Referências bibliográficas

• [1] Código de Trânsito Brasileiro. Lei 9.503. Acesso em 2 de maio de 2020. http://www.planalto.gov.br/ccivil_03/LEIS/L9503.htm

• [2] CONTRAN. Conselho Nacional de Trânsito. Resolução 667. Acesso em 2 de abril de 2020. https://infraestrutura.gov.br/images/Resolucoes/Resolucao6672017.pdf

• [3] Boyce, P., Hoffman, D., Wallaschek, J., Wördenweber, B. Automotive Lighting and Human Vision. New York: Springer, 2007.

• [4] Perel, M., Olson, P., Sivak, M., and Medlin, J., Motor Vehicle Forward Lighting, SAE Technical Paper 830567, 1983, https://doi.org/10.4271/830567

• [5] Shinar, David. Traffic Safety and Human Behavior. ISBN: 978-0-08-045029-2, eISBN:978-0-08-055587-4. Publication date: October 5, 2007.

• [6] Vivek D. Bhise. Ergonomics in the Automotive Design Process. CRC Press. 2012.

• [7] Zakhareuski, Andrei. Driving Tests. Beginner Driver’s Guide. When Should High Beam Headlights Be Used? Disponível em https://driving-tests.org/beginner-drivers/high-beam-headlights-use/ Acesso em 10 de abril de 2020. 8. EYES ON SHEPPARD. Traumatic Brain Injury and Concussion. Acesso em 2 de abril de 2020. https://www.eyesonsheppard.com/eye-care-services/traumatic-brain-injury-and-concussion/ 9. Anti-Glare Mirror Film. Disponível em https://www.aptinting.com/automotive/kdx-anti-glare-mirror-film/ Acesso em 8 de abril de 2020.

• [8] 10. Prasetijo, Joewono & Mohd Jawi, Zulhaidi & Mustafa, Meraj & Zadie, Z & Majid, H & Roslan, M & Baba, I & Zulkifli, Abd Fathul Hakim. (2018). Impacts of Various High Beam Headlight Intensities on Driver Visibility and Road Safety. 2. 306-314.

• [9] 11. Wood JM. Nighttime driving: visual, lighting and visibility challenges. Ophthalmic Physiol Opt 2020 (2019); 40: 187–201. https://doi.org/10.1111/opo.12659

• [10] 12. NHTSA –National Highway Traffic Safety Administration. Adaptive driving beam headlighting system glare assessment (2015). Acesso em 2 de abril de 2020. https://www.nhtsa.gov/sites/nhtsa.dot.gov/files/812174_lightingadb.pdf

• [11] 13. NHTSA –National Highway Traffic Safety Administration. Report to Congress (2007). Nighttime Glare and Driving Performance. Acesso em 2 de abril de 2020. https://www.nhtsa.gov/sites/nhtsa.dot.gov/files/glare_congressional_report.pdf

• [12] 14. Buonarosa, Mary & Sayer, James & Flannagan, Michael. (2013). Real-World Frequency of Use of Automotive Lighting Equipment. LEUKOS: The Journal of the Illuminating Engineering Society of North America. 5. 139-146. 10.1582/LEUKOS.2008.05.02.004

• [13] 15. MLIVE Michigan. Rainy day headlights. Updated Apr 03, 2019. Acesso em 3 de abril de 2020. https://www.mlive.com/exposure/2010/10/post_94.html

• [14] 16. Rebut, J.; Bradai, B.; Moizard, J.; Charpentier, A. (2009). A monocular vision based advanced lighting automation system for driving assistance. 311 - 316. 10.1109/ISIE.2009.5222610. https://www.researchgate.net/publication/224584109_A_monocular_vision_based_advanced_lighting_automation_system_for_driving_assistance 17. Heckmann, V.; Melo, E.; Moura,C.; Oliveira, A. Questões relativas à regulagem de faróis automotivos convencionais. Paper Técnico SAE, 2019-36-0063, 2019.

• [15] 18. ABNT NBR 14040-5:2017. Inspeção de segurança veicular - Veículos leves e pesados Parte 5: Iluminação. 19. INDIAMART. Car Leveling Headlamp. Acesso em 12 de Abril de 2020. https://www.indiamart.com/proddetail/car-leveling-headlamp-19223919712.html

• [16] 20. Reif, Konrad. Automobilelektronik. Eine Einführung für Ingenieure. Springer. 2014. ISBN: 978-3-658-05047-4

• [17] 21. HELLA. Headlamp cleaning system. Good to know. Acesso em 2 de abril de 2020. https://www.hella.com/techworld/uk/Technical/Automotive-lighting/Headlamp-cleaning-system-839/#

• [18] 22. UNECE - United Nations Economic Commission for Europe Regulation 123. Rev. 2. “Uniform provisions concerning the approval of adaptive front-lighting systems (AFS) for motor vehicles” Acesso em 9 de abril de 2020. https://www.unece.org/fileadmin/DAM/trans/main/wp29/wp29regs/2016/R123r2e.pdf

• [19] 23. TÜV Rheinland. AFS Survey. 2003. In.: Boyce, P., Hoffman, D., Wallaschek, J., Wördenweber, B. Automotive Lighting and Human Vision. New York: Springer, 2007. 24. Reif, Konrad. Fundamentals of automotive and engine technology. Standard Drives, Hybrid Drives, Brakes, Safety Systems. Springer. 978-3-658-03971-4

• [20] 25. Hesse, T. & Shadeed, H. & Götz, M. & Strauß, S. & Wallaschek, Joerg. (2006). Concept of an active front-lighting driver assistance system. 1006-1011.

• [21] 26. HELLA. Headlamp cleaning system. Cleaning principle function. Acesso em 2 de abril de 2020. https://www.hella.com/techworld/uk/Technical/Automotive-lighting/Headlamp-cleaning-system-839/# 27. Moura, C.; "Impactos na segurança veicular pela ação dos raios ultravioletas em faróis automotivos", p. 5-19 . In: XXVII Simpósio Internacional de Engenharia Automotiva. São Paulo: Blucher, 2019. ISSN 2357-7592, DOI 10.5151/simea2019-PAP06

• [22] 28. YOUTUBE. The life in São Paulo. Farol alto automático com ônibus na frente - 2 demonstração.

• [23] 2018. Acesso em 2 de maio de 2020. https://www.youtube.com/watch?v=j-l9fPkcln8 29. Serrat, F.; Diego, F.; Lumbreras, F.; Alvarez, J.M.; Lopez, A.; Elvira, C. Dynamic comparison of headlights (2007). Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering. Vol. 222. 2007 DOI: 10.1243/09544070JAUTO655 30. Reif. K. Sensoren im Kraftfahrzeug (2012). Springer. DOI 10.1007/978-3-8348-2208-6. ISSN 2627-2172.

• [24] 31. Waschl, H.; Kolmanovsky, I.; Willems, F. Control Strategies for Advanced Driver Assistance Systems and Autonomous Driving Functions. Springer International Publishing, 2019. ISBN: 978-3-319-91568-5,978-3-319-91569-2

• [25] 32. BRANDON SCHOETTLE. Sensor fusion: a comparison of sensing capabilities of human drivers and highly automated vehicles. University of Michigan. 2017. Report Nº SWT-2017-12 http://umich.edu/~umtriswt/PDF/SWT-2017-12.pdf

• [26] 33. Dai, L. & Jazar, Reza. (2013). Nonlinear Approaches in Engineering Applications. Automotive applications of engineering problems. Springer. 10.1007/978-1-4614-1469-8.

• [27] 34. O'Malley, Ronan & Glavin, Martin & Jones, Edward. (2008). Vehicle Detection at Night Based on TailLight Detection. 10.4108/ICST.ISVCS2008.3546.

• [28] 35. Chen, Mei & Jin, Lisheng & Jiang, Yuying & Gao, Linlin & Wang, Faji & Xie, Xianyi. (2016). Study on Leading Vehicle Detection at Night Based on Multisensor and Image Enhancement Method. Mathematical Problems in Engineering. 2016. 1-13. 10.1155/2016/5810910.

• [29] 36. Fernández Alcantarilla, Pablo & Bergasa, Luis & Jimenez, Pedro & Fernández-Llorca, David & Sotelo, Miguel-Angel & Sánchez-Mayoral, Silvia. (2011). Automatic LightBeam Controller for driver assistance. Mach. Vis. Appl.. 22. 819-835. 10.1007/s00138-011-0327-y.

• [30] 37. Dollár, Piotr & Wojek, Christian & Schiele, Bernt & Perona, Pietro. (2011). Pedestrian Detection: An Evaluation of the State of the Art. IEEE transactions on pattern analysis and machine intelligence. 34. 743-61. 10.1109/TPAMI.2011.155.

• [31] 38. Wu, Tai-En & Tsai, Chia-Chi & Guo, Jiun-In. (2017). LiDAR/camera sensor fusion technology for pedestrian detection. 1675-1678. 10.1109/APSIPA.2017.8282301.

• [32] 39. Steinhilper, R., Freiberger, S.; Nagel, A. Understanding the communication between automotive mechatronics and electronics for remanufacturing purposes. 2012. Acesso em 7 de abril de 2020. https://docplayer.net/40751354-Understanding-the-communication-between-automotive-mechatronics-and-electronics-for-remanufacturing-purposes.html

• [33] 40. Lee, J. H.; Byeon, J.; Go,D.J.; Park, J.R. Automotive Adaptive Front Lighting Requiring Only On/Off Modulation of Multi-array LEDs. Current Optics and Photonics Vol. 1, No. 3, June 2017, pp. 207-213 ISSN: 2508-7266(Print) / ISSN: 2508-7274(Online) DOI: https://doi.org/10.3807/COPP.2017.1.3.207

• [34] 41. Barroso Junior, G. T., Bertho, A. C. S., & Veiga, A. de C. (2019). A letalidade dos acidentes de trânsito nas rodovias federais brasileiras. Revista Brasileira De Estudos De População, 36, 1-22. https://doi.org/10.20947/S0102-3098a0074

• [35] 42. Canale, A.C.;Gutiérrez, J.C.H.; Ortega, F. Manual do condutor de veículos comerciais – usuário da rodovia dos imigrantes. Editora Rima, 2007. ISBN – 978-85-7656-115-6.

• [36] 43. Almeida, M.; Figueiredo, S. M. S.; Porto, J. M. F. Reciclagem para condutores infratores do código de trânsito brasileiro. Instituto Tecnológico de Transporte e Trânsito (ITT). São Paulo: Editora Senac São Paulo. ISBN 85-7359-381-4, 2004.

• [37] 44. CONTRAN. Resolução 180. Manual Brasileiro de Sinalização de Trânsito. Sinalização vertical de regulamentação (2007). Acesso em 5 de maio de 2020. https://infraestrutura.gov.br/images/Resolucoes/Manual_VOL_I_2.pdf

• [38] 45. Fekety, Drea & Whetsel, Stephanie & Sewall, Ashley & Tyrrell, Richard. (2013). Drivers' Beliefs, Habits, and Strategies Regarding High Beam Usage. Proceedings of the Human Factors and Ergonomics Society Annual Meeting. 57. 1800-1804. 10.1177/1541931213571403.

• [39] 46. Benea, B & Trusca, Daniel & Toganel, George & Radu, Alexandru. (2019). Pedestrian visibility at night: the influence of the pedestrian clothing and the defective headlamp of the car. IOP Conference Series: Materials Science and Engineering. 568. 012003. 10.1088/1757-899X/568/1/012003.

• [40] 47. https://advanced-driving.co.uk/driving-tips/vehicles-with-only-one-headlight-operating/

• [41] 48. Departamento de Polícia Rodoviária Federal. Ministério da Justiça e Segurança Pública. Dados Abertos – Acidentes. Acesso em 6 de maio de 2020. https://portal.prf.gov.br/dados-abertos-acidentes

• [42] 49. Ministério dos Transportes, Portos e Aviação Civil. Anuário Estatística de Segurança Rodoviária. 2010-2017. Acesso em 6 de maio de 2020. https://www.infraestrutura.gov.br/images/BIT_TESTE/Publica%C3%A7oes/Anuario_Estatistico_de_Seguranca_Rodoviaria.pdf 50. Benea B.C., Trusca D.D., Togănel G.R., Radu A.I. (2020) The Influence of the Color of the Reflective Vest on the Visibility of the Cyclist at Night. In: Dumitru I., Covaciu D., Racila L., Rosca A. (eds) The 30th SIAR International Congress of Automotive and Transport Engineering. SMAT 2019. Springer, Cham

• [43] 51. Benea, Bogdan & Trusca, Daniel & Toganel, George & Radu, Alexandru. (2020). The Influence of the Color of the Reflective Vest on the Visibility of the Cyclist at Night. 10.1007/978-3-030-32564-0_42.

• [44] 52. Ising, K. Pedestrian visibility in night-time impacts. MEA Foresinc (2008) Acesso em 12 de maio de 2020. https://www.meaforensic.com/pedestrian-visibility-in-night-time-impacts/

• [45] 53. Mantiuk, Rafal & Ramponi, Giovanni (Gianni). (2015). Human vision model including age dependencies. 1616-1620. 10.1109/EUSIPCO.2015.7362657.

• [46] 54. Watson, Andrew & Yellott, John. (2012). A unified formula for light-adapted pupil size. Journal of vision. 12. 10.1167/12.10.12.

• [47] 55. Plainis, Sotiris & Murray, I. (2002). Reaction times as an index of visual conspicuity when driving at night. Ophthalmic & physiological optics: the journal of the British College of Ophthalmic Opticians (Optometrists). 22. 409-15. 10.1046/j.1475-1313.2002.00076.x.

• [48] 56. ABNT Associação Brasileira de Normas Técnicas, “Prescrições uniformes relativas às lâmpadas de filamento para uso em sistemas de iluminação e/ou sistemas de sinalização de veículos rodoviários automotores e seus rebocados” ABNT NBR 16231:2013, Dez. 2013.

• [49] 57. UNECE - United Nations Economic Commission for Europe Regulation 99. Rev. 3. “Uniform provisions concerning the approval of gas-discharge light sources for use in approved gas-discharge lamp units of power-driven vehicles” Acesso em 1 de abril de 2020. https://www.unece.org/fileadmin/DAM/trans/main/wp29/wp29regs/2015/R099r3e.pdf

• [50] 58. UNECE - United Nations Economic Commission for Europe Regulation 128. Rev.2 “Uniform provisions concerning the approval of light emitting diode (LED) light sources for use in approved lamp units on power-driven vehicles and their trailers” https://www.unece.org/fileadmin/DAM/trans/main/wp29/wp29regs/2015/R128e.pdf 59. NLPIP. Lighting Answers. Volume 8 Issue 1. What is correlated color temperature? (2004). Acesso em 2 de maio de 2020. https://www.lrc.rpi.edu/programs/nlpip/lightinganswers/lightsources/whatisCCT.asp#

• [51] 60. He, Y. & Rea, Mark & Bierman, A. & Bullough, John. (1997). Evaluating Light Source Efficacy under Mesopic Conditions Using Reaction Times. Journal of the Illuminating Engineering Society. 26. 125-138. 10.1080/00994480.1997.10748173.

• [52] 61. Derlofske, John & Dyer, Daniel & Bullough, John. (2003). Visual Benefits of Blue Coated Lamps for Automotive Forward Lighting. SAE SP. 117-124. 10.4271/2003-01-0930.

• [53] 62. Derlofske, J. & Bullough, John & Hunter, Claudia. (2003). Visual Benefits of High-Intensity Discharge Automotive Forward Lighting (2002-01-0259). PROGRESS IN TECHNOLOGY. 98. 249-254.

• [54] 63. Zele AJ and Cao D (2015) Vision under mesopic and scotopic illumination. Front. Psychol. 5:1594. doi: 10.3389/fpsyg.2014.01594

• [55] 64. Liang, Bo & He, Shiyong & Tähkämö, Leena & Tetri, Eino & Cui, Lulu & Dangol, Rajendra & Halonen, Liisa. (2019). Lighting for Road Tunnels: The Influence of CCT of Light Sources on Reaction Time. Displays. 61. 101931. 10.1016/j.displa.2019.101931.

• [56] 65. NHTSA. Distracted Driving 2018. Traffic Safety Facts. DOT HS 812 926. Summary of Statistical Findings (2020). Acesso em 4 de maio de 2020. https://crashstats.nhtsa.dot.gov/Api/Public/ViewPublication/812926

• [57] 66. NHTSA. Distracted Driving. Risky Driving Topics. Acesso em 4 de maio de 2020. https://www.nhtsa.gov/risky-driving/distracted-driving 67. World Health Organization. Mobile phone use: a growing problem of driver distraction (2011) Acesso em 2 de maio de 2020. https://www.who.int/publications-detail/mobile-phone-use-a-growing-problem-of-driver-distraction

• [58] 68. Dingus, Thomas & Guo, Feng & Antin, Jonathan & Perez, Miguel & Buchanan-King, Mindy & Hankey, Jon. (2016). Driver crash risk factors and prevalence evaluation using naturalistic driving data. Proceedings of the National Academy of Sciences. 113. 201513271. 10.1073/pnas.1513271113. 69. World Health Organization. Pedestrian safety: a road safety manual for decision-makers and practitioners (2013) Acesso em 2 de maio de 2020. https://www.who.int/publications-detail/pedestrian-safety-a-road-safety-manual-for-decision-makers-and-practitioners

• [59] 70. Observatório Nacional de Segurança Viária (2019). https://www.onsv.org.br/90-dos-acidentes-sao-causados-por-falhas-humanas-alerta-observatorio/

• [60] 71. Japan Automobile Manufacturers Association. Achieving greater safety and environmental protection in road transport. On the road to sustainable mobility 2014. Acesso em 2 de abril de 2020. http://www.jama-english.jp/publications/sustainable_mobility_2014.pdf

• [61] 72. NHTSA. Traffic Safety Facts. Critical Reasons for Crashes Investigated in the National Motor Vehicle Crash Causation Survey. DOT HS 812 115 (2015) https://crashstats.nhtsa.dot.gov/Api/Public/ViewPublication/812115 73. LED Professional. Lifetime Calculation of White HP-LEDs from 16,000 Hours Aging Data. LPR Article (2017) Acesso em 3 de maio de 2020. https://www.led-professional.com/lifetime-calculation-of-white-hp-leds-from-16-000-hours-aging-data

• [62] 74. Sivak, Michael & Flanagan, M.J. & Traube, EC & Kojima, S & Aoki, M. (1997). Low-beam headlamps: Effects of realistic levels of dirt on light output. Lighting Research and Technology. 29. 10.1177/14771535970290010901.

• [63] 75. Alferdinck, J.W.A.M. & Padmos, P.. (1988). Car headlamps: Influence of dirt, age and poor aim on glare and illumination intensities. Lighting Research & Technology - LIGHTING RES TECHNOL. 20. 195-198. 10.1177/096032718802000407.

• [64] 76. PHILIPS. Lâmpadas halógenas para farol. Blue Vision. https://www.philips.com.br/c-m-au/luzes-automotivas/headlight-bulbs/halogen

• [65] 77. OSRAM. Cool blue intense. https://www.osram.pt/ecat/COOL%20BLUE%20INTENSE-L%C3%A2mpadas%20hal%C3%B3genas-Car%20lighting-Automotive/pt/pt/GPS01_1056960/PP_EUROPE_Europe_eCat/