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Whitepaper: Optimal performance with two or more computer screens

Nowadays we almost standard work with several programs at the same time. Positioning this information side by side, on two or more screens, is very practical. It prevents the chance of errors and provides overview and peace of mind. In this white paper we tell you more about the performance and health effects of working with multiple screens.
Whitepaper: Optimal performance with two or more computer screens
Standards and legislation
The legal requirements that a workplace has to meet when doing computer work can be found in EU Directive 90/270/EEC which has been the basis for the national legislation drawn up in each EU member state. According to Regulation 3 of the Health and Safety Regulations, the screen and keyboard may not be a single unit. In addition, it should be easy to adjust the angle and height of the screen. This legislation applies in the United Kingdom and in all EU member states.

The Health and Safety (Display Screen Equipment) regulations 19992 (amended 2002) apply to all display screen equipment (DSE) – computer screens:
 
  • Employers must carry out a risk assessment of workstations used by employees to reduce any identified risks.
  • Employers must ensure that employees take regular and adequate breaks from looking at their screens (The CompactLaw Risk Assessment Form recommends a five minute break to alternative work, either at an employee’s desk or away from their desk every 30 minutes).

Legislation stipulates no other requirements for how two or more monitors have to be used. To gain more insight into this, we examined various studies. The research findings show the impacts on health and performance when using two or more monitors.

Several studies have found that the use of two or more computer screens can substantially improve performance (University of Utah, 2008; Colvin, et al., 2004; Czerwinski, et al., 2003). The following two studies are good examples.

Impacts on performance
In the first study, which was conducted by Colvin, participants received five minutes of training before starting to work with multiple computer screens. All participants worked for one hour using a single monitor and then one hour using two or three monitors. Half of the group worked with two monitors and the other half with three monitors. The task consisted of correcting texts in Word, slide texts in PowerPoint and spreadsheets in Excel as based on a document indicating the changes to be made. These are complex but very common tasks involving VDU work. The findings showed a definite improvement in performance: 10% more production in the same period of time and 33% fewer errors (Colvin, et al., 2004).

The second study, which was conducted by researchers at the University of Utah, was a successor to the study by Colvin’s team. This study examined the effect of screen size and the number of monitors on performance measured as the time required to complete a task. In addition to the more commonly used computer screens measuring 18 to 22 inches, this team of researchers also included widescreen monitors, measuring 22, 26 and 30 inches diagonally. These widescreen monitors can effectively display two applications on a single screen, which is similar to working with two screens.
With two or more screens, the user’s attention has to shift back and forth between them. This setup often means that not only the user’s eyes but also his body turns to face one screen and then the other. Working with two screens side by side can thus lead to more frequent neck rotation and muscle strain in the neck and shoulder region (Alabdulmohsen, 2011).

However, using a large enough monitor and the best possible setup of the monitors can largely eliminate this additional muscle strain. This is because, according to research (Sommerich, et al, 2001), a 19-inch or larger screen results in a substantial reduction in neck and shoulder strain. This means that it is a question of creating a balance between the impact on health and a gain in performance.
Research findings
The research findings showed a definite correlation between the size of the monitor and production gain. The larger the monitor, the greater the production gain (Figure 2). The gain was also greater when using two monitors than when using just one that provided the same amount of surface as two. The greatest production gains were shown when using a 26-inch widescreen monitor and when using two 20-inch monitors: an increase of more than 40% in performance as compared to using a single 18-inch computer screen.

Surprisingly, the use of an even larger (30-inch) widescreen monitor resulted in less production gain than the use of a 26-inch monitor. This indicates that the maximum amount of information we can process on a monitor is limited.

To summarise: Working with more than one monitor results in a considerable gain in performance and production as compared to using a single monitor. The best performances resulted from using a single 26-inch widescreen monitor (displaying two applications side by side) or a dual-screen setup using two 20-inch monitors.
Selection guide: How and when to use two computer screens
When does it pay to use two monitors instead of one? Research by Colvin, et al. indicates that, if a user spends more than 20% of his time on tasks involving consolidating information from more than one source, the improved performance definitely makes the investment costs worthwhile (Colvin, et al., 2004). Considering the fact that monitors have become much less expensive than they were when this research was carried out, today’s break-even point would be even less than 20%

So, if two or more monitors are required, what is the optimal monitor setup? Answering this question involves considering two important factors: 1) the viewing distance, and 2) the position of the monitors from each other and the user.

The viewing distance
The optimal viewing distance partly depends on the quality of the image (contrast, resolution, brightness, etc.) and on the user’s visual acuity. However, the greatest factors in determining the optimal viewing distance are the horizontal viewing angle and the size of the characters (character height) on the screen. This also means that there is a direct correlation between the horizontal viewing distance and the size of the computer screens.

A relatively large viewing distance results in less eye strain, because the eyes do not need to accommodate as much. Moving the screen further from the viewer, however, also means that the characters on the screen will have to be enlarged proportionally. The disadvantage of doing this is that less information fits on the screen which results in more scrolling. 
Viewing angle and distance on two screens
Horizontal viewing angle and viewing distance when using two screens
In the case of two large side by side computer screens, the character height is not necessarily larger than in the case of small computer screens. The screens, therefore, need not be automatically placed further from the eye.

There is another problem, however, the horizontal viewing angle: How wide is the user’s field of vision before he has to turn his head and put additional strain on his neck and shoulder muscles? This is why people would rather not sit in the front row in the cinema. Farther back in the theatre, the whole screen is within their horizontal viewing angle.

According to NEN 894-2, the optimal viewing angle lies between 0 and 15º and 0 and -15º (area A). The acceptable viewing angle lies between 0 and 30º and 0 and -30º (area B). Area C is not easily visible anymore. As a result, users will have to turn their head to get a good view of it (see Figure 3).
Horizontal viewing angle in degrees.
The size of screens in relation to the recommended viewing angle
When 24-inch screens are used, part of the screen is soon outside the range of 0-30º. Part of both screens is beyond the recommended horizontal viewing angle of 30°. By using two 20-inch computer screens, the width of each screen is reduced by around 10 cm, so the screens are then within the recommended horizontal viewing angle.

In order to work ergonomically with two 22 or 24-inch computer screens, a larger viewing distance of 70 or 80 cm is needed (see Table 1). A standard desk, however, has a worktop depth of 80 cm, and the foot of a computer screen takes up another 20 to 25 cm. A monitor arm can provide a solution by increasing the viewing distance to the edge of the desk. Buying a deeper desk is a more expensive alternative.
Monitor setup and recommended minimum viewing distance

The ideal position for the computer screens

The position of the computer screens is thus a major factor in providing the user with an ergonomically responsible situation. After all, this contributes to determining the horizontal viewing angle and the viewing distance. In practice, you often see the following two setups, placing both monitors on a monitor arm makes it easy to switch between these two setups.
Computer screens side by side
This setup is recommended when the user spends more than a third of his time on tasks involving the processing of data from more than one source. When using this setup, it is convenient to use a small angle (about 15°) in order to reduce the horizontal viewing angle.
Computer screens side by side
A main screen directly in front of the user and an additional screen to the right or left of it (at an angle of 15°)
This setup is recommended when the user spends the majority of his time on conducting tasks requiring a single monitor. The risk of potential neck and shoulder strain is then eliminated by adjusting the viewing distance correctly. The recommended monitor size is 19 inches or larger in order to minimise neck rotation and optimise performance. 
A main screen directly in front of the user and an additional screen to the right or left of it
Conclusion
Working with more than one computer screen results in considerable production gain. For four hours of VDU work a day, this gain easily amounts to more than 30 minutes a day. And, with screens up to 26 inches, the greater the screen, the greater the production gain. To prevent additional neck and shoulder strain resulting from the use of multiple screens, creating an ergonomic workplace with one or more monitor arms is recommended. A monitor arm makes it easy to adjust the viewing distance and the placement of the screens and also provides more room on the desk.
View all our monitor arms here

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