Een natuurlijke geschiedenis van netwerken / Soft Machine
A Natural History of Networks / SoftMachine is een elektrochemische algoritmische machine die een alternatief computationeel en technologisch materiaalregime onderzoekt, gebaseerd op Gordon Pask’s experimenten met elektrochemische leermechanismen [↓ 1] en huidig ​​onderzoek naar biomimetica, programmeerbare materie en vloeibare ruimtetijdgestuurde metalen actuatoren . Binnenin creëert een op maat gebouwd elektrochemisch experimenteel apparaat (SoftMachine) een dynamische vloeibare microkosmos die een continue evolutie van vormen, structuren en materiële verhalen uitvoert. De voorstelling heeft tot doel nieuwe verbeeldingen van het machinale, het kunstmatige en het materiële uit te lokken. Een radicale technologie die traditioneel discreet mechanisch denken verbindt met zachte/vloeibare materialen die zelfgeorganiseerd gedrag mogelijk maken via hun specifieke materiële agentschappen.

A Natural History of Networks / Soft Machine
A Natural History of Networks / SoftMachine è una macchina algoritmica elettrochimica che sonda un regime materiale computazionale e tecnologico alternativo, informata dagli esperimenti di Gordon Pask sui meccanismi di apprendimento elettrochimico [↓1] e dalla ricerca attuale sulla biomimetica, sulla materia programmabile e sul liquido controllato spazio-temporalmente attuatori in metallo. Al suo interno, un apparato sperimentale elettrochimico costruito su misura (SoftMachine) crea un microcosmo fluido dinamico che compie un continuo divenire di forme, strutture e narrazioni materiche. La performance mira a provocare nuovi immaginari del macchinico, dell’artificiale e della materia. Una tecnologia radicale che collega il pensiero meccanico tradizionalmente discreto e i materiali morbidi/fluidi che consentono un comportamento auto-organizzato attraverso le loro specifiche agenzie materiali.

Pavilhão de pesquisa biônica
O Instituto de Design Computacional (ICD) e o Instituto de Estruturas de Edifícios e Design Estrutural (ITKE) da Universidade de Stuttgart construíram outro pavilhão de pesquisa biônica. O projeto faz parte de uma série bem-sucedida de pavilhões de pesquisa que mostram o potencial de novos processos de design, simulação e fabricação em arquitetura. O projeto foi planejado e construído em um ano e meio por alunos e pesquisadores de uma equipe multidisciplinar de arquitetos, engenheiros e biólogos. O foco do projeto é uma estratégia de design de baixo para cima  paralela para a investigação biomimética de cascas de compósitos de fibra natural e o desenvolvimento de novos métodos de fabricação robótica para estruturas de polímero reforçadas com fibra.

bionic research pavilion

The Institute for Computational Design (ICD) and the Institute of Building Structures and Structural Design (ITKE) of the University of Stuttgart have constructed another bionic research pavilion. The project is part of a successful series of research pavilions which showcase the potential of novel design, simulation and fabrication processes in architecture. The project was planned and constructed within one and a half years by students and researchers within a multi-disciplinary team of architects, engineers and biologists.
The focus of the project is a parallel bottom-up design strategy for the biomimetic investigation of natural fiber composite shells and the development of novel robotic fabrication methods for fiber reinforced polymer structures. The aim was the development of a winding technique for modular, double layered fiber composite structures, which reduces the required formwork to a minimum while maintaining a large degree of geometric freedom. Therefore, functional principles of natural lightweight structures were analyzed and abstracted in cooperation with the University of Tübingen and the Karlsruhe Institute of Technology. Through the development of a custom robotic fabrication method, these principles were transferred into a modular prototype pavilion.