Glare (vision) explained

Glare is difficulty of seeing in the presence of bright light such as direct or reflected sunlight or artificial light such as car headlamps at night. Because of this, some cars include mirrors with automatic anti-glare functions and in buildings, blinds or louvers are often used to protect occupants. Glare is caused by a significant ratio of luminance between the task (that which is being looked at) and the glare source. Factors such as the angle between the task and the glare source and eye adaptation have significant impacts on the experience of glare.

Discomfort and disability

Glare can be generally divided into two types, discomfort glare and disability glare.[1] Discomfort glare is a psychological sensation caused by high brightness (or brightness contrast) within the field of view, which does not necessarily impair vision.[2] In buildings, discomfort glare can originate from small artificial lights (e.g. ceiling fixtures) that have brightnesses that are significantly greater than their surrounding. When the luminous source occupies a much greater portion of the visual field (e.g. daylit windows), discomfort caused by glare can be linked to a saturating effect. Since observers will not always look directly at a bright illuminated source, discomfort glare usually arises when an observer is focusing on a visual task (e.g. a computer-screen) and the bright source is within their peripheral visual field.[3]

Disability glare impairs the vision of objects without necessarily causing discomfort.[4] This could arise for instance when driving westward at sunset. Disability glare is often caused by the inter-reflection of light within the eyeball, reducing the contrast between task and glare source to the point where the task cannot be distinguished. When glare is so intense that vision is completely impaired, it is sometimes called dazzle.[5]

Reducing factors

Glare can reduce visibility by:

Sunglasses are often worn to reduce glare; polarized sunglasses are designed to reduce glare caused by light reflected from non-metallic surfaces such as water, glossy printed matter or painted surfaces. An anti-reflective treatment on eyeglasses reduces the glare at night and glare from inside lights and computer screens that is caused by light bouncing off the lens. Some types of eyeglasses can reduce glare that occurs because of the imperfections on the surface of the eye.

Light field measurements can be taken to reduce glare with digital post-processing.

Measurement

Methods

Discomfort glare has often been studied using psychophysics experiments, where the common methods have been the luminance adjustment and category rating procedures.[6] Studies conducted by Petherbridge and Hopkinson[7] and Luckiesh and Guth.[8] were amongst the first to compared subjective assessments given by observers against physical measurements produced by a glare source.

Biases

A comprehensive review of the methods used to measure glare showed that there are biases associated with its measurement.[9] Luminance adjustments are sensitive to anchoring (cognitive bias) effects caused when the initial starting luminance viewed influences the final assessment of visual discomfort.[10] Glare is also subject to stimulus range bias effects.[11] [12] This occurs when the luminance range influences the final evaluation of glare given by the observer. A larger range, often results in higher glare evaluations given.

Prediction models

Glare from artificial lights is typically measured with luminance meters. From daylit windows, cameras are used to convert the pixels into luminance. Both of which are able to determine the luminance of objects within small solid angles. The glare of a scene i.e. visual field of view, is then calculated from the luminance data of that scene.

The International Commission on Illumination (CIE) defines glare as:

"Visual conditions in which there is excessive contrast or an inappropriate distribution of light sources that disturbs the observer or limits the ability to distinguish details and objects".[13] [14]

The CIE recommends the Unified glare rating (UGR) as a quantitative measure of glare.[15] [16] Other glare calculation methods include CIBSE Glare Index, IES Glare Index and the Daylight Glare Index (DGI).[17]

Unified glare rating

The unified glare rating (UGR) is a measure of the glare in a given environment, proposed by Sorensen in 1987 and adopted by the International Commission on Illumination (CIE). It is basically the logarithm of the glare of all visible lamps, divided by the background lumination

Lb

:[18]

UGR=8log

0.25
Lb

\sumn

2
\left(L
n
\omegan
2
p
n

\right),

Where

log

is the common logarithm (base 10),

Ln

is the luminance of each light source numbered

n

,

\omegan

is the solid angle of the light source seen from the observer and

pn

is the Guth position index, which depends on the distance from the line of sight of the viewer.

See also

Notes and References

  1. Osterhaus . Werner . 2005 . Discomfort glare assessment and prevention for daylight applications in office environments . Solar Energy . 79 . 2 . 140–158 . 10.1016/j.solener.2004.11.011 . 2005SoEn...79..140O . 2021-02-26.
  2. Web site: discomfort glare . Illuminating Engineering Society.
  3. Kent . Michael . Fotios . Steve . Altomonte . Sergio . 2019 . An Experimental Study on the Effect of Visual Tasks on Discomfort Due to Peripheral Glare . LEUKOS . 15 . 1 . 17–28 . 10.1080/15502724.2018.1489282 . free .
  4. Web site: CIE e-ILV: 17-330 disability glare . CIE . live . https://web.archive.org/web/20130511162620/http://eilv.cie.co.at/term/330 . 2013-05-11 .
  5. Book: Schreuder, D. A.. Road Lighting for Safety. 1998. Thomas Telford Publishing. London. 0-7277-2616-1. 107. September 25, 2009. live. https://web.archive.org/web/20180113231210/https://books.google.com/books?id=C9UxoH5ehwYC&printsec=frontcover&source=gbs_v2_summary_r&cad=0. January 13, 2018.
  6. Fotios . Steve . Kent . Michael . 2021 . Measuring Discomfort from Glare: Recommendations for Good Practice . LEUKOS . 17 . 4 . 338–358 . 10.1080/15502724.2020.1803082 . 225293753 . 2021-02-26.
  7. Petherbridge . P . Hopkinson . RG . 1950 . Discomfort Glare and the Lighting of Buildings . Transactions of the Illuminating Engineering Society . 15 . 2 . 39–79 . 10.1177/147715355001500201 . 112251972 . 2021-02-26.
  8. Luckiesh . M . Guth . SK . 1949 . Brightnesses in visual field at borderline between comfort and discomfort . Illuminating Engineering . 44 . 11 . 650–670 . 24536275 . 2021-02-26.
  9. Fotios . Steve . Kent . Michael . 2021 . Measuring Discomfort from Glare: Recommendations for Good Practice . LEUKOS . 17 . 4 . 338–358 . 10.1080/15502724.2020.1803082 . 225293753 . 2021-02-26.
  10. Kent. Michael. Fotios. Steve. Altomonte. Sergio. 2017. Discomfort glare evaluation: The influence of anchor bias in luminance adjustments. Lighting Research and Technology. 51. 131–146. 10.1177/1477153517734280. 28046530. free.
  11. Kent. Michael. Fotios. Steve. Cheung. Toby. 2019. Stimulus range bias leads to different settings when using luminance adjustment to evaluate discomfort due to glare. Building and Environment. 153. 281–287. 10.1016/j.buildenv.2018.12.061. 116723107. free. 2019BuEnv.153..281K .
  12. Lulla. Ashok B.. Bennett. Corwin A.. 1981. Discomfort Glare: Range Effects. Journal of the Illuminating Engineering Society. 10. 2. 74–80. 10.1080/00994480.1980.10748591. 2021-11-01.
  13. Web site: Glare (C7654) . OpticianOnline.net . Reed Business Information Limited . 12 October 2007 . October 29, 2012 . Murray Ian . dead . https://web.archive.org/web/20140225040434/http://www.opticianonline.net/Articles/2007/10/12/19552/Glare+%28C7654%29.htm . February 25, 2014 .
  14. Web site: Glare . Centre for Window and Cladding Technologies . October 29, 2012 . live . https://web.archive.org/web/20120812072633/http://www.cwct.co.uk/ibcwindow/adaptive/glare.html . August 12, 2012 .
  15. Book: CIE 117-1995 Discomfort Glare in Interior Lighting . CIE . 1995 . 978-3-900734-70-1.
  16. Book: CIE 190:2010 Calculation and Presentation of Unified Glare Rating Tables for Indoor Lighting Luminaires . CIE . 2010 . 9783901906879.
  17. Web site: Glare . LEARN, Low Energy Architecture Research Unit . October 29, 2012 . live . https://web.archive.org/web/20140225222544/http://www.new-learn.info/packages/clear/visual/people/performance/glare/index.html . February 25, 2014 .
  18. Peter R. Boyce, Human Factors in Lighting, 2nd edition, Taylor and Francis, London, 2003, p. 177