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Acutance

January 01, 1970

In photography, acutance describes a subjective perception of sharpness that is related to the edge contrast of an image.[1][2] Acutance is related to the amplitude of the derivative of brightness with respect to space. Due to the nature of the human visual system, an image with higher acutance appears sharper even though an increase in acutance does not increase real resolution.

An image with artificially increased acutance
Another illustration, where overshoot caused by using unsharp masking to sharpen the image (bottom half) increases acutance.

Historically, acutance was enhanced chemically during development of a negative (high acutance developers), or by optical means in printing (unsharp masking). In digital photography, onboard camera software and image postprocessing tools such as Photoshop or GIMP offer various sharpening facilities, the most widely used of which is known as "unsharp mask" because the algorithm is derived from the eponymous analog processing method.

In the example image, two light gray lines were drawn on a gray background. As the transition is instantaneous, the line is as sharp as can be represented at this resolution. Acutance in the left line was artificially increased by adding a one-pixel-wide darker border on the outside of the line and a one-pixel-wide brighter border on the inside of the line. The actual sharpness of the image is unchanged, but the apparent sharpness is increased because of the greater acutance.

Artificially increased acutance has drawbacks. In this somewhat overdone example most viewers will also be able to see the borders separately from the line, which create two halos around the line, one dark and one shimmering bright.

Tools edit

Several image processing techniques, such as unsharp masking, can increase the acutance in real images.

 
Unprocessed, slight unsharp masking, then strong unsharp masking.

Resampling edit

 
Low-pass filtering and resampling affect acutance.

Low-pass filtering and resampling often cause overshoot, which increases acutance, but can also reduce absolute gradient, which reduces acutance. Filtering and resampling can also cause clipping and ringing artifacts. An example is bicubic interpolation, widely used in image processing for resizing images.

Definition edit

One definition of acutance is determined by imaging a sharp "knife-edge", producing an S-shaped distribution over a width W between maximum density D1 and minimum density D2 – steeper transitions yield higher acutance.

Summing the slope Gn of the curve at N points within W gives the acutance value A,

 

More generally, the acutance at a point in an image is related to the image gradient, the gradient of the density (or intensity) at that point, a vector quantity:

 

Several edge detection algorithms exist, based on the gradient norm or its components.

Sharpness edit

Perceived sharpness is a combination of both resolution and acutance: it is thus a combination of the captured resolution, which cannot be changed in processing, and of acutance, which can be so changed.

Properly, perceived sharpness is the steepness of transitions (slope), which is change in output value divided by change in position – hence it is maximized for large changes in output value (as in sharpening filters) and small changes in position (high resolution).

Coarse grain or noise can, like sharpening filters, increase acutance, hence increasing the perception of sharpness, even though they degrade the signal-to-noise ratio.

The term critical sharpness is sometimes heard (by analogy with critical focus) for "obtaining maximal optical resolution", as limited by the sensor/film and lens, and in practice means minimizing camera shake – using a tripod or alternative support, mirror lock-up, a cable release or timer, image stabilizing lenses – and optimal aperture for the lens and scene, usually 2–3 stops down from wide-open (more for deeper scenes: balances off diffraction blur with defocus blur or lens limits at wide-open).

See also edit

References edit

  1. ^ David Präkel (4 January 2010). The Visual Dictionary of Photography. AVA Publishing. pp. 19–. ISBN 978-2-940411-04-7.
  2. ^ Maître, Henri (2015). "Image Quality". From Photon to Pixel. pp. 205–251. doi:10.1002/9781119238447.ch6. ISBN 9781119238447.

Further reading edit

  • The Focal Encyclopedia of Photography, Focal Press, 1956, Ed. Frederick Purves

External links edit

  • Tutorials: Sharpness, at Cambridge in Colour
  • Lens Sharpness: The Never-Ending Quest, at The Luminous Landscape

January 01, 1970
acutance, photography, acutance, describes, subjective, perception, sharpness, that, related, edge, contrast, image, related, amplitude, derivative, brightness, with, respect, space, nature, human, visual, system, image, with, higher, acutance, appears, sharpe. In photography acutance describes a subjective perception of sharpness that is related to the edge contrast of an image 1 2 Acutance is related to the amplitude of the derivative of brightness with respect to space Due to the nature of the human visual system an image with higher acutance appears sharper even though an increase in acutance does not increase real resolution An image with artificially increased acutance Another illustration where overshoot caused by using unsharp masking to sharpen the image bottom half increases acutance Historically acutance was enhanced chemically during development of a negative high acutance developers or by optical means in printing unsharp masking In digital photography onboard camera software and image postprocessing tools such as Photoshop or GIMP offer various sharpening facilities the most widely used of which is known as unsharp mask because the algorithm is derived from the eponymous analog processing method In the example image two light gray lines were drawn on a gray background As the transition is instantaneous the line is as sharp as can be represented at this resolution Acutance in the left line was artificially increased by adding a one pixel wide darker border on the outside of the line and a one pixel wide brighter border on the inside of the line The actual sharpness of the image is unchanged but the apparent sharpness is increased because of the greater acutance Artificially increased acutance has drawbacks In this somewhat overdone example most viewers will also be able to see the borders separately from the line which create two halos around the line one dark and one shimmering bright Contents 1 Tools 1 1 Resampling 2 Definition 3 Sharpness 4 See also 5 References 6 Further reading 7 External linksTools editSeveral image processing techniques such as unsharp masking can increase the acutance in real images nbsp Unprocessed slight unsharp masking then strong unsharp masking Resampling edit nbsp Low pass filtering and resampling affect acutance Low pass filtering and resampling often cause overshoot which increases acutance but can also reduce absolute gradient which reduces acutance Filtering and resampling can also cause clipping and ringing artifacts An example is bicubic interpolation widely used in image processing for resizing images Definition editOne definition of acutance is determined by imaging a sharp knife edge producing an S shaped distribution over a width W between maximum density D1 and minimum density D2 steeper transitions yield higher acutance Summing the slope Gn of the curve at N points within W gives the acutance value A A D 1 D 2 1 N n 1 N G n 2 displaystyle A left D 1 D 2 right frac 1 N sum n 1 N G n 2 nbsp More generally the acutance at a point in an image is related to the image gradient the gradient of the density or intensity at that point a vector quantity A D displaystyle A nabla D nbsp Several edge detection algorithms exist based on the gradient norm or its components Sharpness editPerceived sharpness is a combination of both resolution and acutance it is thus a combination of the captured resolution which cannot be changed in processing and of acutance which can be so changed Properly perceived sharpness is the steepness of transitions slope which is change in output value divided by change in position hence it is maximized for large changes in output value as in sharpening filters and small changes in position high resolution Coarse grain or noise can like sharpening filters increase acutance hence increasing the perception of sharpness even though they degrade the signal to noise ratio The term critical sharpness is sometimes heard by analogy with critical focus for obtaining maximal optical resolution as limited by the sensor film and lens and in practice means minimizing camera shake using a tripod or alternative support mirror lock up a cable release or timer image stabilizing lenses and optimal aperture for the lens and scene usually 2 3 stops down from wide open more for deeper scenes balances off diffraction blur with defocus blur or lens limits at wide open See also editContrast vision Cornsweet illusion Edge enhancement Mach bands Ringing artifactReferences edit David Prakel 4 January 2010 The Visual Dictionary of Photography AVA Publishing pp 19 ISBN 978 2 940411 04 7 Maitre Henri 2015 Image Quality From Photon to Pixel pp 205 251 doi 10 1002 9781119238447 ch6 ISBN 9781119238447 Further reading editThe Focal Encyclopedia of Photography Focal Press 1956 Ed Frederick PurvesExternal links editTutorials Sharpness at Cambridge in Colour Lens Sharpness The Never Ending Quest at The Luminous Landscape Retrieved from https en wikipedia org w index php title Acutance amp oldid 1179281093 critical sharpness, wikipedia, wiki, book, books, library,

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