THE IMPACT OF PARAMETRIC DESIGN METHODOLOGY ON THE EFFICIENCY OF DESIGNING ARCHITECTURAL ENVIRONMENT OBJECTS
Keywords:
parametric design, architectural environment, algorithmic modeling, generative design, façade topology, ergonomic optimization, compositional morphogenesis.Abstract
This study investigates the impact of parametric design methodology on the efficiency of designing architectural environment objects. Contemporary digital design tools provide architects and designers with the capability to generate complex geometric forms, adaptive façade systems, and resource-efficient structural solutions. The primary objective of the research is to substantiate, through both quantitative and qualitative analysis, the functional, compositional, and ergonomic advantages of parametric modeling in comparison with conventional design approaches.
Public buildings, particularly cultural centers, along with their surrounding environmental elements, were selected as the research objects. The subject of the study focuses on the influence of parametric algorithms on spatial organization, lighting conditions, and structural solutions. The research methodology incorporates comparative analysis, graph-analytical methods, case study, and projective modeling.
The findings demonstrate that objects designed using the parametric approach show an average increase of 18-25% in land-use efficiency, while energy efficiency improves by 12%. The scientific novelty of the research lies in the development of an original adaptive model that defines the relationship between parametric variability and local climatic conditions.
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