- 29 MayHyperbody's Robotic Building team leads a workshop on Design to Robotic Production for Continuous Variation at InDeSem 15
- 28 MayDr Nimish Biloria speaker at the Delft Data Science Seminar on "Social Data Science for Workforce Management"
- 19 MayHenriette Bier co-tutored graduation project that received 1st prize Archiprix National and 1st prize Archiprix International
- 19 MayHenriette Bier publishes chapter on Digitally-driven Design and Architetcure in Neighborhood Technologies Media and Mathematics of Dynamic Networks
- 18 MayAchilleas Psyllidis's paper accepted for publication and demonstration at the 24th International World Wide Web Conference (WWW 2015)
- 18 MayDr. Nimish Biloria lectures at the Architecture Week'15 - Beyond Shape event at the University of Lusofona, Lisbon, Portugal
- 15 MayJia-Rey Chang will deliver a talk in Creative Coding Amsterdam 001 "Inhabitants of the Subterranean"
- 12 AprHenriette Bier presents Robotic Building at TEDxDelft Salon's Crossing Bridges event that deals with the theme The Future
- 09 AprDr. Nimish Biloria invited as Speaker at the worldwide Internet of Things (IoT) event at the V2 Institute for the Unstable Media, Rotterdam
- 09 AprDr. Nimish Biloria to deliver a talk at the The 6th Conference of Urban System and Environment (USE) Joint Research Centre between SCUT and TU Delft
Buckminster Fuller Challenge
The Buckminster Fuller Challenge is an annual international design Challenge awarding $100,000 to support the development and implementation of a strategy that has significant potential to solve humanity's most pressing problems. It attracts bold, visionary, tangible initiatives focused on a well-defined need of critical importance. Winning solutions are regionally specific yet globally applicable and present a truly comprehensive, anticipatory, integrated approach to solving the world's complex problems
The entry of Kas Oosterhuis for the 2011 Buckminster Fuller Challenge describes quauntumBIM. QuantumBIM is a next generation Building Information Model where all building components possess an unique identity and are linked in real time to streaming environmental data, facilitating a non-linear collaborative design process, thus fit to deal with uncertainty and prepared to manage unpredictability of proactive behavior of the building body.
Describe the critical need your solution addresses.
People and building components alike are active players that receive, process and send data in real time in the transaction spaces of an augmented ecology of people and products. Only when everything and everyone is directly communicating to everyone and everything the world can evolve its brains and start thinking.
Explain your initiative in more depth and its stage of development.
The concept of quantumBIM is based on evolutionary developments of our time, which makes me aware of living inside evolution. I look at the world around me from the perspective of unfolding swarm behavior, where the members of the swarm are acting as simple agents following simple rules. In the swarm all members are unique identities that act bottom up as to drive the swarm.
I have acknowledged the paradigm shift from mass production to customization that is penetrating in all pores of society. As a practicing architect and as a research director at the university I have dived deeply into the challenges of nonstandard architecture and of proactive architecture. I have realized several nonstandard buildings and interactive installations as to illustrate the potential. The radical consequence of customization is that all building components will act as members of the swarm of building components, interacting with their immediate environment and with their users in real time. The real time interaction is administrated in and facilitated by the prototypical software quantumBIM.
QuantumBIM facilitates a New Kind of Building that can change shape and content in real time. Multiplicity and multimodality are key to the solution of the global problem of languishing sustainability.
QuantumBIM software has been tested in parts and has proven to work effectively. It comes down to very simple principles. The experts and stakeholders in the collaborative design game will only communicate bilaterally, peer to peer, one to one, and find the minimal amount of essential data to exchange to stimulate the other to perform to the best of their knowledge. When all experts work one to one, the network of connected knowledge is robust and acting strongly bottom up. There are a few simple quantifiable top down rules as to organize the context wherein the expert swarm operates.
How does your strategy and approach respond creatively and comprehensively to key issues?
The quantumBIM approach addresses a multitude of social, cultural, economic, ecological, and technological issues. In the building industry, which one of the largest industries of the world, there is a strong need to reduce failure costs, to reduce building mistakes, to increase performance [including being floodproof, hurricaneproof and earthquakeproof]. In my view only an inclusive communication protocol between all stakeholders may improve the poorly performing building industry, quantumBIM is a design tool to frame the swarm of stakeholders in a real time collaborative hive.
Clearly the quantumBIM software is a piece of technology, but at the same the improvements that it facilitates resides just as well between the ears of the players. By playing the participatory design game the players will become aware of the fact that the vast majority of current buildings, even the explicitly iconic, are actually based on old obsolete paradigms, that of mass production and consumerism. I am prepared to accept the radical consequences of customization, which opens the way for the long tail of the economy, the customized decentralized production from bits to atoms. I believe in the potential of the new participation economy, which is an radical form of direct democracy without the pitfalls of populism.
A design team that acts in a distributed swarm exchanging data and design intent in real time, and buildings that are composed of locally smart building components that interact in the swarm of building components and communicate with their environment and their users certainly is a breakthrough in the world of the building industry. I think that quantumBIM, the quantum Building Information Model that is informed, that is able to process information and built to transmit processed information certainly represents a preferred state model for the New Kind of Building, revolutionizing the building industry worldwide, including Africa, the Americas, Australia and Asia.