A Review of Building Evacuation Models - NIST Virtual Library

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86. Lo, S. M. & Fang, Z. (2000). A Spatial-Grid Evacuation Model for Buildings. Journal of Fire Sciences, 18, 376-394. 87. Ando, K., Ota, H., & Oki, T. (1988). Forecasting the flow of people. Railway Research Review, 45, 8-14. 88. Lo, S. M. (2005). Personal Communication 89. Donegan, H. A., Pollock, A. J., & Taylor, I. R. (1994). Egress Complexity of a Building. In Fire Safety Science -- Proceedings of the 4th International Symposium (pp. 601- 612). 90. Donegan, H. A. & Taylor, I. R. (1998). How Complex is the Egress Capability of your Design In T. J. Shields (Ed.), Human Behaviour in Fire, Proceedings of the First International Symposium. 91. Shannon, C. E. (1948). The Mathematical Theory of Communication. The Bell System Technical Journal, 27, 379-423. 92. Fahy, R. F. (1994). EXIT89 -- An Evacuation Model for High-rise Buildings -- Model Description and Example Applications. In Fire Safety Science -- Proceedings of the 4th International Symposium (pp. 657-668). 93. Fahy, R. F. (1996). EXIT89 -- High-rise Evacuation Model -- Recent Enhancements and Example Applications. In Interflam '96, International Interflam Conference -- 7th Proceedings (pp. 1001-1005). Cambridge, England. 94. Fahy, R. F. (1999). User's Manual, EXIT89 v 1.01, An Evacuation Model for High-Rise Buildings Quincy, Ma: National Fire Protection Association. 95. Fahy, R. F. (1999). Development of an Evacuation Model for High-Rise Buildings, Volume 1 of 2. DPhil by published works School of the Built Environment, Faculty of Engineering of the University of Ulster. 96. Fahy, R. F. (2001). Verifying the Predictive Capability of EXIT89. In 2nd International Symposium on Human Behaviour in Fire (pp. 53-63). 97. Fahy, R. F. (5-2-2003). Internet Communication 98. Jones, W. W., Forney, G. P., Peacock, R. D., & Reneke, P. A. (2000). Technical Reference for CFAST: An Engineering Tool for Estimating Fire and Smoke Transport (Rep. No. Tech. Note 1431). Natl. Inst. Stand. Technol. 99. Ozel, F. (1985). A Stochastic Computer Simulation of the Behavior of People in Fires: An Environmental Cognitive Approach. In Proceedings of the International Conference on Building Use and Safety Technology. A-116
100. Ozel, F. (1991). Simulation of Processes in Buildings as a Factor in the Object Representation of Built Environments. In Proceedings of Building Simulation '91 (pp. 250-256). 101. Ozel, F. (1993). Computer Simulation of Behavior in Spaces. In R.W.Marans & D. Stokols (Eds.), Environmental Simulation: Research and Policy Issues (pp. 191-204). New York: Plenum Press. 102. Ozel, F. (2003). Internet Communication 103. Poon, L. S. (1994). EvacSim: A Simulation Model of Occupants with Behavioural Attributes in Emergency Evacuation of High-Rise Buildings. In Fire Safety Science -- Proceedings of the 4th International Symposium (pp. 681-692). 104. Poon, L. S. (4-1-2003). Internet Communication 105. Pauls, J. (1980). Effective-Width Model for Crowd Evacuation Flow in Buildings. In Proceedings: Engineering Applications Workshop Boston, MA: Society of Fire Protection Engineers. 106. Takahashi, K., Tanaka, T., & Kose, S. (1988). An Evacuation Model for Use in Fire Safety Designing of Buildings. In Fire Safety Science -- Proceedings of the 2nd International Symposium (pp. 551-560). 107. Tanaka, T. (5-12-2003). Internet Communication 108. Gwynne, S. & Galea, E. R. (2004). A Review of Methodologies and Critical Appraisal of Computer Models Used in the Simulation of Evacuation from the Built Environment Bethesda, MD: Soceity of Fire Protection Engineers. 109. Semenko, P. (5-13-2003). Internet Communication 110. Stahl, F. I. (1982). BFIRES-II: A Behavior Based Computer Simulation of Emergency Egress During Fires. Fire Technology, 18, 49-65. 111. Stahl, F. I. (1980). BFIRES/Version 2: Documentation of Program Modifications (Rep. No. NBSIR 80-1982). Natl. Bur. Stand., (U.S.). 112. Still, G. K. (1993). New Computer System Can Predict Human Behavioural Response During Building Fires. Fire, 85, 40-42. 113. Gwynne, S. & Galea, E. R. (2004). A Review of Methodologies and Critical Appraisal of Computer Models Used in the Simulation of Evacuation from the Built Environment Bethesda, MD: Soceity of Fire Protection Engineers. 114. Okazaki, S. & Matsushita, S. (2004). A Study of SImulation Model for Pedestrian Movement with Evacuation and Queing. http://www.anc-d.fukuiu.ac.jp/~sat/ECS93.pdf [On-line]. A-117
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Technical Note 1471 A Review of Bui
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Disclaimer Certain commercial entit
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Tables Table 1. Overall features of
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A Review of Building Evacuation Mod
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2 Features of Egress Models This re
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The current model categories for pu
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• Inter-person distance (ID): Eac
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2.11 Validation The models are also
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(2-D): 2-Dimension visualization av
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Table 1. Overall features of egress
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Table 2. Models Available to the Pu
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Table 4. Models Not Yet Released Ch
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3.2 Overview of Model Features The
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If the user has a project that invo
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5 References 1. Custer, R. L. P. &
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29. IES. (2001). Simulex User Manua
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57. Fraser-Mitchell, J. (2001). Sim
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86. Okazaki, S. & Matsushita, S. (2
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Models Publicly Available A.1 Egres
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Use of fire data: None. Output: The
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y the arc), which is calculated by
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A.3 TIMTEX Developer: S.S. Harringt
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A.4 WAYOUT Developer: V.O. Shestopa
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A.5 STEPS Developer: Mott MacDonald
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Occupants can also be introduced in
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A.6 PedGo Developer: TraffGo Purpos
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Any interaction between the occupan
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A.7 PEDROUTE and PAXPORT Developer:
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Limitations: No individual consider
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Occupant movement: From the Simulex
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Body Type Table A.5: Body sizes for
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Table A.6: Validation study results
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A.9 GridFlow Developer: D. Purser &
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adjusts the FED susceptibility of e
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A.10 ASERI Developer: V. Schneider,
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the FED model by Purser. This inclu
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parameters yields realistic results
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A.11 buildingEXODUS Developer: E. G
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higher potential for a short time d
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level includes the movie player, da
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• Occupants stop investigating if
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A.13 Legion Developer: Legion Inter
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• Qualitative reproduction of eme
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Validation studies: No publications
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Special features: Route choice of t
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Table A.8: Fruin data and correspon
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Validation studies: Validation was
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Table A.12: Building/Occupant chara
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A.18 CRISP3 Developer: J. Fraser-Mi
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maximum value. Lastly, the lower di
Page 104 and 105: A.19 EGRESS Developer: N. Ketchell,
Page 106 and 107: Movement algorithm The unimpeded me
Page 108 and 109: Disabilities/slow occupant groups -
Page 110 and 111: Occupant movement: Cellular automat
Page 112 and 113: graphical format in the article in
Page 114 and 115: not gained, and this is labeled as
Page 116 and 117: A.22 EXIT89 Developer: R.F. Fahy, N
Page 118 and 119: evacuation time and the number of o
Page 120 and 121: the ceiling. This is the same metho
Page 122 and 123: factor,” the current goal is chan
Page 124 and 125: Use of fire data: The model can acc
Page 126 and 127: • Physical scale - This scale is
Page 128 and 129: • Free - elevator is idle Use of
Page 130 and 131: are applied to the entire populatio
Page 132 and 133: A.26 EgressPro Developer: P. Simenk
Page 134 and 135: A.27 BFIRES-2 Developer: F. Stahl,
Page 136 and 137: types of subroutines consist of tho
Page 138 and 139: • Boundaries of room subdivisions
Page 140 and 141: Fire Influence Smoke Influence Prox
Page 142 and 143: Model Availability Unknown A.29 Mag
Page 144 and 145: A.30 E-SCAPE Developer: E. Reisser-
Page 146 and 147: affected by the movement of others,
Page 148 and 149: A.31 References 1. Nelson, H. E. (2
Page 150 and 151: 28. Barton, J. and Leather, J. (199
Page 152 and 153: 57. Gwynne, S., Galea, E. R., Lawre
Page 156: 115. Gwynne, S. & Galea, E. R. (200
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