KR200362379Y1 - Graphic image to 3D image conversion device - Google Patents

Abstract

The present invention is to provide a device for converting a graphic image to a three-dimensional image.

That is, the present invention is applied to a computer, a TV, a projector, etc. to convert a graphic image into a three-dimensional image, an image input loop, an image control loop, an IR circuit for outputting a parity horizontal translation image, and a parity horizontal translation ( translation) A device that includes IR glasses for receiving images. In this case, the IR glasses block both eyes, and a CF lens is used to receive a horizontal translation image using the persistence of human vision, and the received image is synthesized in an observer's brain and represented as a 3D image.

Description

Graphic image to 3D image conversion device {Graphic image to 3D image conversion device}

The present invention relates to an apparatus for converting a graphic image of a video game or a movie into two horizontal translation images for displaying as a 3D picture, and more specifically, to convert a graphic into a 3D picture. Is a device that works by combining electronic technology and physical principles, and transfers pictures awarded by glasses to the human brain to view 3D images or video games through the persistence of vision. It is about.

Conventionally, an RB polarizing filter is used to generate a three-dimensional image by using a visual change causing a three-dimensional effect. Thanks to the rapid development of technology, the software is applied to obtain three-dimensional images, which are generated once and then viewed by the viewer.

To give a three-dimensional effect. However, this three-dimensional effect could not give a true three-dimensional effect, but only half of the effect.

A computer is introduced in FIG. 1 of the present invention, and any type of computer

100 displays only graphic 101. All high-tech producers have gone beyond human imagination to make computers that run faster and have larger capacities. The use of personal computers has become commonplace, and in everyday life, computers have become the tools to fully support writing documents, playing video games, navigating the Internet, making and watching movies. But technology allows infinite imagination. Theory begins with imagination, and the production of products creates more theories. There must be something beyond the limits of the product that was predicted in production. Before creating a product, the most important thing than cutting-edge technology and principle is to change the time of constant principle for customer's satisfaction and to induce customers into high-tech products. The present invention is a product derived from this imagination.

Therefore, the present inventors have devised the present invention to solve the problem of inadequate three-dimensional effects for generating three-dimensional images by using a visual change that causes three-dimensional effects using the existing RB polarization filter.

That is, in the present invention, image input loop, image control loop, parity horizontal translation

The present invention has been completed to provide a device for converting a graphic image into a three-dimensional image, including an IR circuit for outputting an image and an IR glasses for receiving a parity horizontal translation image. .

1 is a diagram illustrating that only a graphic may be displayed on a monitor screen of a computer system.

2 shows a preferred embodiment and image translation according to the present invention.

3 is a wiring diagram of the present invention.

Explanation of symbols used in main part of drawing

1: video input loop 2: video control loop

3: parity horizontal translation video output IR circuit 4: IR glasses

5: Image translation controller 11: Image shaping

11a: image shaping 12: splitter

12a: Splitter 14: Video Translation Oscillator

16: Translation Controller 21: Odd Field Image

21a: odd field image 22: even field image

23: time control 24: horizontal translation loop

25: phase detector

It should be noted that the present invention can be applied to computers, TVs, projectors, and the like. However, for convenience of explanation, in the description of the present invention will be described only for the computer.

An object of the present invention is to provide an apparatus for converting a graphic into a three-dimensional image. In order to achieve this goal, from the time of generating current using the physical principle, a special electronic principle causes a time lapse. And again, we use physical principles to derive horizontal translation. Receiving images from both observers' eyes produces these three-dimensional effects in the observer's brain. The device essentially includes an image input loop, an image control loop, an IR circuit for outputting a parity horizontal translation image, and an IR glasses for receiving a parity horizontal translation image. Here, an image input to the image input loop is divided into an image and a color, and the image is divided into an odd field and an even field by the image control loop. A time lapse controller generates an image by delaying an odd or even field image to be combined by a horizontal translation loop controller, and sends the image to a digital detector to obtain color. The video input loop splits the image into two parts, one of which translates the two-sided translation signal through an image-shaping unit and a splitter which connects the two-sided translation signal to the translation controller (which can be adjusted by the observer's image translation control knob). An image portion modified to generate a signal, and another portion is an image processed portion (an image received by IR glasses) output to an IR circuit that outputs a parity horizontally translated image through an image input loop. IR glasses, which operate on the optical principle, cause a masking effect on both eyes of the observer, and the persistence of vision allows the observer's brain to see the 3D image of the eye. do. The present invention can be a better entertainment by converting the graphic into a 3D image, can achieve complementary purposes by combining technology and life, and further develop a virtual scenario.

The above object and summary are only brief introductions of the present invention. In fully understanding the above and other objects of the present invention and the invention itself, all will become apparent to those skilled in the art through the description of the invention and claims and the interpretation of the accompanying drawings. Like numbers refer to like elements throughout the specification and drawings.

Many other advantages and features of the present invention will become apparent to those skilled in the art with reference to the detailed description and accompanying drawings which illustrate the construction of a preferred embodiment that includes the principles of the present invention.

The following descriptions are merely exemplary embodiments and are not intended to limit the scope, application, or configuration of the present invention, but are illustrated to facilitate realization of representative embodiments of the present invention. For the described embodiments, the function and arrangement of the components can be variously changed without departing from the scope of the present invention as set forth in the appended utility model claims.

2 and 3, a preferred embodiment of the present invention is essentially an image input loop 1, an image control loop 2, an IR circuit 3 for outputting a parity horizontal translation image. And IR glasses 4. The image that has passed through the waveform shaping circuit 11 is transmitted to the divider 12 under the control of the image input loop 1 to be divided into an odd image 21 and an even image 22. The divided image is transmitted to the phase detector 25 through a time lapse controller 23 to generate a horizontal translation loop 24, which is branched into two transmission lines by the image input loop 1. do. The first loop passes the divided image through the image shaping unit 11a, the divider 12a, the image translation oscillator 14B, and the adjusters 15 on both sides to adjust the position of the horizontal translation of the image. It is a loop for transmitting to the translation control unit 16. The second loop transmits the parity images 21, 22 to the IR glasses 4 via the parity horizontal translation image IR circuit 3.

In this embodiment, an appropriate parity image translation is given to the image to display the image on the screen. The image observer wears parity glasses to view the 3D image through the fast blocking function of the CF lens (liquid crystal film) of the IR glasses.

In this embodiment, the output of the image translation does not require software or other devices, and the IR glasses immediately output the output image regardless of the operating system whether the image is a clean image, a photo, a PC game, a movie or online. It may be suspicious. By the present invention, manipulation of graphics and three-dimensional images can be made quickly. In the present invention, an adjuster 5 is provided for adjusting an image translation according to each viewer's preference.

IR glasses are high-tech products of color liquid crystal film, and the operation frequency of liquid crystal film has recently reached 1000 times per second. During the transmission of the divided image, the IR receiver receiving the image provided in the liquid crystal film glasses generates a three-dimensional effect in real time.

As described in detail above, an apparatus for converting a graphic image provided by the present invention into a 3D image may obtain a number of effects as follows.

1. Electronic Principle: Image translation is performed by a display card mounted on a computer, and the image data is compressed on the display card to display the image data directly on the monitor. On the other hand, the operating system and the driving software of the display card displays a live image. This display card using the electronic principle makes the colors of the images more realistic and colorful.

2. Physical principle: During the transmission and reception of images, various processes such as image compression, image decompression, search and playback, reconstruction, and reduction occur. In order to display a real image, a lot of processing is required. However, all these processes work on the basis of photon phenomena due to various intermechanisms of voltage and current. Voltage and current determine video transmission, and the resulting video voltage values determine the quality of the video and audio signals. By applying physical principles, the direction of voltage and current changes or decreases, producing different images without changing color and sound during transmission. However, because they change through physical change and electronic transmission, the next image that has been specially processed is immediately shrunk to provide another picture. These pictures are then received by the viewer to provide a three-dimensional image in real time.

3. Physiological Principle: Each person has different physiological functions. However, the differences in responses and responses are logically not so different for each individual. Thus, once information is received in one of human sight, hearing, or touch, it is first processed on both sides of the human brain until it responds. There is some delay in the response process in the brain. The time of this delay is very short. The faster the human brain processes, the faster the response. But no matter how quick the response, there is a delay. This delay time together depends on the physical and electronic principles with which the present invention reacts to display the various pictures.

4. Persistence of vision: When we see an object, we see it with both eyes. At this time, because the visual or viewing position is different between the two eyes, we see the image of the object after the left and right images of the object are merged in the brain. Thus, by applying this "persistence of vision" to an image transmitted through a receiver specially designed to reach the human eye, the viewer sees a three-dimensional image.

5. Image receiver (glasses): CF (liquid crystal film), a high-tech product, realizes the persistence of human vision through electronic control. By using CF's fast blocking function, we can get the speed of several times the response speed of human. Therefore, by receiving the 3D image converted by the present invention, the observer does not feel any inconvenience at all, instead, the viewer can enjoy clearer, more lifelike colors and clear 3D images.

6. Hierarchical operation: Through image transmission, images are retrieved and compressed by various transmission software. And when received and decompressed by the display card, noise is removed to obtain real-life images and colors, and by an IR receiver (that is, glasses expressing various three-dimensional images using physiological principles and visual persistence). Before it is received, a physics principle is used to cause a time lapse.

7. After several transmissions, the image is compressed, decompressed and delivered to the viewer. The physiological response of the observer is important in all processes of image transmission, where the image is received by the observer's eye and is represented by a complex response in the brain, which is the content of the program broadcast felt by the observer. It is one of the mechanisms. Electronic transmission is operated by a combination of physical and mechanical principles. Once the image is presented to the viewer through any indicator, the eye's response rate is 60 frames per second, or 30 frames per eye. On the other hand, both eyes receiving images from different perspectives and directions combine the images within the field of view of both eyes.

8. When the observer uses the right eye to see the right direction and the left eye to see the left side through the blocking function of the liquid crystal film glasses, all pictures in the field of view are static or dynamic in three dimensions. It becomes visible. In general, the image to be transmitted is in the form of a graphic so that it is a shot in its creation. Thus, the image appears as a graphic. However, if the image is translated in a high speed during horizontal translation, and won through special glasses and the persistence of human vision, it is shown in three dimensions.

9. When the same image is horizontally translated, the three-dimensional image is visible through electronic transmission and physical principles. The same is true for movies and PC games.

10. When an image is received and transmitted to the observer's brain, the image is first received at a certain angle to the observer's eye before being delivered to both sides of the brain to analyze and combine to be visible through the lens. In the process of image delivery, the persistence of vision will cause the image to feel up and down in some cases. This feeling is a typical physiological reaction caused by the vision of an observer looking at a three-dimensional picture.

As technology advances day by day, technology is becoming a general topic in how to improve the standard of living for individuals and how to develop new products for it. This allows everyone to enjoy the benefits of high tech.

For all modern products, including the rapidly developing electronic, optical, digital and biotech products, our core for our purpose and technology development is to combine science and biotechnology. The present invention combines technology with biotechnology to provide a completely different virtual scenario for extraordinary extraordinary color in everyday life. By transforming all animations and games to IR viewers in three dimensions, they provide leisure and labor to lead a more flexible life, which is truly a colorful innovation.

Each or more than one of the components described above may be usefully applied to other types of methods than those described above.

While the novel features of the present invention have been described and pointed out in the appended claims, they are not intended to limit these descriptions. Because various omissions, modifications, substitutions and modifications of the form and details of the introduced device and its operation can be carried out by those skilled in the art without departing from the spirit of the present invention.

Claims (3)

An apparatus for converting a graphic image into a three-dimensional image, comprising an image input loop, an image control loop, an IR circuit for outputting a parity horizontal translation image, and an IR glasses for receiving a parity horizontal translation image. The image is transmitted from the waveform shaping unit to the divider through the image input loop; Split into RGB colors before being sent to an image control loop and separated into odd and even field images; This divided image is processed by a horizontal translation loop generated by a time lapse controller and sent to a phase detector; Branched into two transmission lines through the video input loop; The image divided in the first loop of the transmission line is transmitted to the splitter through the image waveform shaping unit and sent to the translation controller through the image translation oscillator to form a proper translation position of both sides by the two side controllers; Images of odd and even fields are transmitted from the second loop to the IR circuit through an image input loop; An image signal transmitted through the IR circuit is picked up by the IR glasses; Apparatus characterized in that the image is displayed as a three-dimensional image by using a block function based on the optical principle of the IR glasses and the persistence of the observer's physiological vision in the observer's brain. 2. The apparatus of claim 1, further comprising an image translation controller that facilitates control of image translation in accordance with the viewer's personal preferences. A device according to claim 1, wherein a liquid crystal film (CF) is used for said IR glasses.