Acknowledgement
Supported by : 국민안전처
References
- Bae, Y. (2014). Analysis on Walking Speed of Crowd According to Smoke in Underground Evacuation Situation. Architectural Institute of Korea, 34(1), 215-216.
- John L, B. (1977). Smoke as a determinant of human behavior in fire situations (Project People), Fire Protection Curriculum, College of Engineering, University of Maryland.
- Jeon, G. (2005). An Analysis of Evacuation System Development for Underground Space with Consideration to Behaviors and Cognitive Characteristics of Humans Under Emergency Situation, Thesis, Kyungpook National University.
- Jeon, E. (2011). Analysis on Characteristics of Human Behavior and Cognitive Effects according to Types of Egress Route Instruction in a Large-scale Mazy Facility. Journal of the Architectural Institute of Korea, Planning & Design, 27(10), 51-58.
- Kobes, M. (2010). Way finding during fire evacuation; an analysis of unannounced fire drills in a hotel at night. Building and Environment, 45(3).
- Lee, S. (1998). 新版建築防火.
- Mann, H. (1947). On a test of whether one of two random variables is stochastically larger than the other. The annals of mathematical statistics, 50-60.
- Park, J. (2014). A Study on the Characteristics of Choosing the Egress Route in a Large-scale Mazy Space. Journal of the Architectural Institute of Korea, Structure & Construction, 20(9), 71-78.
- SFPE. (2005). THE SFPE HANDBOOK OF Fire Protection Engineering.
- Tadahisa, J. (1997). Studies on Human Behavior and Tenability in Fire Smoke. Proceedings, 5th International Symposium on Fire Safety Science, 3-21.
- Wood, P. (1972). Fire research note 953. Building Research Establishment, Borehamwood.
- Xie, H. (2012). Experimental analysis of the effectiveness of emergency signage and its implementation in evacuation simulation. Fire and Materials, 36(5-6).
- Xie, H. (2013). Experimental study of the effectiveness of dynamic signage system. Interscience Communications, 967-978.