Topological information region matching for optimizing indoor environment design

In this research, the approach of topological information region matching is introduced as a new solution methodology for designing indoor spaces to increase the usability of space, further more, the satisfaction of users and functionality of these spaces. The methodology consist of data collection and analysis, spatial analysis, and design implementation, GIS and BIM tools used to collect the spatial data. In objective analysis, the topological analysis is used to topologically match some regions because they are relevant in the design process depending on their properties allows for a design that is unique to the individual's circumstances. Several areas were covered in the assessment of the proposed approach, such as the arrangement of the working environment, sources of light, the way the area was made accessible and the measures in place relating to environmental changes. Results demonstrated significant improvements: the amount of space has been improved by at least twenty percent, average illuminance has also been enhanced by up to seventy five percent and finally, accessibility and the means to control the internal environment of the building has been made possible which in return creates and enhances more efficiency, functionality and friendliness of indoor climate. The key advantage of the proposed methodology is its flexibility that can be implemented at the early stage of construction of the new facility as well as at the retrofitting of the existing structure in terms of both reduced cost and environmental impact. The expansion of spatial analysis technologies contributed to a vast potential of the application of topological information region matching to the design of indoor environment, which will be a promising development direction of architectural and interior design in the future. This research thus highlights the importance of blending modern computational strategies and topological approach when designing effective and sustainable indoor environments to fit the users' needs.