Suppose a large airport
considers an extension of its terminal to be able to cope with the increasing
number of passengers. Before investing a lot of money in a builiding
project, it is important to know if the new terminal is indeed suuficient to handle the increased number of passengers. Or
to find out, what is the maximum number of passengers in the new situation. A
simulation study is very useful tool to obtain an answer to this type of
questions.
Simulation is the imitation
of systems or processes in the computer to be able to obtain information about
their perfomance. Because of the increasing power of computers, it has become an important tool for decision support. It is
frequently applied in the area of transportation and logistics, but also for wheather forecast and climate studies and for design of
e.g. airplanes and bridges.
A simulation study involves
a number of steps: first a problem description and modelling,
then implementation, after that experiments
have to be conducted and finally the results have to be analysed.
In the course, we study discrete-event simulation which means that the state of
the system changes at discrete moments in time (step by step). Uncertainties
are included in the model by means of stochastic variables. We focus on
applications in transportation and logistics. These are modelled
as discrete systems. In applications like robotica
and aerodynamics, discrete-event simulation models are also important, however,
they occur in combination with continuous simulation models (differential
equations).
We study the following
topics: simulation modelling, validation and
verification, input and output analysis, random number generators, and queueing theory. Moreover, we study applications by means
of cases, papers and assignments.
http://www.cs.uu.nl/education/vak.php?vak=INFOSIM&jaar=2008