Utilisation of statistics to assess fire risks in buildings: Dissertation

Earth and Planetary Sciences

• Building 60%
• Risk 34%
• Ignition 30%
• Investigation 21%
• Loss 21%
• Compartment 17%
• Information 17%
• Model 13%
• Good 13%
• Risk Analysis 8%
• Statistical Data 8%
• Statistical Information 8%
• Research 8%
• Utilization 8%
• Value 8%
• Accident 8%
• Data Base 8%
• Residential Building 4%
• Power Law 4%
• Joint (Junction) 4%
• Behavior 4%
• Economics 4%
• Growth 4%
• Safety 4%
• Seat 4%
• Time 4%
• Event 4%
• Size 4%
• Show 4%
• Delay 4%
• Effort 4%
• Starting 4%
• Parameter 4%
• Survey 4%
• Progress 4%
• Rapid 4%
• Moment 4%
• Exploration 4%
• Variation 4%
• Dependence 4%
• Coefficient 4%
• Sum 4%
• Travel Time 4%
• Generalisation 4%

Engineering

• Fires 100%
• Buildings 60%
• Floor Area 34%
• Losses 21%
• Models 13%
• Statistical Data 8%
• Fire Risk Assessment 8%
• Research 8%
• Accidents 8%
• Elements 8%
• Application Area 4%
• Building Stock 4%
• Building Type 4%
• Fire Safety Design 4%
• Economic Loss 4%
• Response Time 4%
• Greater Effect 4%
• Special Attention 4%
• Event Tree 4%
• Building Category 4%
• Fire Safety 4%
• Risk Estimate 4%
• Design Purpose 4%
• Fire Detection 4%
• Descriptor 4%
• Tasks 4%
• Performance 4%
• Design 4%
• Economics 4%
• Engineering 4%
• Fields 4%
• Obtains 4%
• Events 4%
• Natural Resources Exploration 4%
• Forwarder 4%
• Small Value 4%