Local susceptibility of the retina, formation and duration of afterimages in the case of Class 1 laser products, and disability glare arising from high-brightness light emitting diodes
1.J. A. Veitch and G. R. Newsham, “Determinants of lighting quality II: Research and recommendations,” Presented at the 104th Annual Convention of the American Psychological Association (Toronto, Ontario, Canada, 12 August 1996), ERIC Document Reproduction Service No. ED408543 ( 1996).
2.ICNIRP, “ICNIRP Statement on light emitting diodes (LEDs) and laser diodes: implications for hazard assessment,” Health Phys. 78, 744–752 (2000).http://dx.doi.org/10.1097/00004032-200006000-00020
3.Directive 2006/25/EC of the European Parliament and the European Council of 5 April 2006 on the minimum health and safety requirements regarding the exposure of workers to risks arising from physical agents (artificial optical radiation) (19th individual Directive within the meaning of Article 16(1) of Directive 89/391/EEC), OJ L 114, 27.4.2006, p. 38.
4.ICNIRP, “Revision of guidelines on limits for laser radiation of wavelengths between and ,” Health Phys. 79, 431–440 (2000).http://dx.doi.org/10.1097/00004032-200010000-00013
5.ICNIRP, “Guidelines on Limits of Exposure to Laser Radiation of Wavelengths between and ,” Health Phys. 71, 804–819 (1996).
6.ICNIRP, “Guidelines on Limits of Exposure to Broad-Band Incoherent Optical Radiation ,” Health Phys. 73, 539–553 (1997).
7.ICNIRP, “Guidelines on limits of exposure to ultraviolet radiation of wavelengths between and (incoherent optical radiation),” Health Phys. 87, 171–186 (2004).http://dx.doi.org/10.1097/00004032-200408000-00006
8.International Electrotechnical Commission, IEC 60825-1: 2007-03 (2nd ed.), Safety of Laser Products—Part 1: Equipment Classification and Requirements (IEC, Geneva, 2007).
9.J. J. Vos, “Reflections on glare,” Light. Res. Technol. 35, 163–176 (2003).
10.International Commission on Illumination, Publication CIE 17.4, International Lighting Vocabulary, IEC 60050-845-Ed. 1.0 (IEC, Geneva, 1987).
11.International Commission on Illumination, Publication CIE 146:2002, CIE Equations for Disability Glare, in CIE Collection on Glare (CIE, Vienna, 2002).
12.J. W. Ness, H. Zwick, B. E. Stuck, D. J. Lund, B. J. Lund, J. W. Molchany, and D. H. Sliney, “Retinal image motion during deliberate fixation: Implications to laser safety for long duration viewing,” Health Phys. 78, 131–142 (2000).http://dx.doi.org/10.1097/00004032-200002000-00002
13.B. J. Lund, “Computer model to investigate the effect of eye movements on retinal heating during long-duration fixation on a laser source,” J. Biomed. Opt. 9, 1093–1102 (2004).http://dx.doi.org/10.1117/1.1783355
14.L. L. Holladay, “The fundamentals of glare and visibility,” J. Opt. Soc. Am. 12, 271–319 (1926).
15.W. S. Stiles and B. H. Crawford, “The effect of a glaring light source on extrafoveal vision,” Proc. R. Soc. London B122, 255–280 (1937).
16.J. J. Vos, “Disability glare–a state of the art report,” CIE J. 3, 39–53 (1984).
17.J. J. Vos, “On the cause of disability glare and its dependence on glare angle, age and ocular pigmentation,” Clin. Exp. Optom. 86, 363–370 (2003).
18.H.-D. Reidenbach, “Some quantitative aspects of temporary blinding from high brightness LEDs,” Proc. SPIE 6426, 642629 (2007).
19.J. M L. de Faria, O. Katsumi, M. Arai, and T. Hirose, “Objective measurement of contrast sensitivity function using contrast sweep visual,” Br. J. Ophthamol. 82, 168–173 (1998).
20.B. J. Lund, “Laser retinal thermal damage threshold: impact of small-scale ocular motion,” J. Biomed. Opt. 11(6), 064033 (2006).http://dx.doi.org/10.1117/1.2393091
21.International Electrotechnical Commission, IEC TR 60825-15 Ed. 1: “Safety of laser products—Part 15: Guidance on manufacturing requirements relating to non-laser optical radiation safety,” 76/354/CD Committee Draft (CD).
22.IEC 62471/CIE S 009:2002, Photobiological Safety of Lamps and Lamp Systems, Ed. 1,0 (IEC, Geneva, 2006).
23.IEC, “Safe light sources control photobiological hazards,” IEC E-TECH On-Line News (September 2006) (http://www.iec.ch/online_news/etech/arch_2006/etech_0906/focus.htm).
24.H.-D. Reidenbach, H. Warmbold, J. Hofmann, and K. Dollinger, “First experimental results on eye protection by the blink reflex for laser Class 2,” Biomed. Tech. 46 suppl. 1, 428–429 (2001).
25.H.-D. Reidenbach, J. Hofmann, and K. Dollinger, “Investigations concerning aversion responses including the blink reflex as a result of a stimulation with bright optical radiation from LEDs,” Biomed. Tech. 49, suppl. 2, 672–673 (2004).
26.H.-D. Reidenbach, K. Dollinger, and J. Hofmann, “Results of lab and field trials regarding the eye blink reflex as a safety means for LEDs,” Proceedings of the CIE Symposium ’04: LED Light Sources, Tokyo, 7-8 June 2004 (CIE, Vienna, 2004), CIE x026:2004, pp. 67–70.
27.H.-D. Reidenbach, K. Dollinger, and J. Hofmann, “Results from two research projects concerning aversion responses including the blink reflex,” Proc. SPIE 5688, Ophthalmic 429–439 (2005).
28.H.-D. Reidenbach, “LEDs are not lasers regarding physiological safety aspects,” International Laser Safety Conference, ILSC 2005, Los Angeles, (Laser Institute of America, Orlando, 2005), ISBN: 0-912035-79-X, pp. 199–207.
29.H.-D. Reidenbach, “Results of Investigations on the Blink Reflex as a Protective Means against Laser and LED Radiation: A Description Based on Fundamental Psychophysical Laws,” Proceedings Second European IRPA Congress on Radiation Protection 15–19 May 2006, Paris, IRPA 2006, TA-68, pp 1–12.
30.ANSI Z136.6-2005, “Safe Use of Lasers Outdoors,” (Laser Institute of America, Orlando, 2005).
31.H.-D. Reidenbach, “Aversion responses including the blink reflex: Psychophysical behaviour and active protection reactions as an additional safety concept for the application of low power lasers in the visible spectrum,” Conf. Proc. International Laser safety Conference, ILSC 2005, Los Angeles (Laser Institute of America, Orlando, 2005), ISBN 0-912035-79-X, pp. 67–76.
32.Australian Government/Civil Aviation Safety Authority, AC 139-23(0) Draft advisory circular, “Laser emissions which may endanger the safety of aircraft” (2006).
33.S. M. Berman, “Energy efficiency consequences of scotopic sensitivity,” J. Illum. Eng. Soc. 21, 3–14 (1992).
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