ORI*BOTICS, the art and science of robotic origami, is a follow-on research project that
continues the investigation of origami, technology and nature. It extends on our novel
methods for designing and making strong, flexible and higly irregular origami from textiles
and 3D printing, namely Fold Printing and Fold Mapping.
This research asks questions specific to robotic origami and folded mechanis ms , a new area in
art and science with many open questions. Our aim is to extend knowledge from literature,
including new ideas in science, to develop new approaches and create practical tools and
know-how for the studio.
We investigate three fundamental problem areas: program, transform and sense.
1. The programming of origami shapes needs the understanding of theoretical, practical
and computational knowledge of how origami patterns are formed in nature and how
they can change shape. We aim to make new software to allow an artist to create new
robotics origami designs. We will an open-source, open-call methodology to create and
collate new and existing tools for computational origami.
2. Transforming a robotic origami shape requires intelligent materials and complex digital
fabrication techniques. Our experimental approach aims to combine current knowledge
into new processes for artists and scientists to make and move their origami robots. We
want to find methods that can be used to move a fold, in a repeatable, durable way, that
are suitable for studio-based production.
3. Sensing in origami offers continuous and binary sensing options that can create many
different types of human interactions, such as sculptural, musical and peformance-based
prototypes. We are looking for a multi-material solution, based on existing methods,
that can combine flexibility and electrical properties on complex origami patterns.
The research methodology is built around four categories: Art Into Science (literature
reviews, experimental validations) and Research Through Making, Open-Source & Open Call
(to bring together expertise from other world-leading researchers) (production of prototypes
and methods), Research Through Teaching (public presentations, workshops and
exhibitions). The presentation of our results of hands-on, haptic, tactile and physical
prototypes are treated with the same importance as conceptual frameworks, literature
reviews and publications. Public presentations and engagement are gained through
exhibitions, workshops and online videos.
The research will conducted at the Ars Electronica Futurelab in Linz. Public outreach
programs are in collaboration with the Ars Electronica Festival and Centre. A team with
artistic and scientific expertise is led by oriboticist Dr Matthew Gardiner.