THE INFLUENCE OF HUMAN MOVEMENT ON THE FORMATION OF ADAPTIVE ARCHITECTURE

Abstract

Adaptive architecture relates to buildings that are specially designed to adapt to their inhabitants and their environments and in order to design a biologically adaptive system, we can observe how living creatures in nature are constantly adapting to various external and internal stimuli can be a great source of inspiration. The issue is not just how to create a system capable of change but also how to look for quality change and determine the incentive to adapt. The research deals with the possibilities of transforming spaces by using the human body as an active tool, and the research aims to design and build an effective dynamic structural system that can be applied on an architectural scale and integrate them all into creating a new adaptive system that allows us to envision a new way to design, build and experiment with architecture in a dynamic way. The main objective was to address the possibility of a mutual transition between the user and the architectural component so that the architecture can adapt to the user, as the user adapts to the architecture. Motivation is the desire to engage with the psychological benefits of an environment that can respond and thus empathize with human emotions through its ability to adapt to the user. The adaptive affiliations of kinematic structures have been discussed in architectural research for more than a decade, and these issues have proven their effectiveness in the development of kinematic, responsive and adaptive structures and their contribution to an “intelligent architecture”. A wide range of strategies have also been used in building the mechanisms of complex kinematic and robotic systems to achieve convertibility and adaptability in engineering and architecture. One of the major contributions to this research is the exploration of how the physical environment can alter its shape to accommodate various spatial displays based on the user's body movement. The main focus is on the relationship among materials, shape and reactive control systems and the intent is to create a scenario where the user can move and the structure interacts without any physical contact. , the language of soft form transformation and interaction control technology will provide new possibilities for enriching human-environment interactions.