted, automatic sharpening processing is adopted through interval height calculation, a four-way camera and a top camera are combined to generate a uv map, automatic mapping of characters is carried out, a human model is enlarged and reduced after enlargement and reduction processing is carried out through the internal personal model of the computer, meanwhile, automatic mapping is carried out on the environmental object, mapping information is utilized, automatic matching processing of length and width is carried out, enlargement and reduction can be matched with the personal model, automatic mapping is carried out on the environmental object, and the automatic mapping is used for automatic overlapping, so that the numerical value is adjusted through the following formula calculation model when mapping is carried out:

in the real-time monitoring of the top-mounted top camera (3) and the camera Z, the angle of the organism in the flush direction of the operation axis is recorded, the value of the angle is alpha, and if the height value of the biological model is calculated,then combine H that can be known to be biological _{High height} ：

Or (b)

Meanwhile, in order to determine the posture of the living being, the simulation posture is performed, so that the actual state of the living being can be obtained through calculation, namely Q is the state, an error value exists in the simulation posture, the error coefficient is set to be beta, and the calculation formula is

After the change

From the above ratios it will thus be possible to know the present state of the living being,

the horizontal direction information at the center of the camera Z for shooting through the top camera (3) is Z _{Wide width of} (x _{Width 0} ，y _{Width 0} ) Z is as follows _{Width 1} (x _{Width 1} ，y _{Width 1} )，

From the above can be from L _{Long length} W is provided _{Wide width of} To calculate the biological model biotype and to know the position of the organism by H _{Actual height} The actual biological height can be known, and in this way, the scene objects in the display device close to the display device can be calculatedMatching machine cloud, selecting the same or similar objects to perform uv mapping, and using surrounding scene organisms to utilize L according to surrounding scene data information _{Long length} 、H _{Actual height} 、W _{Wide width of} The same calculation simulation is carried out, and the biological object close to the display device is automatically positioned at the position close to the display device for simulation display, so that the display device is fused with the environment, and when the L is confirmed _{Long length} 、H _{Actual height} 、W _{Wide width of} The human body model is characterized in that the human body model is not displayed when the human body proportion is built in, the human body model is simulated according to the position of the human body model, the display device perceives that the human body is located, limb actions of a human body are judged through the front camera A, the left camera C and the right camera D, the human body model is transmitted to the display device to simulate the human body position of the human body model, the human face positions of the human body model are acted, meanwhile, the display device can draw in the angles watched by the human body, which is more convenient for the display content, of the human body model, can better enable the display device to display the content to be watched by viewers, when the viewers are more, the most dense positions of the viewers are selected through simulating the positions of the viewers, the central positions displayed by the display device are selected, when the display device is interacted, the hands of interacted are automatically locked through the front camera A, the left camera C and the right camera D are interacted, and simultaneously, the interaction is carried out with the display content of the display device, and the actions of the interacted person are endowed with the simulated human body model are automatically in the interaction, and the same action is automatically performed with the human body model in the display device.

3. A method of digitizing a display apparatus according to claim 1, wherein: the human body model is automatically made to make the same action in the display device, so that interaction with the display content means that when an interactor gives out actions, the human body model can make the same action, and the content is overlapped with the content through the display device main body (1) by the action of a computer.

4. A method of digitizing a display apparatus according to claim 1, wherein: the L is _{Long length} 、H _{Actual height} 、W _{Wide width of} The calculation of the display device comprises the steps of approaching a scene object at the display device main body (1), calculating and uv mapping of the object at the display content of the display device main body (1) at the later stage.

5. A method of digitizing a display apparatus according to claim 1, wherein: the Q is used for reflecting the gesture of the viewer, wherein the gesture also has a normal value, namely a height calculated value when the viewer enters a monitoring area, and the calculated value is Z of a coordinate axis Z axis identified by the camera A ₀ The numerical value is the normal height of the viewer, if the numerical value is 0<Q<1, the viewer is in a squatting state, and if q=1, the viewer is in a normal height, if Q>1, the viewer is in a raised state.