WO2015024090A1 - Image processing apparatus, such processing made between a real image camcorder and a real image television by means of moving windows; tridimensional image introduction and control into a real image projection range; process to obtain said device - Google Patents

Image processing apparatus, such processing made between a real image camcorder and a real image television by means of moving windows; tridimensional image introduction and control into a real image projection range; process to obtain said device Download PDF

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Publication number
WO2015024090A1
WO2015024090A1 PCT/BR2014/000302 BR2014000302W WO2015024090A1 WO 2015024090 A1 WO2015024090 A1 WO 2015024090A1 BR 2014000302 W BR2014000302 W BR 2014000302W WO 2015024090 A1 WO2015024090 A1 WO 2015024090A1
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Prior art keywords
image
real image
real
tridimensional
television
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PCT/BR2014/000302
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French (fr)
Inventor
Roberto MASSARU AMEMIYA
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Massaru Amemiya Roberto
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Publication of WO2015024090A1 publication Critical patent/WO2015024090A1/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N13/00Stereoscopic video systems; Multi-view video systems; Details thereof
    • H04N13/30Image reproducers
    • H04N13/302Image reproducers for viewing without the aid of special glasses, i.e. using autostereoscopic displays

Definitions

  • IMAGE PROCESSING APPARATUS SUCH PROCESSING MADE BETWEEN A REAL IMAGE CAMCORDER AND A REAL IMAGE TELEVISION BY MEANS OF MOVING WINDOWS; TRIDIMENSIONAL IMAGE INTRODUCTION AND CONTROL INTO A REAL IMAGE PROJECTION RANGE; PROCESS TO
  • This present invention relates to an image processing apparatus, such processing made between a real image camcorder and a real image television by means of moving windows.
  • the solution is to make such image processing without using electronic processing means.
  • Apparatuses and devices disclosed in this present patent application may be produced in an industrial scale by companies that handle images and develop products that use real image.
  • the invention is made of a processing apparatus that processes images from rays that fall into a CCD (charge-coupled device) in a real image camcorder up to an image reproducing device that reproduces an image that falls into said camcorder CCD (first CCD) in an image reproducing device and yet the invention is made of passing the rays originated from the images originated from an image reproducing device through moving windows in the liquid crystal from a synchronized images processing device with the moving windows in the camcorder.
  • the image processing device (second CCD) CCD electric impulses are transmitted to a recorder to further be reproduced or to a real image producing television by means of moving windows.
  • the following information is required to synchronize real images: images obtained from moving windows filter projection, moment when images were obtained, open window location relative to a moving windows filter, moving windows filter distance relative to a CCD.
  • Insertion of a real image into a real image television field of vision is made by introducing an image into a translucent liquid crystal surface by means of an image reproduction with the same projection from a moving windows filter in the real image camcorder in a step of rays filtration from an image processing device or from a real image television.
  • the set of translucent liquid crystal to insert a tridimensional image into a projection range of a real image television is made of an image reproducing device and a translucent liquid crystal reproducing device.
  • Reproducing devices may be a type made of translucent liquid crystal. This overlaying of image is made in an image reproducing device in an image processing device or in a real image television image reproducing device.
  • a tridimensional image inserted is obtained by means of a real image camcorder or by means of an image created by computer graph having a distinct projection angle for each moving windows filter angulation in a real image television. Variation in the distance of a tridimensional image inserted into a field of vision up to the real image television is obtained by lateral displacement of an image relative to an open window. Overlaying in a sequence images inserted into a translucent liquid crystal, when required, should be done in order to obtain an impression of an object being located in front of or behind another object. Another way of overlaying images is done electronically by identifying an object contour in an image, thus overlaying one image over another image. An increase or decrease of a tridimensional image should be done with a variation in the distance either farther or closer to a watcher, respectively.
  • Graphic tridimensional computer drawings may be introduced as being a field of vision with graphical objects.
  • An introduced tridimensional image is controlled by a watcher as it concerns to image depth, location and angulation by means of scanned commands with recording of tridimensional images in various angles.
  • Tridimensional images control inserted into a field of vision is made by means of a mouse, joystick, sensitive gloves or another control system to position a cursor.
  • image obtained from windows filter projection moment when said image was obtained and distance between moving windows surface and CCD.
  • Windows should run throughout a television surface in a frequency so as to impart a watcher an impression that all windows in said television are open at the same time with all rays originated captured from the field of vision.
  • Each window open in a real image television has an angle of vision close to neighboring windows thus providing an own image projected from the field of vision in the camcorder.
  • the process to obtain a product of an apparatus to process an image made between a real image camcorder and real image television by means of moving windows is: CCD surface disposition, liquid crystal with moving windows, image reproducing device and translucent image reproducing device with information synchronization.
  • the novelty is made of using moving windows in liquid crystal with no electronic processing.
  • Figure 1 schematically represents a real image camcorder by means of windows (1 and 3), a real image processing device (5,6 and 8), a real image television by means of windows (10 and 11) and its processes to obtain these devices.
  • Said real image camcorder (1 and 3) by means of windows and a real object (A and A') are located in the upper portion of said figure.
  • Said real image television (10 and 11) and a watcher (B and B') are located in the lower portion of said figure.
  • Left side drawing in said figure represents a moment Tl
  • right side drawing in said figure represents a moment T2.
  • Number 1 represents a liquid crystal.
  • Numbers 2 and 2' represent windows in said liquid crystal (1) at moments Tl and T2 respectively.
  • Number 3 represents a CCD surface.
  • Number 4 represents photoelectric impulses scanned from images (Al and Al') formed in said CCD (3), said impulses sent to an image reproducing device (5) at moments Tl and T2, respectively.
  • Number 5 represents an image reproducing device with images (A2 and A2') at moments Tl and T2, respectively.
  • Number 6 represents a liquid crystal.
  • Number 7 and 7' represent windows in a liquid crystal (6) at moments Tl and T2, respectively.
  • Number 8 represents an image reproducing device.
  • Number 9 represents photoelectric impulses scanned from images (A3 and A3') formed in said CCD (8) sent to an image reproducing device (10) at moments Tl and T2, respectively.
  • Number 11 represents a liquid crystal.
  • Numbers 12 and 12' represent windows in said liquid crystal (11) at moments Tl and 12, respectively.
  • Letters A and A' are real objects in the field of vision in a real image camcorder through moving windows at moments Tl and 12, respectively.
  • Letters Al and ⁇ represent falling of images formed by rays originated from a real object, said images passing through windows (2 and 2') in said liquid crystal ( 1) and said images then formed onto said CCD (3) surface in a real image camcorder at moments Tl and T2, respectively.
  • Letters A2 and A2' represent images formed in said image reproducing device (5), said images originated from photoelectric impulses in said real image camcorder CCD (3) at moments Tl and T2, respectively.
  • Letters A3 and A3' represent falling of images formed by rays originated from images (A2 and A2') reproduced in an image receptor (5), said images passing through windows (7 and 7') in said liquid crystal (6) and said images then formed onto image processing device CCD (8) surface at moments Tl and T2, respectively.
  • Letters B and B' represent a watcher at moments Tl and T2, respectively.
  • Windows positions (2 and 2') in said real image camcorder liquid crystal (1) through moving windows (1 and 3), real image processing device (5, 6 and 8) liquid crystal (6) windows positions (7 and 7') and windows positions (12 and 12') in a real image television by means of moving windows (10 and 11) liquid crystal (11) should all have the same location relative to said liquid crystals at moments Tl and T2, respectively.
  • Filtration of rays issued by said image receptor (5) is carried out by another filter of rays (6) through windows 7 and 7' at moments Tl and T2. Such rays filtration produces an image A3 and A3' into said CCD (8) at moments Tl and T2.
  • CCD (8) photoelectric impulses (9) are sent to a real image television.
  • An image reproducing device (10) reproduces an image A4 and A4' at moments Tl and T2, said image reproduces rays that pass through a moving windows filter (11).
  • Rays issued by said real image television by means of moving windows have the same features as those rays filtered in said real image camcorder by means of moving windows. Distinct rays issued in a fraction of a second imparts to a watcher an impression that a real image television field of vision is filled in at the same time by said filtered rays.
  • Figure 2 schematically represents a real image camcorder, said camcorder showing in its field of vision two real objects (a and ⁇ ') in said figure upper portion. In its real image television projection range images (al and ⁇ ') are shown.
  • Figure 3 schematically represents a real image camcorder, said camcorder showing in its field of vision two real objects ( ⁇ and ⁇ ') in said figure upper portion. In its real image television projection range images ( ⁇ and ⁇ ') are shown.
  • Figure 4 schematically represents a real image television with insertion of a tridimensional image (a set formed by 13, 14 and 15) including an image of tridimensional projection image ( ⁇ and ⁇ ') onto said translucent liquid crystal surface (14); and its obtaining processes to include said tridimensional image in a real image television projection range.
  • An image receptor (13) is located in said figure upper portion. Said translucent liquid crystal image receptor with image (14) reception is overlaid to said image receptor (13).
  • An oblique line represented between images al and ⁇ and between images al' and ⁇ ' in a moment T4 allows viewing said translucent liquid crystal surface overlaid on said liquid crystal surface in a real image television image receptor.
  • Said rays filter by means of moving windows (15) is located in the lower portion of said figure.
  • Drawing left side represents a moment T3 and drawing right side represents a moment T4.
  • Number 13 represents an image receptor.
  • Number 14 represents a translucent liquid crystal image receptor.
  • Number 15 represents moving windows rays filter.
  • Letter al is an image from a real object originated from said real image camcorder in a moment T3.
  • Letter al' is an image from a real object originated from said real image camcorder in a moment T4.
  • Letter ⁇ is an image reproduced into a translucent liquid crystal originated from another real image camcorder to insert a tridimensional image (figure 3) or a graph tridimensional computer image with the same angular projection relative to a moving windows filter in said real image television in a moment T3.
  • Letter ⁇ ' is an image reproduced into a translucent liquid crystal originated from another real image camcorder to insert a tridimensional image (figure 3) or a graph tridimensional computer image with the same angular projection relative to a moving windows filter in said real image television in a moment T4.
  • Said real image television with insertion of a tridimensional image imparts to a watcher (0) a perception of rays crossing in said moments T3 and T4 when said rays are issued in a fraction of a second to form real images (al overlaid on ⁇ ; and ⁇ overlaid on ⁇ ').
  • said real image television with insertion of a tridimensional image shows an image receptor (13) with a al image originated from a real object (a) from said real image camcorder (figure 2) after said image is processed.
  • Said translucent image receptor (14) receives an image ( ⁇ ) originated from said image camcorder to insert a tridimensional image (figure 3) or a graph tridimensional computer image with the same angular projection relative to a real image television moving windows filter.
  • Image ( ⁇ ) in said translucent image receptor (14) has a projection with the same windows position as that of real image camcorder.
  • An image overlaying occurs in image ⁇ over image al.
  • Said moving windows rays filter (15) provides filtration of rays originated from image al overlaid on image ⁇ .
  • said window is symmetrically located in an opposing side relative to T3 and the full filtration process is repeated with said objects a' and ⁇ '.
  • ⁇ and ⁇ ' should be displaced close to said moving window with a decrease in said images dimensions.
  • ⁇ and ⁇ ' should be displaced away from said moving window with an increase in said images dimensions.
  • Said tridimensional image when inserted in said real image television projection range should be located behind or in front of relative to another image in said real image television translucent liquid crystals with insertion of a tridimensional image in case said tridimensional inserted image is located farther or closer relative to said image.

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  • Engineering & Computer Science (AREA)
  • Multimedia (AREA)
  • Signal Processing (AREA)
  • Testing, Inspecting, Measuring Of Stereoscopic Televisions And Televisions (AREA)
  • Image Processing (AREA)

Abstract

Processing is made of reproducing an image obtained by means of scanned photoelectric impulses from a real image camcorder by means of moving windows; also made of filtering rays originated from said image reproduction by means of moving windows in liquid crystal; and falling of said rays onto a charge-coupled device (CCD). Electrical scanned impulses from said CCD are reproduced in a real image television by means of a tridimensional image camcorder in a transparent reproducing device of an image overlaid relative to said reproducing device in a step of filtration of rays originated from an image processing device or from a real image television. Said tridimensional image introduced is controlled by a watcher as it concerns to image projection distance relative to a plane behind said real image television surface by means of displacement of an introduced image relative to a moving window and overlaying of images.

Description

IMAGE PROCESSING APPARATUS, SUCH PROCESSING MADE BETWEEN A REAL IMAGE CAMCORDER AND A REAL IMAGE TELEVISION BY MEANS OF MOVING WINDOWS; TRIDIMENSIONAL IMAGE INTRODUCTION AND CONTROL INTO A REAL IMAGE PROJECTION RANGE; PROCESS TO
OBTAIN SAID DEVICE
1. This present invention relates to an image processing apparatus, such processing made between a real image camcorder and a real image television by means of moving windows.
2. Process to obtain a product
3. Currently, image processing made between a real image camcorder and a real image television by means of moving windows is electronically described with image displacement as taught in patent application BR102013017057.
4. The existing problem in the electronic image processing is found in that said electronic processing requires rapidness.
5. The solution is to make such image processing without using electronic processing means.
6. Apparatuses and devices disclosed in this present patent application may be produced in an industrial scale by companies that handle images and develop products that use real image.
7. The invention is made of a processing apparatus that processes images from rays that fall into a CCD (charge-coupled device) in a real image camcorder up to an image reproducing device that reproduces an image that falls into said camcorder CCD (first CCD) in an image reproducing device and yet the invention is made of passing the rays originated from the images originated from an image reproducing device through moving windows in the liquid crystal from a synchronized images processing device with the moving windows in the camcorder. The image processing device (second CCD) CCD electric impulses are transmitted to a recorder to further be reproduced or to a real image producing television by means of moving windows. The following information is required to synchronize real images: images obtained from moving windows filter projection, moment when images were obtained, open window location relative to a moving windows filter, moving windows filter distance relative to a CCD.
8. Insertion of a real image into a real image television field of vision is made by introducing an image into a translucent liquid crystal surface by means of an image reproduction with the same projection from a moving windows filter in the real image camcorder in a step of rays filtration from an image processing device or from a real image television. The set of translucent liquid crystal to insert a tridimensional image into a projection range of a real image television is made of an image reproducing device and a translucent liquid crystal reproducing device. Reproducing devices may be a type made of translucent liquid crystal. This overlaying of image is made in an image reproducing device in an image processing device or in a real image television image reproducing device. A tridimensional image inserted is obtained by means of a real image camcorder or by means of an image created by computer graph having a distinct projection angle for each moving windows filter angulation in a real image television. Variation in the distance of a tridimensional image inserted into a field of vision up to the real image television is obtained by lateral displacement of an image relative to an open window. Overlaying in a sequence images inserted into a translucent liquid crystal, when required, should be done in order to obtain an impression of an object being located in front of or behind another object. Another way of overlaying images is done electronically by identifying an object contour in an image, thus overlaying one image over another image. An increase or decrease of a tridimensional image should be done with a variation in the distance either farther or closer to a watcher, respectively. Graphic tridimensional computer drawings may be introduced as being a field of vision with graphical objects. An introduced tridimensional image is controlled by a watcher as it concerns to image depth, location and angulation by means of scanned commands with recording of tridimensional images in various angles. Tridimensional images control inserted into a field of vision is made by means of a mouse, joystick, sensitive gloves or another control system to position a cursor. To control real images synchronization the following information is required: image obtained from windows filter projection, moment when said image was obtained and distance between moving windows surface and CCD.
9. Windows should run throughout a television surface in a frequency so as to impart a watcher an impression that all windows in said television are open at the same time with all rays originated captured from the field of vision. Each window open in a real image television has an angle of vision close to neighboring windows thus providing an own image projected from the field of vision in the camcorder.
10. The process to obtain a product of an apparatus to process an image made between a real image camcorder and real image television by means of moving windows is: CCD surface disposition, liquid crystal with moving windows, image reproducing device and translucent image reproducing device with information synchronization. 11. The novelty is made of using moving windows in liquid crystal with no electronic processing.
12. Figure 1 schematically represents a real image camcorder by means of windows (1 and 3), a real image processing device (5,6 and 8), a real image television by means of windows (10 and 11) and its processes to obtain these devices. Said real image camcorder (1 and 3) by means of windows and a real object (A and A') are located in the upper portion of said figure. Said real image television (10 and 11) and a watcher (B and B') are located in the lower portion of said figure. Left side drawing in said figure represents a moment Tl and right side drawing in said figure represents a moment T2.
13. Number 1 represents a liquid crystal.
14. Numbers 2 and 2' represent windows in said liquid crystal (1) at moments Tl and T2 respectively.
15. Number 3 represents a CCD surface.
16. Number 4 represents photoelectric impulses scanned from images (Al and Al') formed in said CCD (3), said impulses sent to an image reproducing device (5) at moments Tl and T2, respectively.
17. Number 5 represents an image reproducing device with images (A2 and A2') at moments Tl and T2, respectively.
18. Number 6 represents a liquid crystal.
19. Number 7 and 7' represent windows in a liquid crystal (6) at moments Tl and T2, respectively.
20. Number 8 represents an image reproducing device.
21. Number 9 represents photoelectric impulses scanned from images (A3 and A3') formed in said CCD (8) sent to an image reproducing device (10) at moments Tl and T2, respectively.
22. Number 11 represents a liquid crystal. 23. Numbers 12 and 12' represent windows in said liquid crystal (11) at moments Tl and 12, respectively.
24. Letters A and A' are real objects in the field of vision in a real image camcorder through moving windows at moments Tl and 12, respectively.
25. Letters Al and Α represent falling of images formed by rays originated from a real object, said images passing through windows (2 and 2') in said liquid crystal ( 1) and said images then formed onto said CCD (3) surface in a real image camcorder at moments Tl and T2, respectively.
26. Letters A2 and A2' represent images formed in said image reproducing device (5), said images originated from photoelectric impulses in said real image camcorder CCD (3) at moments Tl and T2, respectively.
27. Letters A3 and A3' represent falling of images formed by rays originated from images (A2 and A2') reproduced in an image receptor (5), said images passing through windows (7 and 7') in said liquid crystal (6) and said images then formed onto image processing device CCD (8) surface at moments Tl and T2, respectively.
28. Letters B and B' represent a watcher at moments Tl and T2, respectively.
29. Windows positions (2 and 2') in said real image camcorder liquid crystal (1) through moving windows (1 and 3), real image processing device (5, 6 and 8) liquid crystal (6) windows positions (7 and 7') and windows positions (12 and 12') in a real image television by means of moving windows (10 and 11) liquid crystal (11) should all have the same location relative to said liquid crystals at moments Tl and T2, respectively. 30. Real objects A and A' in moments Tl and T2, respectively, issue rays that pass through a moving windows filter (2 and 2'). Filtered rays fall into said CCD (3) forming an image Al and Al' in moments Tl and T2. Said image is formed on a CCD (3) surface. CCD (3) photoelectrical impulses (4) transmission reproduce an image in an image receptor (5). Filtration of rays issued by said image receptor (5) is carried out by another filter of rays (6) through windows 7 and 7' at moments Tl and T2. Such rays filtration produces an image A3 and A3' into said CCD (8) at moments Tl and T2. CCD (8) photoelectric impulses (9) are sent to a real image television. An image reproducing device (10) reproduces an image A4 and A4' at moments Tl and T2, said image reproduces rays that pass through a moving windows filter (11). Rays issued by said real image television by means of moving windows have the same features as those rays filtered in said real image camcorder by means of moving windows. Distinct rays issued in a fraction of a second imparts to a watcher an impression that a real image television field of vision is filled in at the same time by said filtered rays.
31. Figure 2 schematically represents a real image camcorder, said camcorder showing in its field of vision two real objects (a and α') in said figure upper portion. In its real image television projection range images (al and αΐ') are shown.
32. Figure 3 schematically represents a real image camcorder, said camcorder showing in its field of vision two real objects (β and β') in said figure upper portion. In its real image television projection range images (βΐ and βΐ') are shown.
33. Figure 4 schematically represents a real image television with insertion of a tridimensional image (a set formed by 13, 14 and 15) including an image of tridimensional projection image (βΐ and βΐ') onto said translucent liquid crystal surface (14); and its obtaining processes to include said tridimensional image in a real image television projection range. An image receptor (13) is located in said figure upper portion. Said translucent liquid crystal image receptor with image (14) reception is overlaid to said image receptor (13).
34. An oblique line represented between images al and βΐ and between images al' and βΐ' in a moment T4 allows viewing said translucent liquid crystal surface overlaid on said liquid crystal surface in a real image television image receptor. Said rays filter by means of moving windows (15) is located in the lower portion of said figure. Drawing left side represents a moment T3 and drawing right side represents a moment T4.
35. Number 13 represents an image receptor.
36. Number 14 represents a translucent liquid crystal image receptor.
37. Number 15 represents moving windows rays filter.
38. Letter al is an image from a real object originated from said real image camcorder in a moment T3.
39. Letter al' is an image from a real object originated from said real image camcorder in a moment T4.
40. Letter βΐ is an image reproduced into a translucent liquid crystal originated from another real image camcorder to insert a tridimensional image (figure 3) or a graph tridimensional computer image with the same angular projection relative to a moving windows filter in said real image television in a moment T3.
41. Letter βΐ' is an image reproduced into a translucent liquid crystal originated from another real image camcorder to insert a tridimensional image (figure 3) or a graph tridimensional computer image with the same angular projection relative to a moving windows filter in said real image television in a moment T4.
42. Said real image television with insertion of a tridimensional image imparts to a watcher (0) a perception of rays crossing in said moments T3 and T4 when said rays are issued in a fraction of a second to form real images (al overlaid on βΐ; and α overlaid on βΐ').
43. In said moment T3 said real image television with insertion of a tridimensional image shows an image receptor (13) with a al image originated from a real object (a) from said real image camcorder (figure 2) after said image is processed. Said translucent image receptor (14) receives an image (βΐ) originated from said image camcorder to insert a tridimensional image (figure 3) or a graph tridimensional computer image with the same angular projection relative to a real image television moving windows filter. Image (βΐ) in said translucent image receptor (14) has a projection with the same windows position as that of real image camcorder. An image overlaying occurs in image βΐ over image al. Said moving windows rays filter (15) provides filtration of rays originated from image al overlaid on image βΐ. In said moment T4 said window is symmetrically located in an opposing side relative to T3 and the full filtration process is repeated with said objects a' and β'.
44. In different moments distinct rays become filtered by said moving window in the field of vision such that the full process described in figures 2, 3 and 4 is carried out. Distinct rays originated from moving windows should impart an impression of filling up said real image television projection range at the same time.
45. To insert a tridimensional real image behind said images al and al' in said moments T3 and T4 images βΐ and βΐ' should be displaced close to said moving window with a decrease in said images dimensions. To insert a tridimensional real image in front of said images al and α in said moments T3 and T4 images βΐ and βΐ' should be displaced away from said moving window with an increase in said images dimensions. Said tridimensional image when inserted in said real image television projection range should be located behind or in front of relative to another image in said real image television translucent liquid crystals with insertion of a tridimensional image in case said tridimensional inserted image is located farther or closer relative to said image.
46. The expressions "camcorder" and "camera" are used in this patent application specification as having equivalent meanings.

Claims

Claims
1. IMAGE PROCESSING APPARATUS, SUCH PROCESSING MADE BETWEEN A REAL IMAGE CAMCORDER AND A REAL IMAGE TELEVISION BY MEANS OF MOVING WINDOWS; TRIDIMENSIONAL IMAGE INTRODUCTION AND CONTROL INTO A REAL IMAGE PROJECTION RANGE; PROCESS TO OBTAIN SAID DEVICE characterized by transmission of photoelectric impulses scanned from rays falling onto a charge- coupled device (CCD) in a real image camcorder with reproduction in an image receptor; rays from said image receptor are filtered by means of moving windows; said rays then fall onto another CCD; said photoelectric scanned impulses are sent to a real image television; tridimensional image introduction is carried out by means of an image reproduction in a translucent crystal; control of an introduced image is carried out by means of apparatuses to move on a cursor; the process to obtain a product is a set of an image receptor, image translucent receptor, moving windows liquid crystal and CCD with image parameters information synchronization.
2. IMAGE PROCESSING APPARATUS, SUCH PROCESSING MADE BETWEEN A REAL IMAGE CAMCORDER AND A REAL IMAGE TELEVISION BY MEANS OF MOVING WINDOWS; TRIDIMENSIONAL IMAGE INTRODUCTION AND CONTROL INTO A REAL IMAGE PROJECTION RANGE; PROCESS TO OBTAIN SAID DEVICE An image processing apparatus, said processing made between a real image camcorder and a real image television by means of moving windows in accordance with claim 1, characterized bv transmission of photoelectric scanned impulses from rays falling onto a real image camcorder CCD with reproduction in an image receptor; rays from this image receptor are filtered by means of moving windows; said rays then fall onto another CCD; photoelectric scanned impulses are sent to a real image television.
3. IMAGE PROCESSING APPARATUS, SUCH PROCESSING MADE BETWEEN A REAL IMAGE CAMCORDER AND A REAL IMAGE TELEVISION BY MEANS OF MOVING WINDOWS; TRIDIMENSIONAL IMAGE INTRODUCTION AND CONTROL INTO A REAL IMAGE PROJECTION RANGE; PROCESS TO OBTAIN SAID DEVICE Location of a real image processing device window in accordance with claim 1 characterized in that said window is open relative to the other real image processing device windows symmetrically located said open window relative to the other camcorder and real image television windows to a determined image within a determined time.
4. IMAGE PROCESSING APPARATUS, SUCH PROCESSING MADE BETWEEN A REAL IMAGE CAMCORDER AND A REAL IMAGE TELEVISION BY MEANS OF MOVING WINDOWS; TRIDIMENSIONAL IMAGE INTRODUCTION AND CONTROL INTO A REAL IMAGE PROJECTION RANGE; PROCESS TO OBTAIN SAID DEVICE Moving windows having a quick openings in a real image camcorder liquid crystal, in a real image television and in real image processing device characterized b openings of puntiform moving windows in said liquid crystal full surface quickly in a fraction of a second thus enabling a watcher impression that all moving windows are open in the same time.
5. IMAGE PROCESSING APPARATUS, SUCH PROCESSING MADE BETWEEN A REAL IMAGE CAMCORDER AND A REAL IMAGE TELEVISION BY MEANS OF MOVING WINDOWS; TRIDIMENSIONAL IMAGE INTRODUCTION AND CONTROL INTO A REAL IMAGE PROJECTION RANGE; PROCESS TO OBTAIN SAID DEVICE An apparatus to process a tridimensional image introduced between a real image camcorder and a real image television by means of moving windows; process to obtain a device is characterized by a set formed by an image reproducing device, an image translucent reproducing device, a liquid crystal with opening windows and a CCD.
6. IMAGE PROCESSING APPARATUS, SUCH PROCESSING MADE BETWEEN A REAL IMAGE CAMCORDER AND A REAL IMAGE TELEVISION BY MEANS OF MOVING WINDOWS; TRIDIMENSIONAL IMAGE INTRODUCTION AND CONTROL INTO A REAL IMAGE PROJECTION RANGE; PROCESS TO OBTAIN SAID DEVICE A tridimensional real image introduction in a real image projection range in accordance with claim 1, characterized by introducing an image by means of an image reproduction with the same projection of angles from a camcorder moving windows filter onto a translucent liquid crystal surface in a filtration step of rays from an image processing device or a real image television; said translucent liquid crystal set to insert a tridimensional image into a real image television projection range is formed by an image reproducing device and a translucent liquid crystal reproducing device; both reproducing devices may be made of translucent liquid crystal; an image overlaying is carried out by said image processing device image reproducing device or by a real image television image reproducing device; an inserted tridimensional image is obtained by means of a real image camcorder or by means of an image created by a computer graph with the same projection angle for each angulation in a real image television moving windows filter.
7. IMAGE PROCESSING APPARATUS, SUCH PROCESSING MADE BETWEEN A REAL IMAGE CAMCORDER AND A REAL IMAGE TELEVISION BY MEANS OF MOVING WINDOWS; TRIDIMENSIONAL IMAGE INTRODUCTION AND CONTROL INTO A REAL IMAGE PROJECTION RANGE; PROCESS TO OBTAIN SAID DEVICE Tridimensional real image control in a real image projection range in accordance with claim 1 characterized in that a variation in the distance of a tridimensional image inserted in a field of vision up to a real image television is obtained by an image lateral displacement relative to an open window; in order to impart an impression that an object is located in front of or behind another object, when required, a sequential overlaying of images inserted into a translucent liquid crystal should be done; another way of overlaying images is electronically carried out by identifying contours of an object in said image by overlaying an image over another image; a tridimensional image decrease or increase should be done with a variation in the distance either closer or farther to a watcher, respectively; graphic tridimensional drawings may be introduced as being a field of field having graphic objects; said tridimensional introduced image is controlled by a watcher as it concerns to image depth, location and angulations by means of scanned commands with tridimensional images recording in several angles; control of tridimensional images inserted into a field of vision is carried out by means of a mouse, joystick, sensitive gloves or another control system to position a cursor; the following information is required to control real images synchronization : an image obtained from a parallel windows filter projection, moment in which said image was obtained and a distance between moving windows surface and a CCD.
PCT/BR2014/000302 2013-08-22 2014-08-22 Image processing apparatus, such processing made between a real image camcorder and a real image television by means of moving windows; tridimensional image introduction and control into a real image projection range; process to obtain said device WO2015024090A1 (en)

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