KR20150136715A - Method of realizing 3D pictures using the gyroscope embedded in smart devices - Google Patents

Abstract

The present invention relates to a method for composing a 3D picture using a gyroscope sensor installed inside a smart device. The method comprises the following steps: (a) operating a 3D object viewer in the smart device having the gyroscope sensor formed inside, and expressing a corresponding 3D object; (b) sensing, by the gyroscope sensor, tilting or the degree of a movement of the smart device; and (c) expressing, by the 3D object viewer, the corresponding 3D object with sensed data by the gyroscope sensor in three dimensions. With simply tilting a smartphone to see the provided 3D object in advance in a dimensional picture, the method can express a desired 3D picture as the gyroscope sensor installed inside the smartphone senses the same.

Description

TECHNICAL FIELD [0001] The present invention relates to a gyroscope sensor,

The present invention relates to a stereoscopic image forming method using a gyroscope sensor built in a smart device.

The smart device is a high-tech electronic device capable of operating programs and applications implemented in a desktop or a notebook by interworking with the Internet in addition to specific functions of electronic devices such as a phone function of a mobile phone and a screen display function of an electronic book terminal.

Korean Patent Laid-Open Publication No. 2013-60505 (published on Mar. 6, 2013, entitled: Mobile Terminal) proposed to stereoscopic image displayed on the display panel of such a smart device, as shown in FIG. 1, A touch screen including a panel for implementing stereoscopic vision; And a desktop setting function are activated, a plurality of viewpoints having at least one of depth and angle different from each other are selected based on a touch received through the touch screen on which a specific stereoscopic image is displayed, and the selected plurality of views And a controller for setting a plurality of stereoscopic images viewed from the specific stereoscopic image on each of the plurality of points as a wallpaper of a plurality of homescreen pages.

This conventional technique has the effect that a plurality of stereoscopic images generated when a specific stereoscopic image is viewed from each of a plurality of viewpoints having at least one of a depth and an angle different from each other can be set as a wallpaper of a plurality of home screen pages On the other hand, there is a disadvantage that the function is limited.

As shown in FIG. 2, Korean Patent Laid-Open Publication No. 2013-54765 discloses a mobile terminal having a stereoscopic display unit for outputting a stereoscopic image, Wherein the stereoscopic display unit comprises: a display device configured to periodically display left and right images; A refraction lens unit superimposed on the display device, the refraction lens unit being formed so that a refraction characteristic can be changed; And a control unit for controlling refraction characteristics of the refraction lens unit such that the refraction direction of transmitted light periodically changes so that the left and right images are directed in different directions.

Such a conventional technique realizes a stereoscopic display unit that divides the left and right images temporally and outputs them toward the left eye and the right eye, respectively, as the refractive characteristics of the refractive lens unit are periodically changed. In addition, although the optical performance of the stereoscopic display unit can be improved due to no reduction in resolution in the autostereoscopic system, there is a problem that the configuration is complicated and the cost is high.

Korean Patent Laid-Open Publication No. 2013-50465 (published on Mar. 5, 2015, entitled " Method and Apparatus for Transmitting Media Content to Provide Enhanced Media Contents Using Graphic Objects, Receiving Method and Apparatus ") As shown in FIG. 3, metadata including any one of broadcast content or video content, information representing each event of the broadcast content or video content, and graphic object related information associated with the event is received Wherein the event includes at least one of a specific scene, a specific situation, and a specific phenomenon of the broadcast content or the video content; Interpreting the received metadata; Designating the graphic object to correspond to each event of the broadcast content or the video content based on the analyzed metadata; And displaying the designated graphic object in accordance with each event when reproducing either the broadcast content or the moving image content. The method of claim 1, .

According to this conventional technique, it is possible to provide more interesting elements to broadcast or video viewers, and to provide a viewer with a more convenient way to broadcast and / There is an effect of helping to understand contents, but there is a fundamental problem that a stereoscopic screen can not be constituted by a user's choice.

An object of the present invention created to solve the above problems is to provide a stereoscopic screen construction method capable of expressing various stereoscopic surfaces of a 3D object displayed on a display panel by sensing tilting of a smart device with a gyroscope sensor .

The object of the present invention can be achieved by a method of operating a 3D object viewer in a smart device having a gyroscope sensor, (b) sensing a degree of tilting or moving of the smart device by the gyroscope sensor; (c) a stereoscopic image forming method using a gyroscope sensor built in a smart device, characterized in that the 3D object viewer displays the corresponding 3D object in a stereoscopic manner by sensing data by the gyroscope sensor have.

Preferably, the 3D object of the step (a) of the present invention has a still image or a moving picture file format,

The display effect of the 3D object may be at least one selected from three-dimensional screen, color change, glare (light reflection) according to virtual lighting, transparent or various texture expression, change in texture of metal material, change in brightness or saturation .

The present invention as described above has an effect that a gyroscope sensor built in a smart phone can detect a 3D stereoscopic image by displaying only a 3D object on a smart phone by simply tilting the smartphone to view the stereoscopic image of the user .

1 is a state diagram illustrating a mobile terminal according to an embodiment of the present invention.
2 is a graph showing a reaction rate of a mobile terminal according to another embodiment of the related art.
3 is a flowchart illustrating a media content transmission method for providing an enhanced media content using a graphic object according to another embodiment of the present invention.
4 is a perspective view illustrating a stereoscopic screen configuration using a gyroscope sensor built in a smart device according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

The present invention consists of the following steps.

(1) to produce a 3D object

Create 3D objects to be used in smart devices. Here, the smart device means a smart phone, a PMP, a notebook equipped with a touch panel, and an electronic device having a built-in gyroscope sensor.

It is noted in advance that the 3D object applied to the present invention is not only the still picture shown in FIG. 4, but also a moving picture screen. Here, when the 3D object is a moving image, it is preferable to selectively produce only a specific object.

In addition, the configuration format of the 3D object may be various such as jpg, tiff, mov, and the like.

Then, the 3D object can realize the following effects.

a) stereoscopic screen

b) color change

c) For jewels, sparkles (light reflection) due to virtual lighting, transparent or various texture expressions

d) Changes in the texture of metal materials

e) Change in brightness or saturation

f) The effect of a) to e)

(2) 3D object To drive viewers

The user manipulates the smart device to start the 3D object viewer. Here, the 3D object viewer is a program for displaying the produced 3D object of the present invention on the display panel of the smart device, and can be downloaded and installed on the web or installed in the smart device.

(3) Detecting tilting and displaying 3D object stereoscopic image

When the user tilts the smart device, the gyroscope sensor built in the smart device displays the 3D object corresponding to the degree of tilting or moving the corresponding 3D object. The stereoscopic image of the 3D object is realized in real time, and the texture change, color change, brightness or saturation change described above are expressed differently according to each 3D object.

(4) 3D object To disable the viewer

The user manipulates the smartphone to close the 3D object viewer.

Referring to FIG. 4, the present invention shows a state in which a user tilts left and right while driving a 3D object viewer using a smartphone 100 having a built-in gyroscope sensor. Here, the 3D object 200 of the first smartphone 100 is displayed in a plane, but is displayed as being transformed into a 3D object 200a (200b), which is a stereoscopic screen, according to tilting.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

100: Smartphone
200, 200a, 200b: 3D object

Claims (2)

(a) driving a 3D object viewer in a smart device having a gyroscope sensor to display a corresponding 3D object;
(b) sensing a degree of tilting or moving of the smart device by the gyroscope sensor;
(c) displaying the 3D object corresponding to the 3D object viewer in a three-dimensional manner by sensing data by the gyroscope sensor.
The method according to claim 1,
The 3D object in step (a) has a still image or a moving picture file format,
The display effect of the 3D object may be at least one selected from three-dimensional screen, color change, glare (light reflection) according to virtual lighting, transparent or various texture expression, change in texture of metal material, change in brightness or saturation A method of constructing a stereoscopic screen using a gyroscope sensor built in a smart device.

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