8k RESOLUTION CAMERA SYSTEM

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8K IS THE LATEST UPCOMING VIDEO TECHNOLOGY WIDELY USED IN DIGITAL CAMERA,DIGITAL CINEMA,SPORTS BROAD CASTING ETC. In order to achieve high image quality,more detailed pictures,large projection surface visibility this method is used.

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8K RESOLUTION CAMERA SYSTEMGUIDE-BLESSON LUKE MATHEW

ARUN RAJ.A S7 ECE

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VIVID PICTURE

• PIXEL DENSITY AND PPI

• RESOLUTIONS

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PIXEL

• DEFINITION-In digital imaging,a pixel is a smallest controllable elements of a picture (Building block of a picture).

• PIXEL DENSITY-Number of pixels in certain space.Usually measured in PPI.

• PPI(Pixel Per Inch)-Number of pixel per inch.

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COMPARISONHDTV-TOTAL PIXELS=2,000,000 PIXELSPPI=102 PIXEL PER INCH

IPHONE-TOTAL PIXEL=700,000 PIXELSPPI=326 PIXEL PER INCH

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RESOLUTION

• DEFINITION-Number of distinct pixels in each dimention that can be displayed.

• AVAILABLE RESOLUTIONS- *2K *4K *8K

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2K

• ALSO KNOWN-FULL HIGH DEFINITION(FHD),1080P.

• RESOLUTION-1920 X 1080

• TOTAL PIXEL=2,073,600 PIXEL

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4K

• ALSO KNOWN-ULTRA HIGH DEFINITION(UHD),2160P.

• RESOLUTION-3840 X 2160

• TOTAL PIXEL=8,294,400 PIXEL

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8K

• ALSO KNOWN-SUPER HIGH DEFINITION(SHD),4320P.

• RESOLUTION-7680 X 4320

• TOTAL PIXEL=33,177,600 PIXEL

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RESOLUTION CHART

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SAMPLE VIDEOS

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YOU CAN SEE MORE DETAILS.....

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4K/8K TECHNOLOGY AND NEW NETWORKSStream type Data stream Network interface

4K JPEG2000 (DCI) 250 Mbit/s 1 Gbit/s

4K JPEG2000 (DCI) 3D 2x 250 Mbit/s 1 Gbit/s

4K uncompressed 6 Gbit/s 10 Gbit/s

4K uncompressed 3D 12 Gbit/s 40 Gbit/s

Stream type Data stream Network interface

8K JPEG2000 1 Gbit/s 10 Gbit/s

8K JPEG2000 3D 2x 1 Gbit/s 10 Gbit/s

8K uncompressed 24 Gbit/s 40 Gbit/s

8K uncompressed 3D 48 Gbit/s 100 Gbit/s

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WORKING

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• INCIDENT LIGHT IS SEPARATED INTO FOUR COLOR AND DIVIDED IN TO….• TWO GREEN, ONE RED, AND ONE BLUE (GGRB).• THREE-SENSOR IMAGING SYSTEM (RGB) USED IN COMMERCIAL AND BROADCAST VIDEO CAMERAS.• PRISM FOR THE FOUR-SENSOR SYSTEM CAN BE MADE AS SMALL AS THE CONVENTIONAL RGB PRISM.

Structure of the color separation prism developed for the four- sensor imaging system.

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PRACTICAL 8K CAMERA WITH FOUR-SENSOR IMAGE SYSTEM

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INTERNAL BLOCK DIAGRAM OF 8K CAMERA SYSTEM

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APPLICATIONS

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Digital Cinema

Distribution Center

Location ACinema room

Location BCinema room

Location CCommunity center

Streamingtransmission

8K

Movie A(8K)

Movie B(8K, HD) Movie B

(HD)

• Easy way of content distribution• A chance for small cinemas• Flexible accounting procedures• Different quality of content available (HD, 8K)• Copyrights and security

Event Location – live streaming from event hall

Movie B(8K)

Movie A(8K)

Movie A storing(8K)

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8K APPLICATIONS: TELEMEDICINE

*Recording of surgeries and medical diagnostic processes for educational purposes

-Transmissions during symposiums and conferences-High quality materials for medicine students

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8K APPLICATIONS: SECURITY AND MONITORING

issue: face recognition in a crowd at airports, train stations and during mass events (e.g.

stadiums)

Many details on single 8K frame – the powerful source for image processing

Useful for police, border services and others security units

Constraints:

scalability,

processing

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.

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8K APPLICATIONS: CAD/CAM PROJECTS

Automotive designDesign and digital visualisation of 3D car modelsTests of safety, aerodynamics and ergonomic solutions

Architecture and urban planningDesign and visualisation of buildings and engineering constructions modelsTests of ergonomic and functionality as well as strength and safety of constructions

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4K LIVE TECHNOLOGY, VIDEOCONFERENCINGAND BROADCASTING

4K/8K Public Screening

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8K APPLICATIONS: VISUALISATION OF SCIENTIFIC PROCESSES

High resolution images in science:Physicis – visualisation of research on elementary particles and quantum mechanicsBiochemistry – particles and chemical reactions visualisation, genetics structures visualisationMeteorology – visualisation of complex weather processes as well as disasters (e.g. tornados, earthquakes)Astronomy and radioastronomy – presentations of sky maps, stars and planets

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CONCLUSION

•More over two of the four image sensors are used for sensing green signals and one for red and blue signals, this feature enables to improve the luminance signal resolution and to chromatic aberration to obtain extremely high resolution images.•These technologies for very high resolution imaging can be used for making various shv content such as live sporting,digital cinemas and medical application.

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REFERENCES*[1] S. A. Stough and W. A. Hill, ‘‘High-performance electro-optic camera prototype,’’ Soc.Motion Picture Television Eng. J., vol. 110, pp. 140–146, Mar. 2001.* [2] N. Narita, M. Kanazawa, and F. Okano, ‘‘Optimum screen parameters for ultrahighdefinition and wide-screen image systems: Study of screen aspect ratios and maximumpixels with still images,’’ J. Inst. Television Eng. Jpn., vol. 56, no. 3, pp. 437–446, 2002.* [3] T. Yamashita, K. Mitani, H. Shimamoto, M. Shirakawa, and F. Okano, ‘‘A newalignment method for an 8 k 4 k-pixel ultrahigh-definition camera with four imagers,’’Proc. SPIEVInt. Soc. Opt. Eng., vol. 5301, pp. 76–86, 2004.

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