WO2015000050A1 - Rays tridimensional capture camcorder by means of moving windows or by means several conventional cameras (2d); real image producing television by moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; process to obtain said devices - Google Patents

Rays tridimensional capture camcorder by means of moving windows or by means several conventional cameras (2d); real image producing television by moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; process to obtain said devices Download PDF

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Publication number
WO2015000050A1
WO2015000050A1 PCT/BR2014/000222 BR2014000222W WO2015000050A1 WO 2015000050 A1 WO2015000050 A1 WO 2015000050A1 BR 2014000222 W BR2014000222 W BR 2014000222W WO 2015000050 A1 WO2015000050 A1 WO 2015000050A1
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WO
WIPO (PCT)
Prior art keywords
rays
moving windows
real image
windows
television
Prior art date
Application number
PCT/BR2014/000222
Other languages
French (fr)
Inventor
Roberto MASSARU AMEMIYA
Original Assignee
Massaru Amemiya Roberto
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Massaru Amemiya Roberto filed Critical Massaru Amemiya Roberto
Publication of WO2015000050A1 publication Critical patent/WO2015000050A1/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N13/00Stereoscopic video systems; Multi-view video systems; Details thereof
    • H04N13/20Image signal generators
    • H04N13/204Image signal generators using stereoscopic image cameras
    • H04N13/239Image signal generators using stereoscopic image cameras using two 2D image sensors having a relative position equal to or related to the interocular distance

Definitions

  • the present invention refers to a camcorder (also referred to as camera) having a tridimensional capture of rays originated from a real object in the field of vision by moving windows or by means of conventional bi-dimensional cameras (2D).
  • the invention also refers to a real image producing television by moving windows.
  • the real image camera captures rays issued by each point in the real object in the field of vision, said rays passing through moving orifice windows formed in a liquid crystal or disposed over a perforated surface; or by means of several conventional cameras disposed over a surface that will capture rays originated from a field of vision, each conventional camera corresponding to a window.
  • the real image television comprises an image reproducing device (2D) leveled with moving orifice windows formed on a crystal or disposed in a perforated moving surface. Different positions of each moving window in the liquid crystal or in the moving perforated surface or by means of conventional camera (2D) provide for different angles of rays capture in the field of vision.
  • 2D image reproducing device
  • Tridimensional television or cinema is a composition of two images that are perceived by each eye imparting a depth impression. Holography in its turn is an impression of multiple images in a flat surface. A mirror in its turn reflects real images.
  • the aforesaid problems are solved by this current invention.
  • the real image obtained by this current invention is provided with a continuous movement perception which can be observed by several angles and transmission and recording by apparatuses are possible. Additionally conventional cameras (2D) may be used to capture rays from field of vision when required.
  • the invention comprises tridimensional rays capture camera by means of moving windows or by means of several conventional cameras (2D); real image producing television by means of moving windows; and moving windows formed with liquid crystals or disposed on a moving perforated surface.
  • the camera captures different angles of rays by means of sequence opening windows formed throughout the liquid crystal surface in different moments, for example, sequence windows formation from right to left side, from up to down running throughout the liquid crystal surface. Each window will only allow passage of field of vision rays into just one angle. Several windows capture several angles of said field of vision.
  • These windows can be made in a moving perforated surface in which perforations of different positions from up and down in the camera surface and with right to left side movement in such a way that each of said windows will run through a line and all windows run throughout said surface.
  • the rays capture camera by conventional cameras (2D) operates each camera as a window. This type of rays capture camera may be used when the field of vision is wide. Conventional cameras (2D) disposition may be made on a flat, curved, concave or convex surface.
  • This window continuously captures an image of an object determined angle in the field of vision. A different capturing time should be set for each window and an image.
  • This said setting of time and window will be used in the moment of real image reproduction by said real image television by means of moving windows.
  • Corrections should be provided in the capture plan curvature of conventional cameras (2D); this is therefore a similar way to tri-dimensionally capture rays through windows in the liquid crystal or moving perforated surface.
  • Each image produced by windows both by moving windows formed in liquid crystal and moving perforated surface and yet by conventional camera (2D) falls into a charge coupled device (CCD).
  • CCD information can be recorded or transmitted to a real image television by means of windows.
  • An image should be corresponded to a window position, the time instant and displacement of said image into the reproducer device in order to maintain symmetry of camera rays angles and of real image television as well, that is, an image displacement should exist in said reproducer device.
  • the site of real image camera window and site of real image television window characterize in that window should be open in relation to the other windows of the real image camera symmetrically located to an open window of the other windows of a real image television for a certain image in a time instant.
  • the real image television set by means of windows comprises a image reproducing device (2D) and a liquid crystal surface in front of said real image television set to provide windows to open or comprises a perforated surface. Windows should be timely and sequentially open thus synchronizing images obtained by each window in the liquid crystal; or by moving perforated surface; or by conventional cameras (2D).
  • a window image reproduction should be reversely made from right to left side and from up to down.
  • the window In the real image television the window should be located in the same position as when captured by the camera in relation to the whole surface.
  • An open window from the real image television enables observation of a field of vision ray, the observer change of position or enables to view another field of vision ray.
  • Several windows quickly open in a sequence impart a perception as all windows are likely open.
  • Each window has all rays of field of vision from a determined angle.
  • Windows should be open in a sequence and rapidly run throughout the camera and the television surfaces in order to impart a perception that all windows are open.
  • light rays come from a point behind the liquid crystal surface or behind the perforated surface.
  • the real image formed is located in the back of liquid crystal surface or perforated surface of the real image television by means of windows.
  • the advancement of such image forward the liquid crystal surface of real image television is carried out by filming of the real image television real image by means of windows by a rays camera by means of parallel rays and reproduction in a real image television by means of parallel rays.
  • an image may have varied dimensions on screen in accordance with the zoom procedure given by lenses.
  • the novelty comprises obtaining a real image with storage and transmission of scanned electrical impulses with quick sequences of images thus creating a perception of movements without the use of glasses and with observation in several angles by means of windows that become open in different positions and moments.
  • Figure 1 schematically illustrates a camera and a real image television by means of windows and the process to obtain said windows.
  • the real image camera by means of windows and the real object are located in the upper portion of said figure.
  • the real image television and the observer are located in the lower portion of said figure.
  • the left side drawing in the figure illustrates a moment Tl and the right side drawing illustrates moment T2.
  • Number 1 represents a liquid crystal.
  • Number 2 represents a window in liquid crystal of moment Tl.
  • Number 2' represents a window in liquid crystal of moment T2.
  • Number 3 represents a CCD surface.
  • Number 4 represents scanned electrical impulses of an image formed in the CCD with correspondence of said image with the window position, the instant of time and displacement of image in the reproduction device.
  • Number 5 represents an image reproduction device.
  • Number 6 represents a liquid crystal.
  • Number 7 represents a window in liquid crystal of moment Tl.
  • Number 7' represents a window in liquid crystal of moment T2.
  • Letter A is a real object in moment Tl.
  • Number B represents an observer in moment Tl.
  • Number B' represents an observer in moment T2.
  • Letters Al and Al' represents incidence of an image formed by rays coming from an object (A and ⁇ ') , said image passing through liquid crystal (1) windows (2 and 2') and forming itself on a CCD (3) surface in the real image camera.
  • Letters A2 and A2' represent an image formed in the image reproduction device (5) of real image television, said image reversely and symmetrically formed in relation to its corresponding window in moments Tl and T2, respectively.
  • Observer (B and B') receives rays coming from windows at moments Tl and T2.
  • Window (7 and 7') position in said liquid crystal (6) of real image television by means of moving windows should be set at the same position of liquid crystal (1) window (2 and 2') of real image camera by means of moving windows.

Abstract

Invention Patent: "Rays tridimensional capture camera by moving windows or by several conventional cameras (2D); real image producing television by moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; process to obtain said devices" a camera having rays tridimensional capture by means of moving windows or by means of several conventional cameras (2D) captures several angles from an object within the field of vision by means of windows with sequence opening throughout its surface. Image formed by windows is captured into an accumulated charge device (CCD). Scanned electrical impulses may be stored or transmitted to a real image television with corresponding actions of window location, instant of time and image displacement in order to obtain television window symmetry with the camera. Television comprises an image reproducer device and moving windows with the same opening sequence as that of the camera. Produced image stays within a plane behind the real image television monitor. It is necessary to correspond with the real image system by means of parallel rays this image in order to advance this image forward the front of real image television monitor.

Description

RAYS TRIDIMENSIONAL CAPTURE CAMCORDER BY MEANS OF MOVING WINDOWS OR BY MEANS SEVERAL CONVENTIONAL CAMERAS (2D); REAL IMAGE PRODUCING TELEVISION BY MOVING WINDOWS; MOVING WINDOWS FORMED IN A LIQUID CRYSTAL OR DISPOSED OVER A PERFORATED SURFACE; PROCESS TO OBTAIN SAID DEVICES.
1. The present invention refers to a camcorder (also referred to as camera) having a tridimensional capture of rays originated from a real object in the field of vision by moving windows or by means of conventional bi-dimensional cameras (2D). The invention also refers to a real image producing television by moving windows. The real image camera captures rays issued by each point in the real object in the field of vision, said rays passing through moving orifice windows formed in a liquid crystal or disposed over a perforated surface; or by means of several conventional cameras disposed over a surface that will capture rays originated from a field of vision, each conventional camera corresponding to a window. The real image television comprises an image reproducing device (2D) leveled with moving orifice windows formed on a crystal or disposed in a perforated moving surface. Different positions of each moving window in the liquid crystal or in the moving perforated surface or by means of conventional camera (2D) provide for different angles of rays capture in the field of vision.
2. Currently, moving bi-dimensional image (2D) is produced either by television or by cinema. Rapid sequences image production enables perception of continuous movement in the images. Tridimensional television or cinema (3D) is a composition of two images that are perceived by each eye imparting a depth impression. Holography in its turn is an impression of multiple images in a flat surface. A mirror in its turn reflects real images. The tridimensional rays capture camera and the real image producing television, said real image formed in the front and in the back of television surface, use a parallel rays filter (BRIO.2013.013559.3).
3. The current prior art images existing problems are found in the fact that television or cinema reproduce a 2D image which is not a real image. 3D television or cinema produces two images a little bit different, one for each eye, with or without the use of light filter glasses, thus imparting a tridimensional perception. However, as they are not real image, the object is not observed in several angles. Holography is an impression of several images on a surface and observation of object various angles is possible but printed images quantities are limited. A mirror reflects an object image thus producing a real image which is a dynamic image that can be observed in several angles of the object but transmission and recording by apparatuses cannot be done. Yet, capture of tridimensional rays from a field of vision made by tridimensional rays capture camera using a parallel rays filter cannot be provided by conventional cameras (2D).
4. The aforesaid problems are solved by this current invention. The real image obtained by this current invention is provided with a continuous movement perception which can be observed by several angles and transmission and recording by apparatuses are possible. Additionally conventional cameras (2D) may be used to capture rays from field of vision when required.
5. Apparatuses and devices in this present patent may be produced on a large scale basis by electro-electronic manufactures that run image business. 6. The invention comprises tridimensional rays capture camera by means of moving windows or by means of several conventional cameras (2D); real image producing television by means of moving windows; and moving windows formed with liquid crystals or disposed on a moving perforated surface. The camera captures different angles of rays by means of sequence opening windows formed throughout the liquid crystal surface in different moments, for example, sequence windows formation from right to left side, from up to down running throughout the liquid crystal surface. Each window will only allow passage of field of vision rays into just one angle. Several windows capture several angles of said field of vision. These windows can be made in a moving perforated surface in which perforations of different positions from up and down in the camera surface and with right to left side movement in such a way that each of said windows will run through a line and all windows run throughout said surface. For example, a surface disposed in a circle with perforations with several heights and spaced apart within width. The rays capture camera by conventional cameras (2D) operates each camera as a window. This type of rays capture camera may be used when the field of vision is wide. Conventional cameras (2D) disposition may be made on a flat, curved, concave or convex surface. This window continuously captures an image of an object determined angle in the field of vision. A different capturing time should be set for each window and an image. This said setting of time and window will be used in the moment of real image reproduction by said real image television by means of moving windows. Corrections should be provided in the capture plan curvature of conventional cameras (2D); this is therefore a similar way to tri-dimensionally capture rays through windows in the liquid crystal or moving perforated surface. Each image produced by windows both by moving windows formed in liquid crystal and moving perforated surface and yet by conventional camera (2D) falls into a charge coupled device (CCD). CCD information can be recorded or transmitted to a real image television by means of windows. An image should be corresponded to a window position, the time instant and displacement of said image into the reproducer device in order to maintain symmetry of camera rays angles and of real image television as well, that is, an image displacement should exist in said reproducer device. The site of real image camera window and site of real image television window characterize in that window should be open in relation to the other windows of the real image camera symmetrically located to an open window of the other windows of a real image television for a certain image in a time instant. The real image television set by means of windows comprises a image reproducing device (2D) and a liquid crystal surface in front of said real image television set to provide windows to open or comprises a perforated surface. Windows should be timely and sequentially open thus synchronizing images obtained by each window in the liquid crystal; or by moving perforated surface; or by conventional cameras (2D). A window image reproduction should be reversely made from right to left side and from up to down. In the real image television the window should be located in the same position as when captured by the camera in relation to the whole surface. An open window from the real image television enables observation of a field of vision ray, the observer change of position or enables to view another field of vision ray. Several windows quickly open in a sequence impart a perception as all windows are likely open. Each window has all rays of field of vision from a determined angle. Windows should be open in a sequence and rapidly run throughout the camera and the television surfaces in order to impart a perception that all windows are open. In the real image television by means of windows light rays come from a point behind the liquid crystal surface or behind the perforated surface. Thus, the real image formed is located in the back of liquid crystal surface or perforated surface of the real image television by means of windows. The advancement of such image forward the liquid crystal surface of real image television is carried out by filming of the real image television real image by means of windows by a rays camera by means of parallel rays and reproduction in a real image television by means of parallel rays. In case of conventional cameras (2D) an image may have varied dimensions on screen in accordance with the zoom procedure given by lenses.
7. The novelty comprises obtaining a real image with storage and transmission of scanned electrical impulses with quick sequences of images thus creating a perception of movements without the use of glasses and with observation in several angles by means of windows that become open in different positions and moments.
8. Figure 1 schematically illustrates a camera and a real image television by means of windows and the process to obtain said windows. The real image camera by means of windows and the real object are located in the upper portion of said figure. The real image television and the observer are located in the lower portion of said figure. The left side drawing in the figure illustrates a moment Tl and the right side drawing illustrates moment T2.
9. Number 1 represents a liquid crystal.
10. Number 2 represents a window in liquid crystal of moment Tl.
11. Number 2' represents a window in liquid crystal of moment T2.
12. Number 3 represents a CCD surface. 13. Number 4 represents scanned electrical impulses of an image formed in the CCD with correspondence of said image with the window position, the instant of time and displacement of image in the reproduction device.
14. Number 5 represents an image reproduction device.
15. Number 6 represents a liquid crystal.
16. Number 7 represents a window in liquid crystal of moment Tl.
17. Number 7' represents a window in liquid crystal of moment T2.
18. Letter A is a real object in moment Tl.
19. Letter A' is a real object in moment T2.
20. Number B represents an observer in moment Tl.
21. Number B' represents an observer in moment T2.
22. Letters Al and Al' represents incidence of an image formed by rays coming from an object (A and Α') , said image passing through liquid crystal (1) windows (2 and 2') and forming itself on a CCD (3) surface in the real image camera.
23. Letters A2 and A2' represent an image formed in the image reproduction device (5) of real image television, said image reversely and symmetrically formed in relation to its corresponding window in moments Tl and T2, respectively. Observer (B and B') receives rays coming from windows at moments Tl and T2. Window (7 and 7') position in said liquid crystal (6) of real image television by means of moving windows should be set at the same position of liquid crystal (1) window (2 and 2') of real image camera by means of moving windows.
24. - The expressions "camcorder" and "camera" are used in this patent application specification as having equivalent meanings.

Claims

CLAIMS RAYS TRIDIMENSIONAL CAPTURE CAMCORDER BY MEANS OF MOVING WINDOWS OR BY MEANS SEVERAL CONVENTIONAL CAMERAS (2D); REAL IMAGE PRODUCING TELEVISION BY MOVING WINDOWS; MOVING WINDOWS FORMED IN A LIQUID CRYSTAL OR DISPOSED OVER A PERFORATED SURFACE; PROCESS TO OBTAIN SAID DEVICES.
1. "Rays tridimensional capture camera by means of moving windows or by means of several conventional cameras (2D); real image producing television by means of moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; processes to obtain said devices" characterized in that said camera has a device with accumulated charge (CCD) leveled with moving windows or multiple conventional cameras (2D); moving windows that are formed in said liquid crystal or disposed over a perforated moving surface, transmission and storage of scanned electrical impulses originated from said CCD from said real image camera to a real image television whereof said real image is formed by a liquid crystal or by a moving perforated surface leveled with a bi- dimensional image reproducer device with displacement of said image in order to maintain symmetry of rays passing through said window formed by said real image television with rays passing through the real image camera window.
2. "Rays tridimensional capture camera by means of moving windows or by means of several conventional cameras (2D) ; real image producing television by means of moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; processes to obtain said devices" whereof said moving windows in said liquid crystal in accordance with claim 1, are characterized in that said windows are made of a liquid crystal opaque surface that allows rays originated from a field of vision to pass through an orifice window; said windows able to open and close rapidly and in an organized manner throughout said surface and allowing several angles from field of vision rays.
3. "Rays tridimensional capture camera by means of moving windows or by means of several conventional cameras (2D); real image producing television by means of moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; processes to obtain said devices" whereof new ways of obtaining windows disposed in a moving perforated surface in accordance with claim 1, characterized in that surfaces with orifices allow rays originated from field of vision to pass through; said surface is provided with rapid and organized movements thus allowing all angles of rays originated from said field of vision to pass through.
4. "Rays tridimensional capture camera by means of moving windows or by means of several conventional cameras (2D); real image producing television by means of moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; processes to obtain said devices" whereof conventional cameras (2D) in accordance with claim 1 are characterized in that said conventional cameras have multiple cameras (2D) disposed over a flat, concave, curved or convex surface; each of said camera corresponds to a window.
5. "Rays tridimensional capture camera by means of moving windows or by means of several conventional cameras (2D); real image producing television by means of moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; processes to obtain said devices" whereof said rays tridimensional capture camera by means of moving windows formed in a liquid crystal in accordance with claim 1 is characterized in that moving windows are formed in a liquid crystal and leveled with CCD; rays originated from said field of vision and passing through said window should fall on said CCD, thus forming an image.
6. "Rays tridimensional capture camera by means of moving windows or by means of several conventional cameras (2D); real image producing television by means of moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; processes to obtain said devices" whereof said rays tridimensional capture camera by means of moving windows formed in a perforated surface in accordance with claim 1 is characterized in that moving windows are formed in a perforated surface and leveled with said CCD; rays originated from said field of vision passing through said window should fall on said CCD thus forming an image.
7. "Rays tridimensional capture camera by means of moving windows or by means of several conventional cameras (2D); real image producing television by means of moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; processes to obtain said devices" whereof said rays tridimensional capture camera by means of multiple conventional cameras (2D) in accordance with claim 1 is characterized in that said rays tridimensional capture camera comprises multiple cameras disposed over a flat, curved, concave or convex surface; each of said window corresponds to an image obtained by each camera in an instant of time.
8. "Rays tridimensional capture camera by moving windows or by several conventional cameras (2D); real image producing television by moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; process to obtain said devices" an electrical scanned impulse transmission process originated from said tridimensional rays capture camera delivered to said real image television characterized in that said transmission of electrical scanned impulses image is corresponded to a window location at an instant of time and to the image displacement process, symmetrically maintaining said rays passing through said window formed by said real image television with rays passing through said real image camera window.
9. "Rays tridimensional capture camera by moving windows or by several conventional cameras (2D); real image producing television by moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; process to obtain said devices", said storage process of electrical scanned impulses originated from said rays tridimensional capture camera in accordance with claim 8 characterized bv a recording apparatus to record electrical scanned impulses from an image corresponded to a window location, corresponded to an instant of time and to said image displacement process thus symmetrically maintaining rays passing through a window formed by said real image television with rays passing through said real image camera window; yet, said electrical impulses should be reproduced by a recording apparatus identically as said electrical scanned impulses originated from said real image camera.
10. "Rays tridimensional capture camera by moving windows or by several conventional cameras (2D); real image producing television by moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; process to obtain said devices", said real image camera window location and window location in said real image television are characterized in that said window is open in relation to the other windows in the real image camera symmetrically located in relation to said open window relative to the other windows in the real image television for a determined image in an instant of time.
11. "Rays tridimensional capture camera by moving windows or by several conventional cameras (2D); real image producing television by moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; process to obtain said devices", whereof said real image television by means of windows is characterized by having an image reproducing device leveled with windows formed in a liquid crystal surface or disposed over a perforated surface.
12. "Rays tridimensional capture camera by moving windows or by several conventional cameras (2D); real image producing television by moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; process to obtain said devices", whereof real image transfer process to the front of said real image television by means of window monitor is characterized bv filming the television real image by means of windows with said parallel rays camera and by producing a real image in an real image television by parallel rays.
PCT/BR2014/000222 2013-07-04 2014-07-03 Rays tridimensional capture camcorder by means of moving windows or by means several conventional cameras (2d); real image producing television by moving windows; moving windows formed in a liquid crystal or disposed over a perforated surface; process to obtain said devices WO2015000050A1 (en)

Applications Claiming Priority (2)

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BRBR1020130172057 2013-07-04
BRBR102013017205-7A BR102013017205A2 (en) 2013-07-04 2013-07-04 Camcorder with three-dimensional ray capture through moving windows or by means of various conventional video cameras (2d); television producing real image through moving windows; movable windows formed of liquid crystal or arranged on perforated surfaces; processes for obtaining these devices

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WO2015000050A1 true WO2015000050A1 (en) 2015-01-08

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Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5515183A (en) * 1991-08-08 1996-05-07 Citizen Watch Co., Ltd. Real-time holography system

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5515183A (en) * 1991-08-08 1996-05-07 Citizen Watch Co., Ltd. Real-time holography system

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