Numerical values of RPA - around 75 cm (about 30 in.)- and RPV - around 80 cm (about 32 in.)- are close to each other which makes setting the right viewing distance simple. Under these conditions, individuals with perfect (20/20) vision or those with properly corrected vision are not likely to experience eyestrain (assuming they take appropriate eye "rest breaks" from focusing on the screen). In practical terms, at distances greater than the RPA and RPV, there is no need for either accommodation or convergence. The eyes have a default accommodation distance, called the Resting Point of Accommodation (RPA) and a default Resting Point of Vergence (RPV). Consequently, the right viewing distance is the one at which the computer operator can easily read the screen without experiencing eyestrain. A greater viewing distance, on the other hand, eliminates the risk for eyestrain but can make the resolving of the finer images or characters displayed on the computer screen more difficult. The shorter the viewing distance, the greater the muscular effort required for accommodation and convergence, and which, in turn, increases the risk for eye discomfort. It is not only individual but it also can change over time, for example, due to age.Īccommodation* and convergence** are the two main functions, which govern the viewing of objects at closer distances. The distinction between "far distance" and "close distance" is never "razor sharp". Looking at far distances does not cause eyestrain - it is the muscular effort required to focus on objects at close distances that strains the eyes. What should you know while setting up (selecting) a proper viewing distance? Because the lower part of the lens is used for close vision, lowering the monitor may help reduce tilting the head to see the screen. Individuals who wear corrective lenses for reading or close work (e.g., bi-focals, tri-focals, and progressive lenses) may find placing the top of the monitor slightly below eye level more comfortable. When using a larger monitor (17", 19" or larger) or one that is oriented to the "portrait" position, make sure that the top of the screen is not at a level higher than the operator's eye. The fact that discomfort caused by a monitor which is too high (above the horizontal) is worse than one which is slightly too low (below an acceptable visual zone) should be kept in mind while arranging a monitor at any workstation. At a workstation where the desk and chair heights are properly adjusted, the monitor should be placed at the same level as the keyboard. A monitor located at a high level is a source of discomfort and, in the long run, can cause musculoskeletal problems in the neck and shoulder area. Occasionally monitors are placed on top of the hard case or CPU. This finding allows one to extend the visual zone downward by another 15 degrees (an acceptable visual zone) for a total of 45 degrees (see Figure 2). On the other hand, looking downwards, that is, lower than 15 degrees below the horizontal, was not reported as particularly fatiguing. Numerous field studies among people doing intense visual work indicate that looking upwards (above the horizontal) is tiring. Such a location creates a preferable visual zone of 30 degrees (+ 15 degrees to -15 degrees from the normal line of sight). Therefore, for comfortable viewing of images on a computer screen it is probably reasonable to place the monitor at about 15 degrees (or slightly lower) below the horizontal line. People engaged in visually demanding tasks limit their downward eye movements to about half of the whole available range of 60 degrees. Experimental findings range from about 15 degrees to almost 30 degrees. How far downwards, however, is not clear. Researchers agree that at rest, the eyes naturally assume a straightforward and downward cast (see Figure 1) line of sight.
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