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Utilisation of statistics to assess fire risks in buildings: Dissertation
Kati Tillander
VTT Technical Research Centre of Finland
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Dissertation
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Dive into the research topics of 'Utilisation of statistics to assess fire risks in buildings: Dissertation'. Together they form a unique fingerprint.
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Keyphrases
Floor Area
100%
Fire Risk
100%
Ignition Frequency
75%
Fire Department
62%
Compartmentation
37%
Burning Loss
37%
Building Type
25%
Risk Analysis
25%
Statistical Information
25%
Statistical Data
25%
Fire Risk Assessment
25%
Accident Database
25%
Area Distribution
25%
Fire Scene
25%
Building Stock
12%
Residential Buildings
12%
Building Fire
12%
Economic Loss
12%
Slow Growth
12%
Power Law
12%
Risk Estimation
12%
Engineering Design
12%
Event Tree
12%
Building Category
12%
Travel Time
12%
Building Group
12%
Design Intent
12%
Quantitative Methods
12%
Ignition
12%
Large Values
12%
Fire Safety
12%
Dependent Events
12%
At-risk
12%
Fire Detection
12%
Fire Safety Design
12%
Rescue Forces
12%
Statistical Survey
12%
Total Response Time
12%
Automatic Fire Extinguishing System
12%
Pronto
12%
Frequency Loss
12%
Safety Coefficient
12%
Tentative Model
12%
Load-bearing
12%
Local Peak
12%
Natural Explanations
12%
INIS
statistics
100%
fires
100%
fire hazards
100%
floors
38%
ignition
33%
information
28%
losses
28%
risks
19%
values
14%
safety
14%
design
14%
economics
9%
accidents
9%
operation
9%
distribution
9%
peaks
9%
risk assessment
9%
risk analysis
9%
statistical data
9%
performance
4%
engineering
4%
surveys
4%
applications
4%
power
4%
size
4%
growth
4%
detection
4%
variations
4%
gain
4%
compartments
4%
stocks
4%
anatomy
4%
connections
4%
time dependence
4%
exploration
4%
residential buildings
4%
travel
4%
Engineering
Floor Area
100%
Ignition
87%
Fire Risk Assessment
25%
Statistical Data
25%
Application Area
12%
Building Stock
12%
Building Type
12%
Fire Safety Design
12%
Greater Effect
12%
Residential Building
12%
Special Attention
12%
Event Tree
12%
Building Category
12%
Fire Safety
12%
Risk Estimate
12%
Design Purpose
12%
Fire Detection
12%
Engineering
12%
Response Time
12%
Economic Loss
12%