Recent studies have emphasized the technological potentials for the Internet of Things (IoT) as a communication strategy that conceives a smart interactive paradigm, in which the physical objects of everyday life would be consolidated with microcontrollers and embedded sensors for digital communication. This makes the IoT able to combine diversified parameters into everyday objects and activities so as to communicate with one another and users, and respond to various environmental stimuli through the internet [1]. Such objects confer novel computing implementations, and are widely recognized for introducing a comprehensive framework of networked physical objects recognized nowadays as the Internet of Things (IoT) [2], that considers ubiquitous presence in the environment of a diversity of objects which through wireless and wired connections and distinct addressing platforms are able to communicate with each other and cooperate with other things to create novel applications and services, achieving common objectives [3]. The particular hypothesis introduced derives from recent developments in ‘Ubiquitous Computing’ as a functional integration of computer sciences and advanced design streams. Through a computational platform, architectural spaces jointly engage into the context of everyday matters as an ideology of human-computer interaction. This generates architectural spaces which embed computation into the physical world within a smart environment encompassing adaptive configurations and communication strategies. Correspondingly, the environment can be comprehended as an emergent space of re-configurable organization of systems, reacting continually within a direct engagement and interaction where users become participants within a behavioral framework based on unpretentious principles of contextual parameters and complex symbiotic relationships of communication through people-to-people, people-to-building; and building-to-building [4]. In this framework, re-configurable architectural systems require a standpoint to design that incorporates the requirements of the present with the potentials to adjust to considerably variable needs in the future. This particular approach is based on supporting participants and designers, who can mainly recognize their own functions and circumstances, with the capacity to make convenient configurations when required, and discover newfangled models of living and participating within their built environment, through models of interactions, and data-intensive computing as an adaptive network of time-based systems [5].