Choreographed Soft Morphologies: exploring new ways of ideating soft architecture through material elasticity

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Temes de Disseny #34 - Material interactions in the human-made milieu
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Marina Castán
Royal College of Art
Daniel Suárez
Berlin University of Arts

This research aims to contribute to the current field of architectural design by offering evidence of how a collaborative and embodied approach to soft architecture can inform a new physical-digital design process. Current design technologies (e.g. sensors, 3D scanners, procedural modelling software), together with the use of the body as a source for designing a space, offer new methods and tools for designing architecture (Hirschberg, Sayegh, Frühwirth and Zedlacher 2006). However, the potential for experiencing and digitally capturing a soft and elastic material interaction through the body as a dynamic system capable of informing soft architectural design has not yet been widely explored. By using the felt experience as a tool for design, we allow the material to express its qualities when activated by the body, revealing its form instead of it being imposed from outside (DeLanda 2015). Taking an embodied approach used in interaction design and fashion design (Loke and Robertson 2011; Wilde, Vallgårda, and Tomico 2017), this research proposes a hybrid method to explore a textile-body ontology as an entity that has the potential to design a space, along with the use of motion capture technology in an effort to re-connect the experiential (the body) with the architecture (the space).


Through a custom-made interface, made of soft and hard materials, we explored the dynamic and spatial qualities of material elasticity through choreographed body movements. The interface acts as a deformable space that can be shaped by the body, producing a collection of form expressions, ranging from subtle surface modifications to more prominent deformations. Such form-giving processes were captured in real time by three Kinect sensors, offering a distinct digital raw material that can be conveniently manipulated and translated into architectural simulations, validating the method as a new way to inform soft architectural design processes.


The findings showed that: 1) the direct experience of collaboratively interacting with a soft and elastic interface allows the identification of the dynamic qualities of the material in relation to oneself and others, facilitating an immediate spatial meaning-making process; 2) exploring the design of a soft and elastic space through choreography and motion capture technology contributes to the creation of augmented relational scales across physical and digital realms, proposing a new hybrid design method; 3) the soft and elastic interface becomes a new entity when shaped by the body (textile-body ontology) giving the opportunity for a variety of formal expressions and offering a source of digital raw material for architectural design.

Keywords:

choreography, embodied interaction, soft interface, elasticity, architecture, motion capture technology, physical-digital

Article Details

How to Cite
Castán, Marina; and Suárez, Daniel. “Choreographed Soft Morphologies: exploring new ways of ideating soft architecture through material elasticity”. Temes de Disseny, no. 34, pp. 60-73, doi:10.46467/TdD34.2018.60-73.
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Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

(c) Marina Castán, Daniel Suárez, 2018

Author Biographies

Marina Castán, Royal College of Art

Textile designer and a research associate at the Royal College of Art currently pursuing her doctoral studies within the ArcInTex European Training Network (Marie Sklodowska-Curie actions). Her thesis looks at the intersection of textiles and architecture focusing on the importance of the body as a core centre of the design process. Drawing on the notions of agency and materiality, she explores the spatiality of textiles through body material interactions to inform new ways of addressing the design of soft architecture. After obtaining a Bachelor in Textile Design (ESDi Design School) and an MA in New Media Art Curating (MECAD-ESDi), she became professor and researcher at ESDi Design School. Since 2007, she has been conducting research in textiles including smart textiles and wearable design. She has experience both as a professor and researcher, often collaborating with industry and other stakeholders to develop innovative design processes and outcomes. She is interested in collaborative practices where different expertise and perspectives coalesce in a common ground. Her interests include embodied design methodologies, craft and technology material experimentation and ways of communicating research.

Daniel Suárez, Berlin University of Arts

Architect and a research fellow at Berlin University of Arts. In his research, he explores augmentation processes focused on translating textile operations from the physical to the digital domain by means of human-machine interactions. The aim is to manipulate such textile digital tectonics in correspondence with possibilities of design offered by CAD/CAM processes.

He graduated from Madrid Polytechnic University in 2004 with a MA in Architecture and Urban Planning and has been trained as CG Architect and Project Management. Before joining ArcInTexETN Daniel worked as practitioner for more than 12 years.  During that time, he gained professional experience working independently and for various international architectural practices.

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