MATEC Web Conf.
Volume 147, 2018The Third International Conference on Sustainable Infrastructure and Built Environment (SIBE 2017)
|Number of page(s)||5|
|Section||Transportation System and Engineering|
|Published online||22 January 2018|
- T. Wagener, and S. Spek, Accessibility for all – Eliminating barriers across Europe, NovaTerra, Connected Cities, Netherland, (2006).
- D. Pecchini, F.Giuliani, Street crossing behavior of people with disabilities, J. Transp. Eng. 141, (2015). [CrossRef]
- M.S. Wright, G.K. Cook, G.M.B. Webber, Emergency lighting and wayfinding provision systems for visually impaired people: phase I of a study, Lighting Res. Technol. 3 (2), pp. 35–42, (1999).
- E.D. Kuligowski, R. Peacock, E. Wiess, B. Hoskins, Stair evacuation of older adults and people with mobility impairments, Fire Saf. J. 62, 230–237, (2013). [CrossRef]
- W. Daamen, S.P. Hoogendoorn, Emergency door capacity: influence of door width, population composition and stress level, Fire Technol. 48 (1), 55–71, (2011). [CrossRef]
- M.C. Rodriguez-Sanchez, M.A. Moreno-Alvarez, E. Martin, S. Borromeo, J.A. Hernandez-Tamames, Accessible smartphones for blind users: A case study for a wayfinding system, Expert Systems with Applications 41, pp. 7210–7222, (2014). [CrossRef]
- S. Secchi, A. Lauria, G. Cellai, Acoustic wayfinding: A method to measure the acoustic contrast of different paving materials for blind people, Applied Ergonomics 58, pp. 435-445, (2017). [CrossRef]
- S. Mascetti, D. Ahmetovic, A. Gerino, C. Bernareggi, ZebraRecognizer: Pedestrian crossing recognition for people with visual impairment or blindness, Pattern Recognition 60, pp. 405–419, (2016). [CrossRef]
- S. Mascetti, D. Ahmetovic, A. Gerino, C. Bernareggi, M. Busso, A. Rizzi, Robust traffic lights detection on mobile devices for pedestrians with visual impairment, Computer Vision and Image Understanding 148, pp. 123–135, (2016). [CrossRef]
- S. Mascetti, D. Ahmetovic, A. Gerino, C. Bernareggi, Sonification of guidance data during road crossing for people with visual impairments or blindness, Int. J. Human-Computer Studies 85, pp. 16–26, (2016). [CrossRef]
- S. Handy, Critical assessment of the literature on the relationships among transportation, land use, and physical activity, Transportation Research Board and the Institute of Medicine Committee on Physical Activity, Health, Transportation, and Land Use. Resource Paper for TRB Special Report, 282, (2005).
- S. Kalakou, and F. Moura, Bridging the gap in planning indoor pedestrian facilities, Transport Reviews, 34(4), 474–500, (2014). [CrossRef]
- R. Cervero, and K. Kockelman, Travel demand and the 3Ds: density, diversity and design. Transportation Research Part D: Transport and Environment, 2(3), 199–219, (1997). [CrossRef]
- R. Cervero, O. L. Sarmiento, E. Jacoby, L.F. Gomez, and A. Neiman, Influences of built environments on walking and cycling: lessons from bogotá, International Journal of Sustainable Transportation, 3(4), 203–226, (2009). [CrossRef]
- R., Ewing, & S. Handy, Measuring the unmeasurable: urban design qualities related to walkability. Journal of Urban Design, 14(1), 65–84, (2009).
- S. Park, E. Deakin, and J.S. Lee, Perception-based walkability index to test impact of microlevel walkability on sustainable mode choice decisions, Transportation Research Record: Journal of the Transportation Research Board, 2464(1), 126–134, (2014). [CrossRef]
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