Living Logic investigates the programmability of matter, in how we make, craft, sculpt, computate, and fabricate with materials. In biology, it’s cells and DNA, in paper, it’s folds, for reality, it’s digital and advanced fabrication techniques.
How can we code matter into new forms, to program shape and function? It goes in two directions: constructively and deconstructively, considering composition and decomposition. The importance of how we make and how we unmake is intricately linked to natural processes.
Eric Drexler predicted an era of nanotechnology; where material is assembled atom by atom, paper folds itself into origami robots and seeds grow into city-like ecosystems. These lofty concepts exist in a future where materials are programmable; however, the reality for our work is far more grounded. Crafting remains as much handwork as thinking, augmented by digital fabrication, electronics, brain-computer interfaces, biosensors, pipettes, and primers ordered from labs. Where do we keep our hand in the process and where do we let natural or artificial systems take over? How can new materials and methods influence and shape our ecosystem?
Key Research Topics:
Our Key Research topics Symbiotic Creativity and Origami Robotics both express uniquely framed Art Science Research practices in Living Logic. Symbiotic Creativity stems from bio-art and brain-computer interfaces, and Origami Robotics is a convergence of geometry, paper folding, and robotics. Symbiotic Creativity uses natural processes as part of the material dramaturgy of the works, and Origami Robotics draws inspiration from folding and the materiality of nature. Both works find creativity in the natural processes. Alongside these Key Research themes, the creation of the Material Labs at the Ars Electronica Center positions the FabLab and Biolab alongside each other as functional laboratories capable of supporting Art Science Research.
Highlights
Exploration of the art and science of robotic origami to design and produce strong, flexible, and highly irregular origami from textiles and 3D printing.
Research project to explore the future of creativity considering all aspects of ink: from painting with drones and microorganisms to ink generated by our mind and body.
Immersive audio and visual experience in Deep Space 8K, created through the interaction between artificial intelligence and biological entities.
What happens to our experience of space when we fold sound? The research into fundamental artistic methods for origami and robotics follows our central theme of Fold Sensing.
Research project to bring together biotechnology and digital pen tablet technology to create living ink that grows freely beyond human input.
Capturing brainwaves and body signals in real-time to create a new form of ink, called Life Ink, expressing our creative moments in a completely new form.
Ars Electronica Center exhibition with artistic, scientific, and social perspectives on the multifarious issues that arise when human beings form life in the lab.
Research on how new design approaches that utilize advances in scientific origami, computation, robotics, and material experimentation can influence the functional aesthetic of oribotics.
