KR102321400B1 - Experience of environmental system in user visibility - Google Patents

Abstract

Disclosed is a user visibility experience environment system. To this end, in accordance with the present invention, the user visibility experience environment system comprises: a central server (100) with pre-stored prospect environment view; and a smartphone (200) linked to the central server (100) and having a separate application. When the application is executed, a window is formed to allow a user to select a region of information for which the user desires to view the prospect. When the relevant region information window is selected, a display unit of the smartphone (200) displays an angle controller for changing the angle of the prospect, and the user can rotate the prospect within a preset angle range through the angle controller, and control the left side and right side of the prospect environment view. The prospect environment view stored in the central server (100) in accordance with the angle controlled by the angle controller is displayed on the display unit. A first definition on the prospect environment view within a first angle range which is set based on a front side of the angle controller, a second definition on the prospect environment view within a preset second angle range, and a third definition on the prospect environment view within a preset third angle range are different from each other. The definition is lower in the order of the first definition, the second definition, and the third definition in accordance with the preset definition filter rate. The present invention aims to provide a user visibility experience environment system which is capable of providing a prospect environment view which makes the user feel like he or she is looking at the prospect in a real house.

Description

User visibility experience environment system {Experience of environmental system in user visibility}

The present invention relates to a user-visible experience environment system.

In apartments, collective buildings, shopping malls, and mixed-use buildings, modeled sculptures or model houses (sample houses) that are reduced to a specific ratio before actual construction is completed are provided to users, and users can use these sculptures or model houses to The shape, structure, and landscape environment, as well as the market environment around the building and surrounding buildings, will be identified.

In recent years, there is a trend that apartments and the like are becoming taller, and according to this trend, various and precise price ranges are formed according to the height of each floor of a high-rise building. have.

In the case of a low-rise building (apartment), although it can be visually confirmed to some extent from the flat location of the site, the user can objectively check the external landscape viewed through the living room or veranda window on the corresponding floor. There is no way other than going to the actual place.

Accordingly, an object of the present invention is to provide a system that provides a view environment view as if it were on the corresponding floor.

KR 10-1873681 (registered on June 26, 2018)

The present invention can provide a view environment view even if you do not actually go to the corresponding place or the apartment floor, and furthermore, a predetermined area is blurred like a real person's gaze, so-called filtering It provides a user's visual field experience environment system reflecting the real person's gaze area. has its purpose in

A user-visible experience environment system is introduced.

To this end, the present invention provides a central server 100 in which a view environment view is pre-stored; A smartphone 200 interlocked with the central server 100 and installed with a separate application; but, when the application is executed, a window is formed for the user to select the area information desired to view, and the corresponding area information window is formed. When selected, an angle adjuster capable of changing the angle of the view is displayed on the display unit of the smartphone 200 when selected, and the left and right of the view environment view can be adjusted by rotating it within an angle range set through the angle adjuster, and the angle The view environment view stored in the central server 100 according to the angle adjusted according to the angle adjustment of the adjuster is displayed on the display unit, and the view environment view within the first angle range set based on the front of the angle adjuster is displayed. characterized in that the first image quality for the view environment view within the set second angle range and the third image quality for the view environment view within the set third angle adjustment range are different from each other, It is characterized in that the picture quality gradually decreases according to the picture quality filter rate set in the order of picture quality, the second picture quality, and the third picture quality.

According to the present invention configured as described above, a person can see the view environment view even if he/she does not actually go to the corresponding place, and furthermore, a clear part and a non-clear view environment view are provided by actually reflecting the gaze of the person, so that the corresponding residence It can give the same effect as the actual view in the .

1 is a conceptual diagram of the overall configuration of the present invention;
FIG. 2 is a view showing that a window is formed through which a user can select local information desired to view a view when an application is executed;
3 is a view showing that a mouse shape, which is an example of an angle adjuster, is displayed on the display unit;
4A to 4C are diagrams showing that the image quality is gradually lowered away from the center through the present invention;
5 is a view reflecting the radius of movement of a person's neck using a mouse, which is an example of an angle adjuster;
6 is a view showing that the image quality filter rate can be adjusted through the application;
Figure 7a is a view in which separate upper and lower windows are formed to limit the vertical movement of the mouse to reflect the vertical radius of the person's neck movement;
7b and 7c are views of a view environment provided through the display unit at night in a state in which the vertical angle is adjusted;
8 is a view showing that the time can be adjusted when the application is executed to view the view environment view at a desired time;
9 shows a screen implemented through an application so that a view environment view can be viewed at each location even within an apartment, which is a specific location.

Hereinafter, with reference to the accompanying drawings, the user's visual field experience environment system according to the present invention will be described.

1 is a conceptual diagram of the overall configuration of the present invention.

As shown, the present invention includes a central server 100 and a smart phone 200 .

Of course, the user can view the desired view environment view through a separate application installed on the smartphone 200, but the view environment view can also be viewed in a web environment (general desktop) other than the app.

The central server 100 in which the view environment view is pre-stored is disclosed.

For example, this view environment view uses 20cm high-resolution aerial images and 5M-class DEM (Digital Elevation Model) information in WebGL environment to define 3D land similar to the real world, and 2D extrusion method for buildings including apartments on virtual land It can be overlaid and pre-stored in the central server 100, but it is not necessarily limited to this information, and if the user can see the view environment view of the desired area, it is pre-stored in the central server 100 through various information. can be

The smart phone 200 interlocked with the central server 100 and installed with a separate application is started.

As shown in FIG. 2 , when the application is executed, a window is formed through which the user can select the area information that the user wants to view.

For example, if you want to see the view environment view from the 7th floor of Building 206 of Sinchon Prugio located in Ahyeon Station, it is implemented so that the user can directly enter the area after clicking on the area information.

Of course, the central server 100 pre-stores the view environment view from the local information that the user wants to see at various angles.

That is, as will be described below, depending on the user's selection in a specific area, the left and right angles (left and right directions based on the horizontal line based on the viewing environment, left and right viewing environments considering the human gaze) and vertical angles (the displayed viewing environment) When adjusting the view looking up and the view looking down) based on the person's gaze based on the vertical line as the standard, the view environment unit according to each adjusted value is pre-stored, so the corresponding view environment through the smartphone 200 or the web view is provided.

When a corresponding local information window is selected, an angle adjuster capable of changing the angle of view is displayed on the display unit of the smartphone 200, and the left and right can be adjusted through the corresponding angle adjuster.

Up and down adjustments will be described below, but you can adjust the angle by clicking the up and down windows displayed above and below the mouse.

It is characterized in that the left and right of the view environment view can be adjusted by rotating it within the set angle range through the corresponding angle adjuster.

As an example, the mouse shape is displayed on the display unit in FIG. 3A, but it is not necessarily limited to this mouse shape. Of course, it is applicable to the present invention.

The rotation angle of the angle adjuster (the left and right sides of the view environment view to be viewed through this rotation angle are adjusted.) As shown in FIG. 3B, the rotation angle was limited to ^{75 o on both sides.}

For example, if the mouse is rotated to the right based on the mouse, the view environment view when looking to the right is also displayed on the display unit.

That is, even if the mouse shape on the actual smartphone 200 is rotated after touching it with a hand, it is limited to ^{left and right 75 o.}

The reason is to consider the gaze movement of the eyes through the actual neck movement of a person, and it is to implement it as if a real person sees the view in the corresponding place.

Of course, each view environment view is pre-stored in the central server 100 when changing left and right 75 ^{o in the corresponding place.}

The above angle of 75 ^o can be changed and, of course, the angle can be limited in consideration of the gaze direction of the average person.

The reason for adjusting the left and right angles using the mouse, that is, the angle adjuster, is that it is difficult to actually visit the apartment and check the view due to time problems when purchasing an apartment, for example, from the relevant local information. By implementing it as if you were looking at it, you can check the view even if you don't visit the apartment.

At this time, since the range of up and down motion (described below) and the range of left and right motion due to the movement of the person's neck are limited, the viewing environment unit provided by the present invention also makes the part that can be seen by a person on average clear, in consideration of this, The area beyond that part is intended to provide the user with a view of the environment as if they were actually viewing it by gradually lowering the sharpness.

In other words, a kind of filter is applied by dividing the range of viewing angles that clearly identifies objects based on the person's viewing angle and the range of angles that are increasingly less identifiable, and the upper, lower, left, and right environment views are obtained by replacing the range of movement of the person's neck with a mouse. is intended to provide.

The first image quality for the view environment view within the first angle range set based on the front of the angle adjuster, the second image quality for the view environment view within the set second angle range, and the set third angle adjustment range It is characterized in that the third image quality for the view environment view is different from each other.

That is, as shown in FIG. 5, a view environment view of general quality is provided within ^{30 o} of the central axis of the mouse-shaped angle adjuster, and in the ^{range of 30 o} or more and 60 ^o or less, the sharpness is 70% higher than that of the general image quality. A view environment view is provided, and it is characterized in that a view environment view with 70% lower clarity is provided again in the range of ^{60 o} or more and 90 ^o.

It is characterized in that the picture quality gradually decreases according to the picture quality filter rate set in the order of the 1st picture quality, 2nd picture quality, and 3rd picture quality. have.

4A is a schematic diagram showing a view environment view according to the picture quality filter rate set in the order of 1st picture quality, 2nd picture quality, and 3rd picture quality through the present invention, and FIG. 4b is 1st picture quality, 2nd picture quality, and 3rd picture quality in order The image quality is gradually lowered and it is displayed on the display unit of the smart phone 200 as if seeing the view in the actual place, and FIG. 4C is a photograph showing the view environment view at night.

In the same way, as shown in FIG. 7A , the angle is adjusted through the phase movement bar 400 for angle adjustment so that the upper angle can be adjusted when the application is executed, and the high movement bar for angle adjustment can be adjusted to adjust the lower angle ( 500) through which the angle is adjusted.

In the present invention, although the vertical angle adjustment range is ^{set between 0 0} and 60 ⁰ degrees, it is not necessarily limited thereto, and it is obvious that the angle can be changed in consideration of the average person's vertical angle in the eye gaze direction.

7B is a view environment view displayed on the display unit through an actual application after adjusting a predetermined angle upward, and FIG. 7C is a view environment view displayed on the display unit through an actual application after adjusting a predetermined angle downward. indicates

Furthermore, as shown in FIG. 6 , when the application is executed, a separate window is created on the display unit of the smartphone 200 for the user to set the image quality filter rate, and when the window is selected, a plurality of image quality filter rate windows are created for the user It is characterized in that the selection is possible.

For example, if the image quality filter rate is set to 70%, the second image quality is displayed 70% lower than the first image quality, and the third image quality is also displayed 70% lower than the second image quality.

The above description of the present invention considers the change of the left and right angles of the person's neck, and the actual person may move the neck up and down. In order to do this, a separate window for adjusting the vertical angle is created in the display unit, and the view environment view with the vertical angle adjusted through the window is displayed on the display unit.

In the case of top and bottom, the angle limitation may be limited to 0 ⁰ or more and 90 ^o or less, or may be limited to ^{0 0} or more and 60 ^o or less as shown in the figure.

In this case as well, as described above, the first image quality for the view environment view within the first angle range set based on the front of the angle adjuster, the second image quality for the view environment view within the set second angle range, and the set second image quality It is characterized in that the third image quality for the view environment view within the three angle adjustment range is different from each other, and the image quality is gradually lowered according to the image quality filter rate set in the order of the first image quality, the second image quality, and the third image quality. characterized by losing.

Meanwhile, in the central server 100, it is characterized in that the view environment view is pre-stored for each time zone.

That is, it is characterized in that the view environment view in the area set for 24 hours a day is pre-stored, and as shown in FIG. 8 , when the application is executed, a time shift bar 300 is displayed to view the view environment view by time zone. It is characterized in that the view environment view is displayed on the display unit according to the movement of the corresponding moving bar.

In some cases, the night view environment view is important when purchasing an apartment in the corresponding area. If the moving bar is moved, the view environment view of the corresponding area can be viewed through the display unit for each time period.

Furthermore, as shown in Fig. 9 when the application is executed, a window is formed in the local information where detailed local information including the living room, master bedroom, toilet, and roof can be clicked, and when the corresponding window is clicked, a pre-stored view from each detailed local information It is characterized in that the environment view is displayed on the display unit.

That is, even in the same apartment, the view environment view in the master bedroom, living room, and bathroom may be different. The view environment view in the area is also pre-stored in the central server 100. can be checked

100: central server 200: smartphone
300: time movement bar 400: phase movement bar
500: haidong bar

Claims (3)

The central server 100 in which the view environment view is pre-stored;
A smartphone 200 interlocked with the central server 100 and installed with a separate application;
When the application is executed, a window is formed for the user to select the area information desired to view the view,
When the corresponding local information window is selected, an angle adjuster capable of changing the angle of view is displayed on the display unit of the smartphone 200 so that the actual user's neck movement range can be replaced with the operation of the angle adjuster through the corresponding angle adjuster. It is characterized in that the left and right of the view environment view can be adjusted by rotating it within ^{75 o} left and right, which is a set angle range based on eye gaze movement through the actual user's neck movement.
According to the angle adjusted according to the angle adjustment of the angle adjuster, the view environment view stored in the central server 100 is linked and displayed on the display unit in real time,
The first image quality for the view environment view is provided within the ^{30 o} range, which is the first angle range set based on the central axis of the angle adjuster based on the eye gaze movement through the actual user's neck movement based on the front of the angle adjuster. ^{, in the range of 30 o} or more and 60 ^o or less, which is within the set second angular range based on the eye movement through the user's neck movement, the second image quality for the view environment view, which is relatively sharper than the first image quality, is 70%. ^{, in the range of 60 o} or more and 90 ^o within the set third angle adjustment range based on the eye movement through the actual user's neck movement, the third image quality for the view environment view, which is relatively sharper than the second image quality, is 70%. characterized by,
When running the application,
In the display unit of the smartphone 200, a separate window is created in which the user can set the quality filter rate, which can be selected from 0%, 50%, and 70%, and when the window is selected, the selected image quality filter rate is applied characterized by being
A separate window for adjusting the vertical angle is created in the display unit for vertical selection of the viewing environment view, and the viewing environment view with the vertical angle adjusted through the window is displayed on the display unit,
^{It is possible to adjust the angle set between 0 0} and 60 ⁰ based on the actual user's vertical eye gaze direction angle through the phase shift bar 400 for angle adjustment so that the phase angle can be adjusted,
It is characterized in that it is possible to adjust the angle set between ^{0 0} and 60 ⁰ based on the actual user's upper and lower eye gaze direction angle through the high movement bar 500 for angle adjustment so that the lower angle can be adjusted,
In the central server 100,
It is characterized in that the view environment view is pre-stored for each time zone,
It is characterized in that the time shift bar 300 for viewing the view environment view for each time zone is displayed, and the view environment view is displayed on the display unit according to the movement of the corresponding time shift bar 300,
A window is formed in the local information to click on detailed local information including living room, master bedroom, bathroom, and rooftop, and when the window is clicked, a pre-stored view environment view in each detailed local information is displayed on the display unit A user-visible experience environment system. delete delete

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