The Analysis of Results of Stochastic Evacuation Models

Smedberg, Erik

The Analysis of Results of Stochastic Evacuation Models

Mark

Smedberg, Erik ^LU (2019) In LUTVDG/TVBB VBRM10 20182
Division of Fire Safety Engineering

Abstract: All humans are unique, we have different characteristics and we make different decision. This is a challenge when it comes to modelling human behaviour. The models we design are based on mathematics where there is no room for inconsistencies such that are present in human behaviour. So how do we account for this when we try to model human behaviour in evacuation modelling? Most models provide the possibility to include mathematical distributions and
algorithms that are supposed to represent this uncertainty that we refer to as behavioural uncertainty. This thesis aims at providing a method based on functional analysis and statistics that can be used to study the effects of behavioural uncertainty on evacuation simulation results and in... (More); All humans are unique, we have different characteristics and we make different decision. This is a challenge when it comes to modelling human behaviour. The models we design are based on mathematics where there is no room for inconsistencies such that are present in human behaviour. So how do we account for this when we try to model human behaviour in evacuation modelling? Most models provide the possibility to include mathematical distributions and
algorithms that are supposed to represent this uncertainty that we refer to as behavioural uncertainty. This thesis aims at providing a method based on functional analysis and statistics that can be used to study the effects of behavioural uncertainty on evacuation simulation results and in particular to study convergence in results for important output parameters. Previous work has
been done for the most important evacuation model output, namely the evacuation time. The work in this thesis contributes by including other output parameters which are of importance both for the evacuation time and other aspects of evacuation safety. The method is accompanied by a tool that helps the user in this kind of quantitative assessment. A demonstration of the method and the tool has been provided through the use of a case study. The results showed that the analysis is efficient in analysing convergence in results for a variety of output parameters, even for output parameters with varying number of data points. This enables a more comprehensive and detailed analysis than what has previously been shown, ensuring that the behaviours that govern evacuation time also have converged in results. (Less)

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Please use this url to cite or link to this publication: http://lup.lub.lu.se/student-papers/record/8974418

author

Smedberg, Erik ^LU

supervisor

Enrico Ronchi ^LU

organization

Division of Fire Safety Engineering

course

VBRM10 20182

year

2019

type

H2 - Master's Degree (Two Years)

subject

Technology and Engineering

keywords

Evacuation, Fire safety, Behavioural uncertainty, Evacuation modelling, Evacuation simulation, Pathfinder, Functional analysis, Egress.

publication/series

LUTVDG/TVBB

report number

5587

other publication id

LUTVDG/TVBB--5587--SE

language

English

id

8974418

date added to LUP

2019-04-15 10:59:41

date last changed

2019-04-15 10:59:41

@misc{8974418,
  abstract     = {{All humans are unique, we have different characteristics and we make different decision. This is a challenge when it comes to modelling human behaviour. The models we design are based on mathematics where there is no room for inconsistencies such that are present in human behaviour. So how do we account for this when we try to model human behaviour in evacuation modelling? Most models provide the possibility to include mathematical distributions and 
algorithms that are supposed to represent this uncertainty that we refer to as behavioural uncertainty. This thesis aims at providing a method based on functional analysis and statistics that can be used to study the effects of behavioural uncertainty on evacuation simulation results and in particular to study convergence in results for important output parameters. Previous work has 
been done for the most important evacuation model output, namely the evacuation time. The work in this thesis contributes by including other output parameters which are of importance both for the evacuation time and other aspects of evacuation safety. The method is accompanied by a tool that helps the user in this kind of quantitative assessment. A demonstration of the method and the tool has been provided through the use of a case study. The results showed that the analysis is efficient in analysing convergence in results for a variety of output parameters, even for output parameters with varying number of data points. This enables a more comprehensive and detailed analysis than what has previously been shown, ensuring that the behaviours that govern evacuation time also have converged in results.}},
  author       = {{Smedberg, Erik}},
  language     = {{eng}},
  note         = {{Student Paper}},
  series       = {{LUTVDG/TVBB}},
  title        = {{The Analysis of Results of Stochastic Evacuation Models}},
  year         = {{2019}},
}

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The Analysis of Results of Stochastic Evacuation Models