Planning of construction activities is an important need in the process of building practice. In this study, an alternative solution to this planning process is proposed. The study aims to create a model that dynamically responds to the need for temporary space and the number of personnel connected to it according to the project requirements. The main actor of this model is the container, which is frequently used as a temporary space in construction processes. The study calculates the number of personnel required for construction site management, the number of temporary spaces and their arrangement as a numerical and solid model with the project area and project floor area information received from the user. The study was carried out in Rhinoceros - Grasshopper environment and consists of three main parts. In the first part, the container movement space is determined in line with the entered area and project information. In the second part, the project variables, construction variables and container deployment systems that the user will interact with are created. In the last part of the study, the breakdown of the information, container arrangement and visualisation of the data can be provided. It is thought that this study can help engineers and architects to create efficient field programming by providing a user-friendly interface and visualisation tools that allow differentiation of values.