KR20110106769A - 3d camera systeam - Google Patents

Abstract

The 3D camera system of the present invention is a camera system for producing 3D video, and is configured to store an object or a landscape at the same time from various angles in front, back, left, right and up, and is configured to store the captured data in an electronic storage medium of the system of the present invention. It is a 3D camera system which is configured to view objects from various angles during playback, and the program is configured so that the user can immediately watch the video by simply selecting the front, rear, left and right of the photographed image on the monitor.

Description

3D camera system {3D camera systeam}

The 3D camera system of the present invention is a technology related to a camera system for producing an image, that is, simultaneously photographing an object or a place from various angles and storing the data in an electronic storage medium in real time, and during playback, real-time shooting videos of various angles. As a technology configured to be viewed from various angles, it is similar to a virtual reality video technology, commonly referred to as VR, but the technology of the present invention uses a video file that captures a scene of a real reality and a person or object of a reality from various angles simultaneously. The difference is that it plays

It is a technology that is developed according to the development of storage memory technology by using a digital video camera that is commonly known and storing data on electronic storage media such as hard disks and memory in real time. And background technologies are the driving technologies.

If you want to see the objects or scenery taken from various angles while watching a video, you must have multiple people to take real-time shots or install multiple cameras at the same time and control them simultaneously. It is cumbersome to install in many places, and if the surroundings are taken around the object from all directions, a problem occurs in which the photographer or the camera is photographed together with the photographing object. In addition, during the playback of the video viewers usually have to look at the unilaterally showing the image, there is a problem that it is not easy to see by changing the angle whenever the viewer needs the screen immediately on the monitor, the present invention is a video or video of the object or landscape It makes it possible to shoot easily, conveniently and accurately from various angles at the same time, and improves the disadvantage that the opposite photographer or camera is simultaneously taken when shooting an object from the front, rear, left, and right of the object when shooting an object. It aims to solve the video of various angles in real time by changing the scene instantly.

To solve the above problems, the simultaneous recording of digital video cameras capable of photographing various angles of the camera assembly unit cam1 provided in the dragonfly eye camera device (FIG. 2) and the rotating camera device (FIG. 4) of the present invention. With the configuration of the shooting, the problem of the simultaneous shooting and the rotation of the rotating camera device (Fig. 4) by solving the problem of unnecessary mutual shooting of the camera facing each other due to the rotation of the shooting object, and real-time various angle image realization technology during playback The problem of real-time viewing was solved by dividing the captured video files and configuring the software program of the electronic media which preloaded the neighboring files.

You can open a new chapter in a game or a movie. For example, instead of watching the actor's one-sided appearance when watching a video, you can select the angle that the viewer wants to watch from time to time and watch the actor's acting and movie from various angles. In addition, it provides a device and technology that can shoot, so that the world of stereoscopic virtual reality can be merged with the screen of the real world to create a new chapter for making various movies.

1 is a block diagram of a 3D camera system.
2: is an illustration of a dragonfly eye camera device of the 3D camera system
3 is a cross-sectional view of the dragonfly eye camera device of the 3D camera system
4 is a cross-sectional view of a rotating camera device of the 3D camera system.
5 is an exemplary view from above of one rotating camera device of a 3D camera system.
6 is an exemplary view of rotating three rotary camera device of the 3D camera system
7 is a side view of a rotating camera device of the 3D camera system
8 is an exemplary view of a 3D camera system.
9: FIG. 9 is an exemplary view from above of two rotary camera devices of a 3D camera system, which operates with a rotation and a remote controller.
10: FIG. 10 is a diagram illustrating a method of executing and viewing photographing files of a 3D camera system. In the monitor, file 18 is being executed and the peripheral files 10, 11, 12, 17, 19, 24, 25, and 26 are displayed. Preloaded file.

The 3D camera system of the present invention is composed of a photographing unit, a control unit, a system unit, and a display unit and an input unit (the system unit includes a data unit and a CPU) as shown in FIG. 1. As follows

1 is a block diagram of a 3D camera system for solving the above problems, and is connected to a photographing unit consisting of a digital video camera (cam10) capable of simultaneous shooting and connected to the controller to make a smooth connection with the system unit and the present invention Programmed software is installed to control the shooting device of the 3D camera system and to save and play back the recorded data in each file. A display unit configured to connect to the system unit, and a keyboard for inputting and selecting photographic data, driving cameras, controlling performance of each device of the present invention, and inputting and selecting options for driving an embedded program. It consists of an input section consisting of a mouse.

2 and 3 illustrate examples and cross-sectional views of a dragonfly eye camera device, and a camera assembly unit cam1 composed of a circular sphere and a digital camera configured to collect an object or a landscape at various angles by gathering it here. ) And a controller (cont1) for transmitting the photographed data to the system unit, and a system unit (com1) including a CPU and a data unit for storing and controlling data, respectively, connected to the system unit and an image displayed in connection with the display unit. Monitor (mon1) and each camera and data files configured to be viewed is configured to control by using a key and a mouse manually at the input unit, assuming that the real thing to shoot any object of the present invention dragonfly eye camera device to any indoor playground If you start to shoot on the floor or ceiling of the camera, the digital video camera (cam1) of each camera assembly (cam1) 10) They shoot various angles and landscapes at the same time in the installed place such as the playground or ceiling, and the data of these images are stored in the data part of the system part, that is, the electronic storage medium through the controller (cont1). These files are files that can be immediately reproduced and displayed or processed. The display unit can view the entire digital video camera of the photographing unit and is configured to enlarge and view images of individual cameras to facilitate the operation of the 3D camera system of the present invention. It is configured to be able to.

Figure 4 is a cross-sectional view of the rotating camera device of the present invention 3D camera system, the device is configured to shoot the front and rear, left and right of the object at the same time while rotating the object around when shooting the object to shoot the object to shoot Although already described above, when the camera is installed in the front, rear, left, and right of the object to shoot the shooting object to solve the disadvantage that the opposite camera is photographed to the camera facing each other as a rotating camera device of the present invention 3D camera system Is a columnar camera assembly (cam1) bent in an ellipse so as to be suitable for capturing the upper, lower, left, and right sides of the object to be photographed, and each digital video camera (cam10) provided therebetween at regular intervals from top to bottom. For regular illumination at top and bottom Site L10 and each digital video camera cam10 are connected to a device controller cont1 for smooth connection with the system unit com1, and the controller cont1 is connected to the system unit com1. com1) is programmed software, which is a program according to the driving needs of the 3D camera system of the present invention to control the shooting and shooting timing of the shooting unit, the rotation speed of the rotating camera device, lighting, etc. The control unit deletes and edits the display unit, and is configured to control the display method. The system unit com1 is configured to be connected to the monitor mon1 and the input unit. 3D camera system of the present invention is composed of a battery (ba1) which is provided integrally with the unit (com1) and is provided in the camera assembly unit to supply the necessary power The rotating camera device of FIG. 4 is configured to be driven, and a lower portion of the camera assembly cam1 is provided with a wheel r10 connected to the motor mo1 to run on a rail, and a rail r1 is naturally below the wheel. And a sensor (se10) is provided between the wheel and the bottom of the camera assembly (cam1), and is configured to recognize a position mark (se20) installed on the rail plate (p1). According to an option selected by the user, the sensor se10 detects the position mark se20 and captures the image at the corresponding position. For example, the position mark se20 is provided between the rails r1 at regular intervals. Displayed by a unique number or name, and configured to be photographed only on a unique position mark (se20) according to the option set by the user, the recorded image data digital files are assigned to each position mark (se20). It is stored in the 3D camera system storage device of the present invention under the name and configured to be divided into individual files, and is configured to adjust the speed of the camera assembly unit (cam1) of the rotating camera device of the present invention 3D camera system as needed. The camera assembly unit cam1 can be combined into a plurality of units such as two (FIG. 9) or three (FIG. 6) to improve the efficiency of shooting. That is, the camera assembly unit (cam1) is rotated once on the rail. Since the number of cuts compared to the time and the three camera sets (cam1) are rotated and the number of cuts compared to the time to shoot differ in the efficiency of the work and the naturalness of the operation of the screen, the camera set unit (cam1) It is configured to control the number and speed of the head.

For example, the rail plate p1 and the rail r1 of the rotating camera device (FIG. 4) of the present invention 3D camera system are installed around the bottom of the object to be photographed and rotated on the rail r1. The camera assembly (cam1) of the camera device (FIG. 4) is configured to shoot while rotating, the ON and OFF operation and the rotation speed of the camera assembly (cam1) by the input unit (key1) composed of a keyboard and a mouse, such as input of text data and data selection. It is configured to adjust the necessary matters for the overall operation of the rotating camera device (Fig. 4) and while the camera assembly unit cam1 rotates on the rail, the input unit (key1) is configured to be operated by the remote controller (remo1).

The method of viewing is to program the video files to be loaded together when playing each video file recorded, that is, to edit and process the stored data. By processing a plurality of data loading is made to the 3D video of the present invention, but in order to prevent fast loading and memory incubation, each video file is cut to play a small file, but the screened screen and Preloading is divided into preloaded peripheral files, and preloading is to read data into memory allocated in advance so that it can be screened at any time. For example, when a file No. 18 is being executed, the peripheral files 10, 11, 12, 17 , 19, 24, 25, and 26 files are preloaded so that they can be shown as main files at any time. Sex and size of the volume or file of a file that is pre-loaded in the process is configured to be able to adjust the set of built-in software is programmed. For example, in a fashion show, if a model is standing in front of the front and talking, the neighboring files of the model's front file, ie the side file and the side file, are the main file as the neighboring file. When the viewer selects the screen of the video to the left or right while watching the front, the video of the data is displayed according to the direction so that the viewer can view the back of the model at various angles in real time at any time. It is programmed to watch the video footage of the actual movement of the camera in three dimensions. In this process, the number of preloadings can be changed according to the state of the user's computer memory. Programmed to adjust If the viewer adjusts the number of video preloads to 8 at the same time, 8 videos of the main video files near the main video file that are being shown in the top, bottom, left, and 4 corners of the screen are preloaded at the same time. There is a feature that allows you to enjoy the 3D stereoscopic video of the 3D camera system of the present invention.

cam1: Camera Set Cam10: Digital Video Camera
com1: System part so1: Power socket
mon1: monitor h1: data part
L10: light cont1: controller
ba1: battery mo1: motor
r10: wheel r1: rail
se10: sensor se20: position mark
p1: rail plate remo1: remote control
key1: Input unit cpu1: CPU

Claims (5)

The 3D camera system of the present invention is a photographing unit consisting of digital video cameras (cam10) configured to enable simultaneous shooting and a controller connected to the system to form a smooth connection with the system unit connected to the photographing apparatus of the present invention 3D camera system A software program installed to control the data, and to store and play back the recorded data in each file, and having a data portion for storing data and a system portion composed of a CPU, a display portion configured for viewing images taken in connection thereto; and It is connected to the system unit and consists of an input unit consisting of a keyboard and a mouse for inputting text data and selecting data.
The dragonfly eye camera device (Fig. 2) of the present invention 3D camera system is a camera assembly unit (cam1) consisting of a circular sphere and the digital video cameras (cam10) and each configured to be gathered here to shoot an object or a landscape from various angles, respectively The controller (cont1) which transmits the captured data to the system unit and the data unit for storing and controlling the data and the system unit (com1) including the CPU and the image unit connected to it so that you can see the displayed image. The configured monitor mon1 and each camera and data file are characterized in that they are configured to be manually controlled at the input unit by using a key and a mouse. The rotating camera device (Fig. 4) of the present invention 3D camera system is configured to be bent in an ellipse so as to be able to simultaneously shoot the front, rear, left and right of the object while rotating the object when shooting the object of the rotating camera device (Fig. 4) The camera assembly unit cam1 and each of the digital video cameras cam10 provided at regular intervals from the top to the bottom thereof, and the light L10 provided at the top and the bottom at a constant interval therebetween, respectively. Digital video camera (cam10) is connected to the controller (cont1), the controller is connected to the system unit (com1), the system unit (com1) is configured to be connected to the monitor (mon1) and the input unit and the camera assembly (cam1) Rotating camera of the present invention 3D camera system is composed of a battery (ba1) is provided in the lower part of the system unit (com1) is integrally provided and also provided in the camera assembly to supply the necessary power Tooth (FIG. 4) is configured to be driven, and a lower portion of the camera assembly cam1 is provided with a wheel r10 connected to the motor mo1 to run on the rail, and a rail r1 is provided below the wheel. A sensor (se10) is provided at the bottom of the camera assembly unit (cam1) and configured to recognize a position mark (se20) installed on the rail plate (p1). se10) has a feature that is configured to recognize and shoot at the location. In the present invention, a method of viewing a 3D video of a 3D camera system is programmed to load a related file together when playing each recorded video file, and to play each video file as a method for preventing fast loading of video data and memory incubation. There is a feature configured in the system that is programmed to allow the user to programmatically adjust the capacity and loading quantity as needed. The camera assembly part cam1 of the rotation camera apparatus (FIG. 4) has a characteristic comprised so that it may be installed on the rail r1 in multiple numbers.

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