Difference between revisions of "Evacuation from burning building"

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== Screenshots ==
== Screenshots ==
== Download ==
== Download ==

Revision as of 01:10, 4 February 2019


This model simulates evacuation process in case of fire. The purpose of this simulation is to find out how many people can make it out safely in case of fire.

In this building are 8 offices located along the corridor. Walls are shown in blue colour and people can not pass through them. The fire cant pass through them either, however if a fire starts in the wall, it may affect two rooms at once. There are two exits, coloured green at each end of corridor.


Simulation is created using Netlogo 6.0.2.

How to use

At first you need to input the number of people you would like to have in this simulation. This simulation can be started with a button setup. Make sure the button go is also clicked.


escaped and escaped %

number of people that successfully escaped the building; absolute or relative number. Person escapes when he makes it to the building exit. Building exit is colored green in this simulation.

crushed and crushed %

number of people that have been crushed during evacuation; absolute or relative number. When there are more than 6 people close-by, some of them may be crushed by the others.

burned and burned %

number of people that had failed to escape from the building and were burned from the fire; absolute or relative number. Person burns when it presents itself to the fire.

The total of those three monitors must be equal to the number of people in simulation.

inhaled smog and inhaled smog %

number of people that inhaled smog. Smog inhalation doesn't mean death, it alerts people of the incoming fire. After smoke inhalation the person becomes disoriented.


Based on 100 runs for every number of people, the average results are:

number of people: 20 escaped: 18 crushed: 0 burned: 2 inhaled smog: 20

number of people: 50 escaped: 40 crushed: 0 burned: 10 inhaled smog: 11

number of people: 100 escaped: 58 crushed: 1 burned: 41 inhaled smog: 100

number of people: 150 escaped: 65 crushed: 5 burned: 80 inhaled smog: 150

number of people: 200 escaped: 158 crushed: 12 burned: 30 inhaled smog: 76

number of people: 400 escaped: 208 crushed: 37 burned: 155 inhaled smog: 400

number of people: 1000 escaped: 387 crushed: 203 burned: 410 inhaled smog: 660

Based on these result from different simulations, we may constant that the higher the number of people, the higher the number of people crushed. The number of people who inhaled smog depends on the first appearance of the fire.


Svem02 1.png Svem02 2.png Svem02 3.png



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