Difference between revisions of "Vergence-Accommodation Conflict"

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'''Vergence-accommodation conflict''', also known as '''VAC''', or '''Accommodation-vergence conflict''', occurs when your brain receives mismatching cues between the distance of a virtual 3D object ([https://en.wikipedia.org/wiki/Vergence vergence]), and the focusing distance ([https://en.wikipedia.org/wiki/Accommodation_(eye) accomodation]) required for the eyes to focus on that object. This occurs while looking at stereoscopic imagery, such as watching 3D TV/cinema, as well as in all current, traditional [[HMD]]s.
 
'''Vergence-accommodation conflict''', also known as '''VAC''', or '''Accommodation-vergence conflict''', occurs when your brain receives mismatching cues between the distance of a virtual 3D object ([https://en.wikipedia.org/wiki/Vergence vergence]), and the focusing distance ([https://en.wikipedia.org/wiki/Accommodation_(eye) accomodation]) required for the eyes to focus on that object. This occurs while looking at stereoscopic imagery, such as watching 3D TV/cinema, as well as in all current, traditional [[HMD]]s.
  
It can contribute to visual fatigue and eyestrain, and vision effects that linger even after ceasing looking at the stereoscopic imagery.
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It can contribute to focusing problems, visual fatigue, and eyestrain, while looking at stereoscopic imagery, and vision effects that linger even after ceasing looking at the imagery.
  
 
In traditional stereoscopic technologies, the virtual image is focused at a fixed depth away from the
 
In traditional stereoscopic technologies, the virtual image is focused at a fixed depth away from the
eyes, while the depth of the virtual objects, and the amount of binocular disparity, varies depending upon the content.
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eyes, while the depth of the virtual objects, and the amount of eye convergence, varies depending upon the content (see [http://doc-ok.org/?p=1360 HMD optical design]).
  
The problem is less severe in 3D TV/cinema, when it is properly taken into account during content creation and display. Part of the reason it's less severe, is that the 3D objects are never close to the viewer.
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The problem is less severe in 3D TV/cinema, when it is properly taken into account during content creation and display. Part of the reason it's less severe, is that the 3D objects are not close to the viewer.
  
The problem occurs because our eyes have evolved an [https://en.wikipedia.org/wiki/Accommodation_reflex accommodation-vergence reflex], which trains them to automatically adjust their optical focus based on the perceived distance to the objects that they are looking at. This helps make focusing quick and accurate.
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The problem occurs because our eyes have an [https://en.wikipedia.org/wiki/Accommodation_reflex accommodation-vergence reflex], which trains them to automatically adjust their optical focus (accommodation) based on the perceived distance to the objects (vergence) that they are looking at. This helps make focusing quick and accurate.
  
When a virtual object appears to be mere inches in front of the user’s face, but the images of that object is, optically, several meters away, the user’s eyes may focus on the wrong distance, causing the virtual object to appear blurry. The same can happen when the virtual object is very far away, but the effect is less pronounced.
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When a virtual object appears to be mere inches in front of the user’s face, but the image of that object is, optically, several meters away (as it is in common HMD design), the user’s eyes may focus on the wrong distance, causing the virtual object to appear blurry. The same can happen when the virtual object is very far away, but the effect is less pronounced.
  
A person's eyes can adapt to this conflict while looking at stereoscopic imagery, leading to accommodation and vergence temporarily decoupling. At that point other focusing reflexes take over, and focusing tends to improve. Although it may be difficult to rapidly re-focus on some virtual objects, since those focusing reflexes can be slower.
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A person's eyes can adapt to this conflict while looking at stereoscopic imagery, leading to [https://en.wikipedia.org/wiki/Accommodation_(eye) accommodation] and [https://en.wikipedia.org/wiki/Vergence vergence] temporarily decoupling. At that point other focusing reflexes take over, and focusing tends to improve. Although it may be difficult to rapidly re-focus on some virtual objects, since those other focusing reflexes can be slower.
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Closing one eye is one method for focusing on a nearby virtual object, if the user is having problems. With one eye closed, there is no conflict between [https://en.wikipedia.org/wiki/Vergence vergence] and the required [https://en.wikipedia.org/wiki/Accommodation_(eye) accommodation].
  
 
The natural accommodation-vergence coupling will re-establish at some point after taking off the [[HMD]]. Users might experience strange-feeling vision problems until it does.
 
The natural accommodation-vergence coupling will re-establish at some point after taking off the [[HMD]]. Users might experience strange-feeling vision problems until it does.
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==References==
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* Oliver Kreylos, [http://doc-ok.org/?p=1602 Accommodation and Vergence in Head-mounted Displays]
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* Gregory Kramida and Amitabh Varshney, [https://www.cs.umd.edu/sites/default/files/scholarly_papers/Kramidarev.pdf Resolving the Vergence-Accommodation Conflict in Head Mounted Displays]
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* Oliver Kreylos, [http://doc-ok.org/?p=1360 Head-mounted Displays and Lenses]
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[[Category:Terms]]

Latest revision as of 17:05, 28 October 2023

Vergence-accommodation conflict, also known as VAC, or Accommodation-vergence conflict, occurs when your brain receives mismatching cues between the distance of a virtual 3D object (vergence), and the focusing distance (accomodation) required for the eyes to focus on that object. This occurs while looking at stereoscopic imagery, such as watching 3D TV/cinema, as well as in all current, traditional HMDs.

It can contribute to focusing problems, visual fatigue, and eyestrain, while looking at stereoscopic imagery, and vision effects that linger even after ceasing looking at the imagery.

In traditional stereoscopic technologies, the virtual image is focused at a fixed depth away from the eyes, while the depth of the virtual objects, and the amount of eye convergence, varies depending upon the content (see HMD optical design).

The problem is less severe in 3D TV/cinema, when it is properly taken into account during content creation and display. Part of the reason it's less severe, is that the 3D objects are not close to the viewer.

The problem occurs because our eyes have an accommodation-vergence reflex, which trains them to automatically adjust their optical focus (accommodation) based on the perceived distance to the objects (vergence) that they are looking at. This helps make focusing quick and accurate.

When a virtual object appears to be mere inches in front of the user’s face, but the image of that object is, optically, several meters away (as it is in common HMD design), the user’s eyes may focus on the wrong distance, causing the virtual object to appear blurry. The same can happen when the virtual object is very far away, but the effect is less pronounced.

A person's eyes can adapt to this conflict while looking at stereoscopic imagery, leading to accommodation and vergence temporarily decoupling. At that point other focusing reflexes take over, and focusing tends to improve. Although it may be difficult to rapidly re-focus on some virtual objects, since those other focusing reflexes can be slower.

Closing one eye is one method for focusing on a nearby virtual object, if the user is having problems. With one eye closed, there is no conflict between vergence and the required accommodation.

The natural accommodation-vergence coupling will re-establish at some point after taking off the HMD. Users might experience strange-feeling vision problems until it does.

References