Towards a systems-oriented framework for analysing and evaluating emergency response
Author
Summary, in English
Information can be provided by studying and evaluating past emergencies and the
response in connection to them. This information would then be useful in efforts directed
at preventing, mitigating and/or preparing for future emergencies. However, the analysis
and evaluation of emergency response operations is not an easy task, especially when the
operation involves several cooperating actors (e.g. the fire and rescue services, the
police, the emergency medical services, etc.). Here, we identify and discuss four aspects
of this challenge: (1) issues related to the values governing the evaluation, (2) issues
related to the complexity of the systems involved, (3) issues related to the validity of the
information on which the analysis and evaluation is based and (4) issues related to the
limiting conditions under which the emergency response system operated. An outline of
a framework for such an analysis and evaluation, influenced by systems theory, accident
investigation theories and programme evaluation theories dealing with the above
aspects, is introduced, discussed and exemplified using empirical results from a case
study.We conclude that the proposed framework may provide a better understanding of
how an emergency response system functioned during a specific operation, and help to
identify the potential events and/or circumstances that could significantly affect the
performance of the emergency response system, either negatively or positively. The
insights gained from using the framework may allow the actors involved in the response
operation to gain a better understanding of how the emergency response system
functioned as a whole, as well as how the actors performed as individual components
of the system. Furthermore, the information can also be useful for actors preparing for
future emergencies
response in connection to them. This information would then be useful in efforts directed
at preventing, mitigating and/or preparing for future emergencies. However, the analysis
and evaluation of emergency response operations is not an easy task, especially when the
operation involves several cooperating actors (e.g. the fire and rescue services, the
police, the emergency medical services, etc.). Here, we identify and discuss four aspects
of this challenge: (1) issues related to the values governing the evaluation, (2) issues
related to the complexity of the systems involved, (3) issues related to the validity of the
information on which the analysis and evaluation is based and (4) issues related to the
limiting conditions under which the emergency response system operated. An outline of
a framework for such an analysis and evaluation, influenced by systems theory, accident
investigation theories and programme evaluation theories dealing with the above
aspects, is introduced, discussed and exemplified using empirical results from a case
study.We conclude that the proposed framework may provide a better understanding of
how an emergency response system functioned during a specific operation, and help to
identify the potential events and/or circumstances that could significantly affect the
performance of the emergency response system, either negatively or positively. The
insights gained from using the framework may allow the actors involved in the response
operation to gain a better understanding of how the emergency response system
functioned as a whole, as well as how the actors performed as individual components
of the system. Furthermore, the information can also be useful for actors preparing for
future emergencies
Department/s
- Division of Fire Safety Engineering
- Lund University Centre for Risk Assessment and Management (LUCRAM)
- Division of Risk Management and Societal Safety
Publishing year
2010
Language
English
Pages
14-25
Publication/Series
Journal of Contingencies and Crisis Management
Volume
18
Issue
1
Links
Document type
Journal article
Publisher
Wiley-Blackwell
Topic
- Building Technologies
- Social Sciences Interdisciplinary
- Other Civil Engineering
Status
Published
Project
- FRIVA
Research group
- LUCRAM (Lund University Center for Risk Analysis and Management
ISBN/ISSN/Other
- ISSN: 1468-5973