The main concept focuses on a genetic network based on “self-sufficient-organized” structures, that have the
hereditary inteligence embeded in their “skin”.
The chain is formed out of two types of structures : red and white .
The logic of the system follows the principles of the way human body is being created and maintained
functional at the cellular level.
This is the “motor” of genetic architecture and its qualities through which interconected inteligent networks can be
created and multiplied to infinit,while changing shapes and adapting to the enviroment’s changing conditions in time.
The design started with the creation of a linked network of functions in the bounderies of the Cerda grid.
These functions will be then divided into different types of zones, and connected with specific circulation links.
Like this, an organic chain will be created.
A branching network algorithm will be used in order to generate an adaptive network.
This algorithm allows the network system to memorize different variables of rules at each branching node and
store them in different hierarchies.
The first network function is then stored into the desired hierarchies and combined with the previous algorithm.
This result in an initial set of points consisting of different functions and hierarchies with the ability to maintain
connectivity and adapt to the insertion of new functions.
Group project: Diana Nitreanu, Arian Hakimi, Andrea Debilio
For the project click the link below:
http://issuu.com/dianaoana.nitreanu/docs/final_pdf