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Wikipedia

Vignetting

November 18, 2023

In photography and optics, vignetting (/vɪnˈjɛtŋ/; vin-YET-ing) is a reduction of an image's brightness or saturation toward the periphery compared to the image center. The word vignette, from the same root as vine, originally referred to a decorative border in a book. Later, the word came to be used for a photographic portrait that is clear at the center and fades off toward the edges. A similar effect is visible in photographs of projected images or videos off a projection screen, resulting in a so-called "hotspot" effect.

A vignette is often added to an image to draw interest to the center and to frame the center portion of the photo.
Vignetting is a common feature of photographs produced by toy cameras such as this shot taken with a Holga.
This example shows both vignetting and restricted field of view (FOV). Here a "point-and-shoot camera" is used together with a microscope to create this image. Pronounced vignetting (fall off in brightness towards the edge) is visible as the optical system is not well adapted. A further circular restriction of the FOV is visible (the black area in the image).

Vignetting is often an unintended and undesired effect caused by camera settings or lens limitations. However, it is sometimes deliberately introduced for creative effect, such as to draw attention to the center of the frame. A photographer may deliberately choose a lens that is known to produce vignetting to obtain the effect, or it may be introduced with the use of special filters or post-processing procedures.

When using zoom lenses, vignetting may occur all along the zoom range, depending on the aperture and the focal length. However, it may not always be visible, except at the widest end (the shortest focal length). In these cases, vignetting may cause an exposure value (EV) difference of up to 3EV.[1]

Causes edit

There are several causes of vignetting. Sidney F. Ray[2] distinguishes the following types:

  • Mechanical vignetting
  • Optical vignetting
  • Natural vignetting

A fourth cause is unique to digital imaging:

  • Pixel vignetting

A fifth cause is unique to analog imaging:

Mechanical vignetting edit

Mechanical vignetting occurs when light beams emanating from object points located off-axis (laterally or vertically off from the optical axis of an optical system under consideration) are partially blocked by external objects of the optical system such as thick or stacked filters, secondary lenses, and improper lens hoods. This has the effect of changing the entrance pupil shape as a function of angle (resulting in the path of light being partially blocked). Darkening can be gradual or abrupt – the smaller the aperture, the more abrupt the vignetting as a function of angle.

When some points on an image receives no light at all due to mechanical vignetting (the paths of light to these image points is completely blocked), then this results in a restriction of the Field of View (FOV) – parts of the image are then completely black.

Optical vignetting edit

This type of vignetting is caused by the physical dimensions of a multiple element lens. Rear elements of the lens are shaded by elements in front of them, which reduces the effective lens opening for off-axis incident light. The result is a gradual decrease in light intensity towards the image periphery. Optical vignetting is sensitive to the lens aperture and can often be cured by a reduction in aperture of 2–3 stops. (An increase in the F-number.)

Natural vignetting edit

Unlike the previous types, natural vignetting (also known as natural illumination falloff) is not due to the blocking of light rays. The falloff is approximated by the cos4 or "cosine fourth" law of illumination fall off. Here, the light fall off is proportional to the fourth power of the cosine of the angle at which the light impinges on the film or sensor array. Wide angle rangefinder designs and the lens designs used in compact cameras are particularly prone to natural vignetting. Telephoto lenses, retrofocus wide angle lenses used on SLR cameras, and telecentric designs in general are less troubled by natural vignetting. A gradual grey filter or postprocessing techniques may be used to compensate for natural vignetting, as it cannot be cured by stopping down the lens. Some modern lenses are specifically designed so that the light strikes the image perpendicular or nearly so, eliminating or greatly reducing vignetting.

Pixel vignetting edit

Pixel vignetting only affects digital cameras and is caused by angle-dependence of the digital sensors[clarification needed]. Light incident on the sensor at normal incident produces a stronger signal than light hitting it at an oblique angle. Most digital cameras use built-in image processing to compensate for optical vignetting and pixel vignetting when converting raw sensor data to standard image formats such as JPEG or TIFF. The use of offset microlenses over the image sensor can also reduce the effect of pixel vignetting.

 
Vignetting can be used to artistic effect, as demonstrated in this panorama.
 
Vignetting can be applied in the post-shoot phase with digital imaging software.

Post-shoot edit

For artistic effect, vignetting is sometimes applied to an otherwise un-vignetted photograph and can be achieved by burning the outer edges of the photograph (with film stock) or using digital imaging techniques, such as masking darkened edges. The Lens Correction filter in Photoshop can also achieve the same effect.

In digital imaging, this technique is used to create a low fidelity appearance in the picture.

To give a photo a 'retro' look - that it was made with an old camera or lens - one could add an obvious 'vignette' using 'lens correction' or burning in margins by any of several techniques.

There is a much more general use.

Viewers' eyes are attracted to brightness so if the areas to the corners or edges are brighter that the desired center of interest, eyes may wander towards that brightness. To direct the viewers' attention, the bright corners or margins are barely perceptibly darkened. This darkening 'fences off' the bright area and keeps the viewer's eyes where the photographer wants.

The object is to keep the view inside the image but, at the same time, not be obvious.


See also edit

Footnotes edit

  1. ^ "Canon EF 24-70 mm f/2.8L II USM review - Vignetting". LensTip.com. 29 November 2012. Retrieved 21 April 2023.
  2. ^ Sidney F. Ray, Applied photographic optics, 3rd ed., Focal Press (2002) ISBN 978-0-240-51540-3.

References edit

  • Peter B. Catrysse, Xinqiao Liu, and Abbas El Gamal: QE Reduction due to Pixel Vignetting in CMOS Image Sensors; in Morley M. Blouke, Nitin Sampat, George M. Williams, Jr., Thomas Yeh (ed.): Sensors and Camera Systems for Scientific, Industrial, and Digital Photography Applications, Proceedings of SPIE, vol. 3965 (2000).
  • Yuanjie Zheng, Stephen Lin, and Sing Bing Kang, Single-Image Vignetting Correction; IEEE Conference on Computer Vision and Pattern Recognition 2006
  • Olsen, Doug; Dou, Changyong; Zhang, Xiaodong; Hu, Lianbo; Kim, Hojin; Hildum, Edward. 2010. "Radiometric Calibration for AgCam" Remote Sens. 2, no. 2: 464-477.

November 18, 2023
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This article includes a list of general references but it lacks sufficient corresponding inline citations Please help to improve this article by introducing more precise citations January 2014 Learn how and when to remove this template message In photography and optics vignetting v ɪ n ˈ j ɛ t ŋ vin YET ing is a reduction of an image s brightness or saturation toward the periphery compared to the image center The word vignette from the same root as vine originally referred to a decorative border in a book Later the word came to be used for a photographic portrait that is clear at the center and fades off toward the edges A similar effect is visible in photographs of projected images or videos off a projection screen resulting in a so called hotspot effect A vignette is often added to an image to draw interest to the center and to frame the center portion of the photo Vignetting is a common feature of photographs produced by toy cameras such as this shot taken with a Holga This example shows both vignetting and restricted field of view FOV Here a point and shoot camera is used together with a microscope to create this image Pronounced vignetting fall off in brightness towards the edge is visible as the optical system is not well adapted A further circular restriction of the FOV is visible the black area in the image Vignetting is often an unintended and undesired effect caused by camera settings or lens limitations However it is sometimes deliberately introduced for creative effect such as to draw attention to the center of the frame A photographer may deliberately choose a lens that is known to produce vignetting to obtain the effect or it may be introduced with the use of special filters or post processing procedures When using zoom lenses vignetting may occur all along the zoom range depending on the aperture and the focal length However it may not always be visible except at the widest end the shortest focal length In these cases vignetting may cause an exposure value EV difference of up to 3EV 1 Contents 1 Causes 1 1 Mechanical vignetting 1 2 Optical vignetting 1 3 Natural vignetting 1 4 Pixel vignetting 2 Post shoot 3 See also 4 Footnotes 5 ReferencesCauses editThere are several causes of vignetting Sidney F Ray 2 distinguishes the following types Mechanical vignetting Optical vignetting Natural vignettingA fourth cause is unique to digital imaging Pixel vignettingA fifth cause is unique to analog imaging Photographic film vignettingMechanical vignetting edit Mechanical vignetting occurs when light beams emanating from object points located off axis laterally or vertically off from the optical axis of an optical system under consideration are partially blocked by external objects of the optical system such as thick or stacked filters secondary lenses and improper lens hoods This has the effect of changing the entrance pupil shape as a function of angle resulting in the path of light being partially blocked Darkening can be gradual or abrupt the smaller the aperture the more abrupt the vignetting as a function of angle When some points on an image receives no light at all due to mechanical vignetting the paths of light to these image points is completely blocked then this results in a restriction of the Field of View FOV parts of the image are then completely black Optical vignetting edit This type of vignetting is caused by the physical dimensions of a multiple element lens Rear elements of the lens are shaded by elements in front of them which reduces the effective lens opening for off axis incident light The result is a gradual decrease in light intensity towards the image periphery Optical vignetting is sensitive to the lens aperture and can often be cured by a reduction in aperture of 2 3 stops An increase in the F number Natural vignetting edit Unlike the previous types natural vignetting also known as natural illumination falloff is not due to the blocking of light rays The falloff is approximated by the cos4 or cosine fourth law of illumination fall off Here the light fall off is proportional to the fourth power of the cosine of the angle at which the light impinges on the film or sensor array Wide angle rangefinder designs and the lens designs used in compact cameras are particularly prone to natural vignetting Telephoto lenses retrofocus wide angle lenses used on SLR cameras and telecentric designs in general are less troubled by natural vignetting A gradual grey filter or postprocessing techniques may be used to compensate for natural vignetting as it cannot be cured by stopping down the lens Some modern lenses are specifically designed so that the light strikes the image perpendicular or nearly so eliminating or greatly reducing vignetting Pixel vignetting edit Pixel vignetting only affects digital cameras and is caused by angle dependence of the digital sensors clarification needed Light incident on the sensor at normal incident produces a stronger signal than light hitting it at an oblique angle Most digital cameras use built in image processing to compensate for optical vignetting and pixel vignetting when converting raw sensor data to standard image formats such as JPEG or TIFF The use of offset microlenses over the image sensor can also reduce the effect of pixel vignetting nbsp Vignetting can be used to artistic effect as demonstrated in this panorama nbsp Vignetting can be applied in the post shoot phase with digital imaging software Post shoot editFor artistic effect vignetting is sometimes applied to an otherwise un vignetted photograph and can be achieved by burning the outer edges of the photograph with film stock or using digital imaging techniques such as masking darkened edges The Lens Correction filter in Photoshop can also achieve the same effect In digital imaging this technique is used to create a low fidelity appearance in the picture To give a photo a retro look that it was made with an old camera or lens one could add an obvious vignette using lens correction or burning in margins by any of several techniques There is a much more general use Viewers eyes are attracted to brightness so if the areas to the corners or edges are brighter that the desired center of interest eyes may wander towards that brightness To direct the viewers attention the bright corners or margins are barely perceptibly darkened This darkening fences off the bright area and keeps the viewer s eyes where the photographer wants The object is to keep the view inside the image but at the same time not be obvious See also editDodging and burning Feathering Flat field correction Metering mode Vignette philately Footnotes edit Canon EF 24 70 mm f 2 8L II USM review Vignetting LensTip com 29 November 2012 Retrieved 21 April 2023 Sidney F Ray Applied photographic optics 3rd ed Focal Press 2002 ISBN 978 0 240 51540 3 References editPeter B Catrysse Xinqiao Liu and Abbas El Gamal QE Reduction due to Pixel Vignetting in CMOS Image Sensors in Morley M Blouke Nitin Sampat George M Williams Jr Thomas Yeh ed Sensors and Camera Systems for Scientific Industrial and Digital Photography Applications Proceedings of SPIE vol 3965 2000 Yuanjie Zheng Stephen Lin and Sing Bing Kang Single Image Vignetting Correction IEEE Conference on Computer Vision and Pattern Recognition 2006 Olsen Doug Dou Changyong Zhang Xiaodong Hu Lianbo Kim Hojin Hildum Edward 2010 Radiometric Calibration for AgCam Remote Sens 2 no 2 464 477 Retrieved from https en wikipedia org w index php title Vignetting amp oldid 1179272164, wikipedia, wiki, book, books, library,

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