Authors: Chia-Chen Wu, Chih-Fu Wu, Pey-Weng Lien, Kai-Chieh Lin

Abstract:

In the past, the most comprehensively adopted light source was incandescent light bulbs, but with the appearance of LED light sources, traditional light sources have been gradually replaced by LEDs because of its numerous superior characteristics. However, many of the standards do not apply to LEDs as the two light sources are characterized differently. This also intensifies the significance of studies on LEDs. As a Kansei design study investigating the visual glare produced by traffic arrows implemented with LEDs, this study conducted a semantic analysis on the styles of traffic arrows used in domestic and international occasions. The results will be able to reduce drivers’ misrecognition that results in the unsuccessful arrival at the destination, or in traffic accidents. This study started with a literature review and surveyed the status quo before conducting experiments that were divided in two parts. The first part involved a screening experiment of arrow samples, where cluster analysis was conducted to choose five representative samples of LED displays. The second part was a semantic experiment on the display of arrows using LEDs, where the five representative samples and the selected ten adjectives were incorporated. Analyzing the results with Quantification Theory Type I, it was found that among the composition of arrows, fletching was the most significant factor that influenced the adjectives. In contrast, a “no fletching” design was more abstract and vague. It lacked the ability to convey the intended message and might bear psychological negative connotation including “dangerous,” “forbidden,” and “unreliable.” The arrow design consisting of “> shaped fletching” was found to be more concrete and definite, showing positive connotation including “safe,” “cautious,” and “reliable.” When a stimulus was placed at a farther distance, the glare could be significantly reduced; moreover, the visual evaluation scores would be higher. On the contrary, if the fletching and the shaft had a similar proportion, looking at the stimuli caused higher evaluation at a closer distance. The above results will be able to be applied to the design of traffic arrows by conveying information definitely and rapidly. In addition, drivers’ safety could be enhanced by understanding the cause of glare and improving visual recognizability.

Keywords: LED, arrow, Kansei research, preferred imagery.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1094495

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1907

References:

[1] Ibrahim, D., and Beasley, M., "The Benefits of LED Traffic Lights in London and the Pilot Test Sites,” IEE, Conference Publication, vol. 454, 1998, pp. 172-176.
[2] Vienot, F., Coron, G., and Lavedrine, B, "LEDs as a tool to enhance faded colours of museums artefacts,” Journal of Cultural Heritage, vol. 12, pp. 431-440, 2011.
[3] Zhan, X., Zhang, J., Wang, X., and Cheng, J., "Progress on silicone packaging materials for power LED,” Procedia Engineering, vol. 27, pp. 687-692, 2012.
[4] Gan, C. K., Sapar, A. F., Mun, Y. C., and Chong, K. E., "Techno-economic Analysis of LED Lighting: A Case Study in UTeM' s Faculty Building,” Procedia Engineering, vol. 53, pp. 208-216, 2013.
[5] Nomura, J., Secret of color - latest science of color introduction. Taipei: Spring and Autumn of Literature and Art, 1996.
[6] Harbluk, J. L., Noy, Y. I. & Eizenman, M. The impact of cognitive distraction on driver visual behavior and vehicle control (TP 13889E). Ottawa, 2002.
[7] Sammarco, J.J., Pollard, J.P., Porter, W.L., Dempsey, P.G., & Moore, C.T., "The effect of cap lamp lighting on postural control and stability,” International Journal of Industrial Ergonomics, vol. 42, pp. 377-383, 2012.
[8] Kihara, A.H., Tsurumaki, A.M., & Ribeiro-do-Valle, L. E., "Effects of ambient lighting on visual discrimination, forward masking and attentional facilitation,” Neuroscience Letters, vol. 393, pp. 36–39, 2006.
[9] Sanders, M.S., & McCormick, E.J., "Human factors in engineering and design, 7th Ed., New York: McGraw-Hill Book Company, 1993.
[10] Garvey, P.M., "Thompson-Kuhn, B., and Pietrucha, M.T., Sign visibility: research and traffic safety overview,” Bristol, PA: United States Sign Council, 1996.
[11] Theeuwes, J., Alferdinck, J. W., and Perel, M., "Relation between glare and driving performance,” Human Factors, vol. 44, no.1, pp. 95-107, 2002.
[12] Wen, S. Thurmon, E. L. and Mehran, A., "Tinted windshield and its effects on aging drivers’ visual acuity and glare response,” Safety Science, vol. 46, pp. 1223–1233, 2008.
[13] Anderson, S.J., and Holliday, I.E., "Night driving: effects of glare from vehicle headlights on motion perception,” Ophthalmic and Physiological Optics, vol. 15, no.6, pp. 545–551, 1995.
[14] Munehiro, K., Roberto, T., & Motoki, A., "An experimental study on required luminous intensity of LED roadway delineators under foggy condition,” Monthly report of Civil Engineering Research Institute, vol. 630, pp. 23-36, 2005.
[15] Tsuei, C. H., and Sun, W. S., "Momentary adjustment means for simulating the sunlight color temperature, hues and brightness with RGB LEDs in indoor lighting,” Physics Procedia, vol. 19, pp. 239–243, 2011.
[16] Turner, S., Wylde, J., Langham, & M., Morrow, A., "Determining optimum flash patterns for emergency service vehicles: An experimental investigation using high definition film,” Applied Ergonomics, vol. 45, no.5, pp. 1313–1319, 2014.
[17] Hawes, B. K., Brunye, T. T., Mahoney, C. R., Sullivan, J. M., & Aall, C. D., "Effects of four workplace lighting technologies on perception, cognition and affective state,” International Journal of Industrial Ergonomics, vol. 42, pp. 122-128, 2012.
[18] Kim, I. T., Choi, A. S., & Jeong, J.W., "Precise control of a correlated color temperature tunable luminaire for a suitable luminous environment,” Building and Environment, vol. 57, pp. 302-312, 2012.
[19] Wu, C.F., Liou, J. J., and Lin, J. L., "Evaluation of Visual Performance Using LED Signboards under Different Ambient Conditions,” Procedia Engineering, vol. 29, pp. 975-980, 2012.
[20] Uchida, K., Tanaka T., and Sugie, N., "Improving Nighttime Visibility of LED Type Variable Signbords for Highway Maintenance Vehicle. Papers of Technical Meeting on Transportation and Electric Railway,” IEE Japan, Vol.ter-04, pp. 10-21, pp. 43-50, 2004.
[21] Miller, G.A., "The magical number seven plus or minus two: Some limits on our capacity for processing information,” Psychological Review, vol. 63, pp. 81-97, 1956.
[22] Dudek, C.L., "Changeable Message Sign Operation and Messaging Handbook. (FHWA-OP-03-070). College Station: Texas Transportation Institute, 2004.
[23] Ng, A. W. Y., and Chan, A. H. S., "The guessability of traffic signs: Effects of prospective-user factors and sign design features,” Accident Analysis & Prevention, vol. 39, pp. 1245–1257, 2007.
[24] Lin, P.C., Chen, C. H., & Lo, K., "Effect of users’ simultaneous pecognition and identification of multiple graphic warning symbols,” Japanese Society for the Science of Design, 160, 2, Issue NO.218, 2013.
[25] Lee, C.F., Chuang, Y.H., & Young, M.J., "Legibility of traffic warning signs by driver,” Japanese Society for the Science of Design, 160, 2, Issue NO.218, 2013.
[26] Ou, Y.K. & Liu. Y.C., "Effects of sign design features and training on comprehension of traffic signs in Taiwanese and Vietnamese user groups,” International Journal of Industrial Ergonomics, vol. 42, 1-7, 2012.
[27] Kirmizioglu, E., and Tuydes-Yaman, H., "Comprehensibility of traffic signs among urban drivers in Turkey,” Accident Analysis and Prevention, vol. 45, pp. 131-141, 2012.
[28] Richards, D., "How effective are your icons? Interfaces, vol.56, pp. 9–10, 2003.
[29] Rogers, Y., "Icons at the interface: their usefulness,” Interacting with Computers, vol. 1, no.1, pp. 105–117, 1989.
[30] Mainster, M.A., and Turner, P.L., "Glare's causes, consequences, and clinical challenges after a century of ophthalmic study,” American Journal of Ophthalmology, 153, no.4, pp. 587-593, 2012.
[31] Bullough, JD., "Spectral sensitivity for extrafoveal discomfort glare,” J Modern Optics, vol. 56, no.13, pp.1518 –1522, 2009.
[32] Fekete, J., Sik-Lanyi, C., and Schanda, J., "Spectral discomfort glare sensitivity investigations,” Ophthalmic Physiol Opt, vol. 30, no.2, pp.182–187, 2010.
[33] Narisada, K., and Schreuder, DA., Light pollution handbook. Dordrecht, The Netherlands: Springer, pp. 190-326, 2004.
[34] Vos, JJ., "Reflections on glare,” Lighting Res Technol, vol. 35, no.2, p. 163–176, 2003.
[35] Wordenweber, B., Wallaschek, J., Boyce, P., and Hoffman, D., "Automotive lighting and human vision,” Berlin: Springer-Verlag, pp. 265–300, 2010.