The article explores the integration of the Critical Path Method (CPM) and Linear Programming (LP) for optimizing task allocation in multi-team IT projects. The research aims to develop and implement a model that minimizes the overall project completion time, considering task dependencies and ensuring an even distribution of workload among teams.
In this article, a matrix model (ones (rank organization of types of work matrix (ROTW)) is used to determine the location and connection in space and time of the main and additional parallel grippers. The main works are used to calculate the values of grippers by a sequential parallel method for technologically similar processes, and additional ones - by a parallel method to increase the amount of resource. The mathematical model includes the research objective and parameters that affect the construction time.
The article proposes to balance processes with non-rhythmic flow-lines according to the period of work execution with the use of complex mechanized machines (CMM).
An increase in the period of deployment in the flow-line and downtime of non-critical works calculated by the Critical Path Method requires the development of optimization methods to reduce the construction period. We proposed a hypothesis to equalize work rhythms due to the redistribution of work volumes on interdependent divisions (ID) between CMMs.