.

ALMERE PAMPUS TRANSFERIUM BY METASTABLE ARCHITECTURE



01-Almere-Pampus-Transferium-by-MetaStable-Architecture


Informational system developed for Almere Pampus Transferium assumes the absence of permanent stasis and operate onto metastable frames.


02-Almere-Pampus-Transferium-by-MetaStable-Architecture


An associated research incorporates computational mechanisms inspired by natural form emergence and evolution, not only in the design process, but also in its execution and evolution. Those mechanisms, while inspired by nature, do not necessary mimic its aesthetics.


03-Almere-Pampus-Transferium-by-MetaStable-Architecture


Their value is rather in providing effective and adjustable embodiments, whose emergence can be directly linked with the environment, initiating a mutual and continuous self-regulating feedback loop. The application of developed informational systems in an architectural design goes in parallel with embodiments capable of handling fluctuating data flows. 


04-Almere-Pampus-Transferium-by-MetaStable-Architecture


Parametric structural system used in a building is a the same time modular and customised, which means that within its parametrical boundaries new extensions of the building required in time, can be automatically adjusted to current conditions and connected with the existing parts of the building.


05-Almere-Pampus-Transferium-by-MetaStable-Architecture


Main structure of the building is covered with single glazed facade that provides condition for functionalities where precise climate control is not required. Internal volumes, at the other hand, placed inside the main structural frames, provides advanced climate control for all sorts of potential activities.


06-Almere-Pampus-Transferium-by-MetaStable-Architecture

At the level where big and open spaces, created by main structural system, meats internal volumes curving particular fragments of interior for their own means, spatial negotiation occurs. Description from the architecs.