JPG, JPEG (Joint Photographic Experts Group) - traducción al Inglés
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JPG, JPEG (Joint Photographic Experts Group) - traducción al Inglés

GROUP OF EXPERTS NOMINATED BY NATIONAL STANDARDS BODIES AND MAJOR COMPANIES TO WORK TO PRODUCE STANDARDS FOR BI-LEVEL IMAGE CODING
Joint Bi-level Image experts Group

JPG         
  • Continuously varied JPEG compression (between Q=100 and Q=1) for an [[abdominal]] [[CT scan]]
  • The DCT transforms an 8×8 block of input values to a [[linear combination]] of these 64 patterns. The patterns are referred to as the two-dimensional DCT ''basis functions'', and the output values are referred to as ''transform coefficients''. The horizontal index is <math>u</math> and the vertical index is <math>v</math>.
  • Zigzag ordering of JPEG image components
  • 120px
  • 120px
  • 120px
  • 120px
  • 120px
  • The 8×8 sub-image shown in 8-bit grayscale
  • ''Baseline sequential'' JPEG encoding and decoding processes
  • An example of a stereoscopic .JPS file
  • The compressed 8×8 squares are visible in the scaled-up picture, together with other visual artifacts of the [[lossy compression]].
  • The original image
  • This image shows the pixels that are different between a non-compressed image and the same image JPEG compressed with a quality setting of 50. Darker means a larger difference. Note especially the changes occurring near sharp edges and having a block-like shape.
  • 100px
  • 100px
  • 100px
  • 100px
  • Visual impact of a jpeg compression on Photoshop on a picture of 4480x4480 pixels
CONFLATION OF MULTIPLE TOPICS INCLUDING COMPRESSION ALGORITHMS, VARIOUS FILE FORMATS, STANDARDS/TECHNICAL SPECIFICATIONS AND A NON-PROFIT ORGANISATION
JPG; Jpeg; Jpg; JPEG file format; .JPEG; .JPG; .jpg; JPEG Image; .jpeg; .jpe; Interlaced JPEG; JPE file; PJPEG; JPIG; Jaypeg; Image/jpeg; Minimum Coded Unit; ISO 10918-1; JPEG Interchange Format; Minimum coded unit; JPEG encoding; JPEG file; JPG file; JPEG image; T.81; Data compression/JPEG; .mpo; JPEG Stereo; Progressive JPEG; PJPG; P JPG; Multi-Picture Format; .jps; JPEG Stereoscopic; Still Picture Interchange File Format; .jif; JPEG film; JPEG format; JPEG compression; JPEG photo; JPEG picture; JPEG photograph; JPEG pic; JPEG pix; .pjp; .pjpeg; .jfi; .JFI; .PJPEG; .PJP; .JPE; .JIF; JPEG 1; JPEG-1; T.83; T.84; T.86; T.872; T.873
abbreviation
JPEG m, Grupo m de expertos fotográficos
abbreviation
JPEG m, Grupo m de expertos fotográficos
JPEG         
  • Continuously varied JPEG compression (between Q=100 and Q=1) for an [[abdominal]] [[CT scan]]
  • The DCT transforms an 8×8 block of input values to a [[linear combination]] of these 64 patterns. The patterns are referred to as the two-dimensional DCT ''basis functions'', and the output values are referred to as ''transform coefficients''. The horizontal index is <math>u</math> and the vertical index is <math>v</math>.
  • Zigzag ordering of JPEG image components
  • 120px
  • 120px
  • 120px
  • 120px
  • 120px
  • The 8×8 sub-image shown in 8-bit grayscale
  • ''Baseline sequential'' JPEG encoding and decoding processes
  • An example of a stereoscopic .JPS file
  • The compressed 8×8 squares are visible in the scaled-up picture, together with other visual artifacts of the [[lossy compression]].
  • The original image
  • This image shows the pixels that are different between a non-compressed image and the same image JPEG compressed with a quality setting of 50. Darker means a larger difference. Note especially the changes occurring near sharp edges and having a block-like shape.
  • 100px
  • 100px
  • 100px
  • 100px
  • Visual impact of a jpeg compression on Photoshop on a picture of 4480x4480 pixels
CONFLATION OF MULTIPLE TOPICS INCLUDING COMPRESSION ALGORITHMS, VARIOUS FILE FORMATS, STANDARDS/TECHNICAL SPECIFICATIONS AND A NON-PROFIT ORGANISATION
JPG; Jpeg; Jpg; JPEG file format; .JPEG; .JPG; .jpg; JPEG Image; .jpeg; .jpe; Interlaced JPEG; JPE file; PJPEG; JPIG; Jaypeg; Image/jpeg; Minimum Coded Unit; ISO 10918-1; JPEG Interchange Format; Minimum coded unit; JPEG encoding; JPEG file; JPG file; JPEG image; T.81; Data compression/JPEG; .mpo; JPEG Stereo; Progressive JPEG; PJPG; P JPG; Multi-Picture Format; .jps; JPEG Stereoscopic; Still Picture Interchange File Format; .jif; JPEG film; JPEG format; JPEG compression; JPEG photo; JPEG picture; JPEG photograph; JPEG pic; JPEG pix; .pjp; .pjpeg; .jfi; .JFI; .PJPEG; .PJP; .JPE; .JIF; JPEG 1; JPEG-1; T.83; T.84; T.86; T.872; T.873
See: JPG
JPEG compression         
  • Continuously varied JPEG compression (between Q=100 and Q=1) for an [[abdominal]] [[CT scan]]
  • The DCT transforms an 8×8 block of input values to a [[linear combination]] of these 64 patterns. The patterns are referred to as the two-dimensional DCT ''basis functions'', and the output values are referred to as ''transform coefficients''. The horizontal index is <math>u</math> and the vertical index is <math>v</math>.
  • Zigzag ordering of JPEG image components
  • 120px
  • 120px
  • 120px
  • 120px
  • 120px
  • The 8×8 sub-image shown in 8-bit grayscale
  • ''Baseline sequential'' JPEG encoding and decoding processes
  • An example of a stereoscopic .JPS file
  • The compressed 8×8 squares are visible in the scaled-up picture, together with other visual artifacts of the [[lossy compression]].
  • The original image
  • This image shows the pixels that are different between a non-compressed image and the same image JPEG compressed with a quality setting of 50. Darker means a larger difference. Note especially the changes occurring near sharp edges and having a block-like shape.
  • 100px
  • 100px
  • 100px
  • 100px
  • Visual impact of a jpeg compression on Photoshop on a picture of 4480x4480 pixels
CONFLATION OF MULTIPLE TOPICS INCLUDING COMPRESSION ALGORITHMS, VARIOUS FILE FORMATS, STANDARDS/TECHNICAL SPECIFICATIONS AND A NON-PROFIT ORGANISATION
JPG; Jpeg; Jpg; JPEG file format; .JPEG; .JPG; .jpg; JPEG Image; .jpeg; .jpe; Interlaced JPEG; JPE file; PJPEG; JPIG; Jaypeg; Image/jpeg; Minimum Coded Unit; ISO 10918-1; JPEG Interchange Format; Minimum coded unit; JPEG encoding; JPEG file; JPG file; JPEG image; T.81; Data compression/JPEG; .mpo; JPEG Stereo; Progressive JPEG; PJPG; P JPG; Multi-Picture Format; .jps; JPEG Stereoscopic; Still Picture Interchange File Format; .jif; JPEG film; JPEG format; JPEG compression; JPEG photo; JPEG picture; JPEG photograph; JPEG pic; JPEG pix; .pjp; .pjpeg; .jfi; .JFI; .PJPEG; .PJP; .JPE; .JIF; JPEG 1; JPEG-1; T.83; T.84; T.86; T.872; T.873
Reglamento para la compresión efectiva de fotos gráficas durante una pequeña perdida de sus componentes

Definición

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Wikipedia

Joint Bi-level Image Experts Group

The Joint Bi-level Image Experts Group (JBIG) is a group of experts nominated by national standards bodies and major companies to work to produce standards for bi-level image coding. The "joint" refers to its status as a committee working on both ISO and ITU-T standards. It is one of two sub-groups of ISO/IEC Joint Technical Committee 1, Subcommittee 29, Working Group 1 (ISO/IEC JTC 1/SC 29/WG 1), whose official title is Coding of still pictures.

The Joint Bi-level Image Experts Group created the JBIG and JBIG2 standards. The group often meets jointly with the JPEG committee, which typically meets three times annually.

ISO/IEC JTC1 SC29 Working Group 1 (working together with ITU-T Study Group 16 – VCEG and previously also with Study Group 8 – SG8) is responsible for both JPEG and JBIG standards. It includes two sub-groups: the Joint Photographic Experts Group (JPEG SG) and the Joint Bi-level Image experts Group (JBIG SG).

In the mid-1980s, both CCITT (now ITU-T) and ISO had standardization groups for image coding: CCITT Study Group (SG) VIII (Telematic Services) and ISO TC97 SC2 WG8 (Coding of Audio and Picture Information). They were historically targeted on image communication. In 1986, it was decided to create the Joint (CCITT/ISO) Photographic Expert Group. In 1988, it was decided to create the Joint (CCITT/ISO) Bi-level Image Group – JBIG.