Architectural practices have turned out to become more demanding and challenging where new societal needs are presently emerging within our dynamic and complex environment. Coping with the aforesaid trajectory, architecture is expected to be technologically intervening within a variety of problematic contexts seeking innovative platforms of sustainable engagements, structuring and digital performances.
However and throughout rapid advancements in technological platforms, a prime gap emerges with respect to the lack of integration amongst sequential design processes and industrial practices. The research hence focuses on developing a hybrid implementation amongst diverse design technologies with a precise emphasis on the notion of computational lighting as a parametric agent that promotes new design protocols and communicative logics. Such a trajectory is expected to be further provoking socio-spatial interactions and environmental interpretations throughout a set of newly emergent structures, digital parameters and functions.
Accordingly, the authors are precisely fostering a functional integration amongst design computation and new lighting platforms, introducing an experimental schema of parametric geometries and algorithmically simulated surfaces. The outcome aims to demonstrate the incorporation of free form embedded Light Emitting Diode (LED) systems amongst diverse structuring and parametric logics.
Such an integration amongst LED technologies and parametrically generated surfaces would radically alter the ways users interact with the aforementioned morphologies. Users would hence turn into active participants to be highly immersed within a series of lighting scenarios and transformations; each explicates a particular character and representation.
The research eventually represents an attempt to reformulate current architectural ideologies into a newfangled mode of parametric turns and lighting semiotics that builds up an immersive experience within digitally mediated environments.