| dc.description.abstract | It is inevitable that project management has always been one of the most important
aspects of the development of any corporation. In order to obtain successful innovations,
the authority must maintain careful and diligent preparations in terms of time, cost,
manuals and other resources. This can immensely contribute positive service to the
sustainability of the project. Therefore, project managers are always making every effort
to improve, develop, and apply new methodologies to innovate their business work.
Proactive and reactive scheduling is believed to be effective for supporting common
real-life projects. This method not only enhances project execution to be fast and
efficient, but also protects the project from various risks of interruptions, which saves a
lot of time and money should problems arise. Although proactive and reactive
scheduling are commonly applied in numerous scientific and practical fields, there are
still gaps where this methodology has not been fully developed. A lot of methods have
proven to have the capability to resolve different problems, so it is essential to
consciously evaluate each literature.
This thesis will emphasize the use of a mathematical model to minimize project
completion time, while maintaining an efficient resource usage to reduce uncertainties
and speed completion. This thesis will apply the matheuristics of Genetic Algorithm and
Integer Programming to solve the resource-constrained project scheduling problem and
compare the outcomes with the given database results. | en_US |
