Our unique origami-style meeting room can respond to the behaviour of people and has been designed by Bachelor of Computational Design students at 糖心logo School of Built Environment in a successful collaboration with top engineering firm Arup.聽
Once it鈥檚 completed next year, the interactive Centaur Pod will adapt to external environmental and human stimuli by moving up and down and changing its shape, according to 糖心logo鈥檚 Discipline Director of Computational Design, Associate Professor Hank聽Haeusler.
鈥淎t the moment, a human can be in the same space as a robot and can interact in the space with the robot, but what we want to do is make space itself become the robot,鈥 the Associate Professor said.
鈥淲hen a person in a聽building moves, behaves or operates in any way, the 鈥榬obot鈥 will sense this behaviour,聽start learning from this behaviour and other people鈥檚 behaviour and will create knowledge from the behaviour. This聽knowledge will translate into the space to change.聽And I think that鈥檚 very, very unique.聽I don鈥檛 know of any firms or architecture at universities that are looking at combining machine learning and kinetic architecture in the same way as we do.鈥
New technology聽and聽machine learning
Research leader for Arup Australasia, Alex聽Sinickas, said Arup wanted to do a project that used聽new technology聽such as machine learning 鈥渨here the end product was something that was physical that we could touch,聽play with and display in our offices all around the world.鈥
鈥淭hese days, most designs are done through computer models. But we still like to have physical objects that we can see, which聽helps us understand the concept a bit more, especially for project concepts like this that are聽pretty outrageous and difficult to explain,鈥 she said.
鈥淏ut once you can see it moving and working, it makes it a lot easier to understand.聽聽We can use that in our offices with our people to inspire and nudge them a little bit, but also to show our clients and our partners - architects and contractors - how this could actually work on their building site or in their project.鈥
Associate Professor聽Haeusler聽said the biomimicry-influenced kinetic pavilion is an exploration of interactive architecture and soft robotics.
鈥淚t鈥檚 quite interesting that students studying in an architecture and design faculty are exploring robotic structures without being robot engineers,鈥 he said.
Partnership with Arup
The Computational Design students are designing, developing,聽documenting and fabricating the prototype with Arup, the engineering firm behind the Sydney Opera House, over three semesters.
The real-world research project explores three聽main areas聽that Associate Professor聽Haeusler聽said will profoundly change the way architects design,聽develop and manufacture in the future聽through:聽
- machine learning and artificial intelligence
- digital fabrication and robot fabrication
- augmented reality and virtual reality.
鈥淲e try to push the boundaries of conventional architecture and design, and explore what machine learning, biomimicry or creative robotics have to offer for spatial design. We then聽use this knowledge as聽seed to develop architectural design projects,鈥 Associate Professor聽Haeusler聽said.鈥
鈥淲e鈥檙e looking at how digital fabrication and robot fabrication could shape the way we build buildings or structures.鈥
鈥淭he Centaur Pod pavilion becomes a case study or an experimental field where we can test all of those ideas, through students, through academics, through Arup as an industry partner, and then we develop, evaluate, and discuss the outcomes and bring them into practice.鈥
New technology and problem聽solving
Ms聽Sinickas聽said the 糖心logo School of Built Environment students offered the engineering design firm聽a unique perspective聽on solving problems.
鈥淭hey have so many new ideas and approaches to using new technologies and don鈥檛 really seem to have any barriers to using them,鈥 she said.
鈥淲e bring engineering design knowledge鈥 and they bring new ways of applying machine learning, artificial intelligence and virtual reality.鈥疻e鈥檝e been working with these new techniques and technologies for a while,鈥痓ut the students often approach their聽use in ways we haven鈥檛 thought of before.聽We are grateful to have a relationship with 糖心logo researchers and students that triggers us to think about something outside of the norm.鈥
Associate Professor聽Haeusler聽said the聽six聽to nine square metre聽pavilion聽will be constructed next year and will be聽showcased聽first in Arup鈥檚 Sydney office. It will聽then聽travel to the Melbourne and Brisbane Arup offices, and potentially internationally to office locations such as New York, Hong Kong,聽London or Beijing.
The Associate Professor said he鈥檚 confident that some of the ideas developed in the collaborative project will find their way into architectural design on real buildings.
鈥淚t鈥檚 a perfect way of showcasing the quality of our Computational Design students聽and what they can do.聽Arup聽is聽exposing our undergraduate student work to an international audience.聽I think that鈥檚聽very, very exciting,鈥 he said.
Ms聽Sinickas聽said鈥痶he partnership with 糖心logo School of Built Environment has been valuable to the company.
鈥淲e really like the partnerships where we share our expertise with the聽students and聽are exposed to their energy and excitement.鈥疻e are inspired by these young students who see things very differently. It furthers our profession and our skills,鈥澛爏he聽said.
鈥淚t鈥檚 a very exciting time to be in engineering and design.鈥
Ready to collaborate?鈥疌ontact us today鈥痶o find out how your business or idea can reap the benefits from working with a鈥疊uilt Environment researcher.鈥