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Bodrogi, P., Guo, X. und Khanh, T.Q. (2018). Helligkeit und Sehklarheit statt Leuchtdichte in der Bewertung der Beleuchtung von Innenräumen. Tagung LICHT 2018, Davos, Schweiz.

      13 Khanh, T.Q., Bodrogi, P. und Vinh, Q.T. (2016). Color Quality of Semiconductor and Conventional Light Sources. Wiley-VCH Verlag GmbH, ISBN-13: 978-3527341665.

      14 Moroney, N., Fairchild, M.D., Li, C., Luo, M.R., Hunt, R.W.G. und Newman, T. (2002). The CIECAM02 Color Appearance Model, Proc. IS&T/SID 10th IS&T/SID Color Imaging Conference.

      15 CIE (2017). Color Fidelity Index for accurate scientific use, S. 224. CIE Publication.

      16 Davis, W. und Ohno, Y. (2010). Color quality scale. Opt. Eng. 49: 033602.

      17 Allen, A.E., Martial, F.P. und Lucas, R.J. (2019). Form vision from melanopsin in humans. Nat. Commun. 10: 2274.

      18 Spitschan, M., Bock, A.S., Ryan, J. et al. (2017). The human visual cortex response to melanopsindirected stimulation is accompanied by a distinct perceptual experience. Proc. Natl. Acad. Sci. USA 114: 12291–12296.

      19 Descarries, L. et al. (1990). Morphology of central serotonin neurons. Brief review of quantified aspects of their distribution and ultrastructural relationships. Ann. N. Y. Acad. Sci. 600: 81–92.

      20 Vandahl, C., Bieske, K., Neuhäuser, S. und Schierz, C. (2009). Optimale Beleuchtung bei Schichtarbeit, Literaturstudie, TU Ilmenau.

      21 Fernandez, D.C., Fogerson, P.M., Lazzerini Ospri, L. et al. (2018). Light affects mood and learning through distinct retina-brain pathways. Cell 175: 71–84, e18.

      22 Perrin, F. et al. (2004). Nonvisual responses to light exposure in the human brain during the circadian night. Curr. Biol. 14: 1842–1846.

      23 Vandewalle, G. et al. (2006). Daytime light exposure dynamically enhances brain responses. Curr. Biol. 16: 1616–1621.

      24 Vandewalle, G. et al. (2007). Wavelength-dependent modulation of brain responses to a working memory task by daytime light exposure. Cereb. Cortex 17: 2788–2795.

      25 Vandewalle, G. et al. (2007). Brain responses to violet, blue, and green monochromatic light exposures in humans: Prominent role of blue light and the brainstem. PLoS ONE 2: e1247.

      26 Vandewalle, G., Maquet, P. und Dijk, D.J. (2009). Light as a modulator of cognitive brain function. Trends in cognitive sciences 13 (10): 429–438.

      27 Cohen, J.D. et al. (1997). Temporal dynamics of brain activation during a working memory task. Nature 386: 604–608.

      28 Guldin, W.O. und Grüsser O.-J. (1998). Is there a vestibular cortex? Trends Neurosci. 21 (6): 254–259.

      29 Blume, C., Garbazza, C. und Spitschan M. (2019). Effects of light on human circadian rhythms, sleep and mood. Somnologie 23: 147–156, https://doi.org/10.1007/s11818019-00215-x.

      30 Ibuka, N. und Kawamura, H. (1975). Loss of circadian rhythm in sleep-wakefulness cycle in the rat by suprachiasmatic nucleus-lesions. Brain Res. 96: 76–81.

      31 Roenneberg, T., Kumar, J. und Merrow, M. (2007). The human circadian clock entrains to sun time. Curr. Biol. 17 (2): R44-45, https://doi.org/10.1016/j.cub.2006.12.011.

      33 Czeisler, C.A., Duffy, J.F., Shanahan, T.L., Brown, E.N., Mitchell, J.F., Rimmer, D.W., Ronda, J.M., Silva, E.J., Allan, J.S., Emens, J.S., Dijk, D.J. und Kronauer, R.E. (1999). Stability, precision, and near-24- hour period of the human circadian pacemaker. Science 284: 2177–2181.

      34 Boyce, P. (2016). Editorial: Exploring human-centric lighting. Light. Res. Technol. 48: 101.

      35 Khanh, T.Q., Bodrogi, P. und Trinh, Q.V. (2018). Intelligente Beleuchtung Und HCL-Beleuchtung Grundsätze und Zusammenhänge. Z. Licht 9: 72–79.

      36 Vandahl, C., Moosmann, C. und Funke, C. (2016). Einheitliche Bewertung von Lichtsituationen mit dem LiTG-Fragebogen – erste Erfahrungen = Uniform assessment of lighting situations with the LiTG Questionnaire – first experiences. LICHT 2016, Karlsruhe, 25.–28. September, 27.

      37 Akerstedt, T. und Gillberg, M. (1990). Subjective and objective sleepiness in the active individual. Int. J. Neurosci. 52: 29–37.

      38 Juda, M., Vetter, C. und Roenneberg, T. (2013). The Munich ChronoType Questionnaire for Shift-Workers (MCTQShift). J Biol Rhythms 28 (2): 130–140.-the adaptation of the MCTQ for use with shift workers & instructions for its evaluation, https://www.thewep.org/documentations/mctq, (Zugriff am 13. Januar 2022).

      39 Buysse, D.J., Reynolds, C.F. et al. (1989). The Pittsburgh sleep quality index: A new instrument for psychiatric practice and research. Psychiatry Res. 28.2:; 193–213, https://doi.org/10.1016/0165-1781(89)90047-4.

      40 Backhaus, J. et al. (2002). Test-retest reliability and validity of the Pittsburgh sleep quality index in primary insomnia. J. Psychosom. Res. 53.3: 737–740, ISSN: 00223999, https://doi.org/10.1016/S00223999(02)00330-6.

      41 Zandi, B., Klabes, J. und Khanh, T.Q. (2020). Prediction accuracy of L-and M-cone based human pupil light models. Scientific reports 10 (1): 1–14.

      42 Santamaria, J. und Chiappa, K.H. (1987). The EEG of drowsiness in normal adults. J. Clin. Neurophysiol. 4 (4): 327–382.

      43 Kaida, K. et al. (2006). Validation of the Karolinska sleepiness scale against performance and EEG variables. Clin. Neurophysiol. 117.7: 1574–1581, https://doi.org/10.1016/j.clinph.2006.03.011.

      44 Truong, W. und Khanh T.Q. (2021). Einfluss der Lichtintensität auf die Schläfrigkeit? Feldstudie zum Einfluss der Lichtintensität auf ältere Arbeiter in der Frühschicht. Z. Licht 1 (1-2021): 64–70, ISSN: 0024-2861.

      45 Saliva Lab Trier (2013). https://daacro.de/de/saliva-lab-trier (Zugriff am 13. Januar 2022).

      46 Nicolson, N.A. (2008). Measurement of cortisol. in: Handbook of Physiological Research Methods in Health Physiology (Hrsg. L.J. Luecken und L.C. Gallo), Pt. II: Physiological Sysems and Assessments: Hormonal. Sage Publications.

      47 Halberg, F., Barnum, C.P., Silber, R.H. und Bittner, J.J. (1958). 24-hour rhythms at several levels of integration in mice on different lighting regimens, Proceedings of the Society for Experimental Biology and Medicine, Bd. 97, Nr. 4, S. 897–900.

      48 Kirchner, W.K. (1958). Age differences in short-term retention of rapidly changing information. J. Exp. Psychol. 55 (4): 352– 358.

      49 Brain Products GmbH (2014). https://pressrelease.brainproducts.com/brainproducts-acticap-xpress-much-morethan-just-a-dry-electrode-system/

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