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FOSS4G2006 - Free And Open Source Software for Geoinformatics
FOSS4G2006 - Free And Open Source Software for Geoinformatics
11-15 September 2006 Lausanne, Switzerland
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A GIS-based FOSS decision support system for the management of SAR operations in mountain areas
Information plays a basic role in decision making processes. In particular in the
emergency management and SAR (Search and Rescue) operations, it is extremely
important to take into account and use correctly as much information as possible to
maximize the possibility of making the right decisions. Quite often decision makers
do not consider all the available information. Moreover, cognitive biases cause
several errors in the decision making process. These are some of the reasons that
justify the effort for trying to build a decision support system, based on a
normative approach to the decision-making, to manage mountain missing person search.
Since cognitive biases influence the way the rescue squads act, and the environment
affects the way a lost person thinks and moves, it is possible to start the design of
a decision support system by trying to evaluate in a combined way both environmental
and individual variables. The more natural and logical way to manage environmental
information, i.e. geographical data, is to use GIS (Geographic Information Systems),
while the best way to model the behavior of lost people is to study the way they
think and act. The implementation in a GIS allows the integration and the management
of different kind of information.
The maximum speed of a missing subject is evaluated on the base of physiological
variables and terrain features and it is used to evaluate the maximum reachable
extent, thus defining the area the missing person can be found in. A map is built
where isochronous lines are drawn around the last known position, defining the
maximal search area for a given time. The model takes into account the morphological
features of the searching area, the presence of physical obstructions to the lost
person walk as well as preferential paths and some simple physiological parameters.
The morphological parameters used are: height, terrain slope, vegetation density and
the ground unevenness. Age, sex and training level of the subject are considered as
physiological parameters. Visibility is another relevant parameter, accounting for
the influence of light and darkness on the subject motion. Another important
parameter that can strongly influence the lost person path is the presence of
preferential paths or obstacles. It is possible to consider rivers as well as
bridges, roads and mountain paths as elements influencing the velocity the lost
person can or can not achieve.
The available power is evaluated from the physiological parameters and matched
against the energy cost required from the terrain features. In this way it will be
possible to separate the effects of terrain features from missing person's
parameters, making this approach more effective, since a map of the energy required
to travel in an area can be evaluated in advance.
The model has been tuned on the few data available in literature and on walk speed
estimates provided by professional mountain guides and by the “Aiut Alpin Dolomites”
rescue corp. A GPS campaign has been carried out to collect data to verify the
results and the reliability of the model. A sensibility analysis has also been
performed to evaluate the role and the relative influence of the different parameters
of the model.
A GRASS module implementing the model has been built and will be released soon.
Current developments include the development of a full DBMS approach, where all data,
both semantic and cartographic, are stored in a spatial database. A web interface
will be used both to feed the DBMS and run the model and to browse the model output
and the database.
Id: 137
Place: Lausanne, Switzerland
Room: Cubotron (Auditoire II)
Starting date:
15-Sep-2006   11:00
Duration: 30'
Contribution type: Technical Conference
Primary Authors: Dr. ZATELLI, Paolo (University of Trento)
Co-Authors: Dr. CIOLLI, Marco (University of Trento)
Dr. MENGON, Luca (University of Trento)
Dr. VITTI, Alfonso (University of Trento)
Dr. ZOTTELE, Fabio (University of Trento)
Presenters: Dr. ZATELLI, Paolo
Material: slide Slides
Included in session: Session 12 : GRASS

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