A new algorithm for controlling building evacuation by feedback on hazard level and crowd distribution

AbstractCoal and gas outbursts are the result of several geological factors related to coal seam gas (coal seam gas pressureTo classify the outburst hazard level of a coal seam by means of statistical methods, this study considered the geological parameters of coal seam gas and statistical data on the amount of material involved in coal outbursts. Through multivariate regression analysis, a multivariate regression equation between the outburst coal quantity andUsing a significance evaluation of the aforementioned factors, the relative contributions of the gas-related geological parameters to the outburst hazard level of a coal seam were found to follow the orderThis work provides a scientific basis for evaluating the outburst hazard level of a coal seam and adopting feasible and economical outburst-prevention measures.

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Research of building evacuation path to guide based on BIM

2017 29th Chinese Control And Decision Conference (CCDC) ◽

10.1109/ccdc.2017.7978811 ◽

2017 ◽

Cited By ~ 2

Author(s):

Jun Ma ◽

Wang Jia ◽

Jingyan Zhang

Keyword(s):

Building Evacuation

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Hazard Level of Hydrocarbon Films in Systems Containing Liquid and Gaseous Oxygen

Advances in Cryogenic Engineering ◽

10.1007/978-1-4757-0531-7_20 ◽

1962 ◽

pp. 163-169 ◽

Cited By ~ 3

Author(s):

E. Kehat

Keyword(s):

Gaseous Oxygen ◽

Hydrocarbon Films ◽

Hazard Level

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Validation of an agent-based building evacuation model with a school drill

Transportation Research Part C Emerging Technologies ◽

10.1016/j.trc.2018.10.010 ◽

2018 ◽

Vol 97 ◽

pp. 82-95 ◽

Cited By ~ 16

Author(s):

Alan Poulos ◽

Felipe Tocornal ◽

Juan Carlos de la Llera ◽

Judith Mitrani-Reiser

Keyword(s):

Building Evacuation ◽

Agent Based ◽

Evacuation Model

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Performance-Based Probabilistic Seismic Slope Displacement Procedure

Earthquake Spectra ◽

10.1193/122516eqs251m ◽

2018 ◽

Vol 34 (2) ◽

pp. 673-695 ◽

Cited By ~ 12

Author(s):

Jorge Macedo ◽

Jonathan Bray ◽

Norman Abrahamson ◽

Thaleia Travasarou

Keyword(s):

Seismic Performance ◽

Full Range ◽

Assessment Procedure ◽

Seismic Displacement ◽

Earth Systems ◽

Crustal Earthquakes ◽

Wide Range ◽

Earth Structures ◽

Hazard Level ◽

Slope Displacement

Engineers often use simplified seismic slope displacement procedures to evaluate the seismic performance of earth structures and natural slopes. Current state of practice procedures typically separate the estimation of the ground motion intensity measure ( IM) from the estimate of seismic displacement ( D), given the selected IM hazard level. Thus D is estimated based on a single IM value. A straightforward performance-based seismic slope assessment procedure is proposed, which considers the full range of potential IM values to estimate seismic slope displacements directly related to a hazard level. Seismic performance is assessed through either a Newmark-type seismic displacement estimate or a calibrated seismic coefficient that can be used in pseudostatic slope stability analyses. The procedures were developed for a wide range of earth systems for shallow crustal earthquakes and subduction zone earthquakes. Currently employed simplified slope displacement procedures do not provide consistent assessments of the actual seismic slope displacement hazard. The proposed procedures can be readily used in practice to perform rigorous performance-based seismic slope displacement hazard assessments.

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Evacuation simulation models: Challenges in modeling high rise building evacuation with cellular automata approaches

Automation in Construction ◽

10.1016/j.autcon.2007.06.005 ◽

2008 ◽

Vol 17 (4) ◽

pp. 377-385 ◽

Cited By ~ 177

Author(s):

Nuria Pelechano ◽

Ali Malkawi

Keyword(s):

Cellular Automata ◽

Simulation Models ◽

Evacuation Simulation ◽

Building Evacuation ◽

High Rise ◽

High Rise Building

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TSUNAMI HAZARD AND CASUALTY ESTIMATION IN A COASTAL AREA THAT NEIGHBORS THE INDIAN OCEAN AND SOUTH CHINA SEA

Journal of Earthquake and Tsunami ◽

10.1142/s1793431112500108 ◽

2012 ◽

Vol 06 (02) ◽

pp. 1250010 ◽

Cited By ~ 20

Author(s):

ANAWAT SUPPASRI ◽

FUMIHIKO IMAMURA ◽

SHUNICHI KOSHIMURA

Keyword(s):

Indian Ocean ◽

South China Sea ◽

South China ◽

The South China Sea ◽

The South ◽

Worst Case ◽

China Sea ◽

Coastal Population ◽

The Indian Ocean ◽

Hazard Level

In the Indian Ocean and the South China Sea, many hundreds of thousands of lives have been lost due to tsunami events, and almost half of the lives lost occurred following the 2004 Indian Ocean event. Potential tsunami case scenarios have been simulated in these regions by a number of researchers to calculate the hazard level. The hazard level is based on a variety of conditions, such as the tsunami height, the inundation area, and the arrival time. However, the current assessments of the hazard levels do not focus on the tsunami risk to a coastal population. This study proposes a new method to quantify the risk to the coastal population in the region that includes the Indian Ocean and the South China Sea. The method is simple and combines the use of readily available tsunami data, far-field tsunami simulation models to determine the regional risk and global population data. An earthquake-generated tsunami was simulated, following an earthquake that had a magnitude larger than 8.5 Mw and occurred along a potential subduction zone. The 2004 Indian Ocean event seemed to be a "worst case scenario"; however, it has been estimated that a potential tsunami, occurring in a coastal region with a high population density, could cause significantly greater casualties.

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Environmental Design Strategies for Building Egress

Proceedings of the Human Factors and Ergonomics Society Annual Meeting ◽

10.1177/154193120204600908 ◽

2002 ◽

Vol 46 (9) ◽

pp. 865-869

Author(s):

Jake Pauls

Keyword(s):

Situational Awareness ◽

World Trade Center ◽

Environmental Design ◽

Design Strategies ◽

Building Evacuation ◽

Strategic Issues ◽

Trade Center ◽

Design Requirements ◽

The Many ◽

The Impact

The events of September 2001, 2001, plus the events' technical and political aftermath have helped to identify an unfortunate lack of research into building evacuation. The relative dearth of research is ironic given evacuation's central role in mitigation for a range of emergencies and its prominence in environmental design requirements in building codes and standards. The field of human factors has much to offer, for example, in a philosophical or strategic focus on human-centered design as well in more-prosaic issues such as exit stair width and handrail provision. Much of the available research addresses fairly low-level ergonomic issues such as exit stair width in relation to egress capacity and the impact on evacuation time. in addition to more-sophisticated research into the relatively simple issues, ahead lies more-difficult research relating to strategic issues and the provision of information to building occupants in emergencies, occupants' situational awareness generally, and the many social interactions—in seldom-considered environmental contexts—that are at the heart of major evacuations of large buildings such as in the case of the World Trade Center.

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