As scientists make huge strides in robotics, natural building materials, and new construction methods, our urban architecture could take on a much different form than the rigid construction we’re used to.
As complex ecosystems, cities are confronting tremendous pressures to seek optimum efficiency with minimal impact in a resource-constrained world. While architecture, urban planning, and sustainability attempt to address the massive resource requirements and outflow of cities, there are signs that a deeper current of biology is working its way into the urban framework.
Innovations emerging across the disciplines of additive manufacturing, synthetic biology, swarm robotics, and architecture suggest a future scenario when buildings may be designed using libraries of biological templates and constructed with biosynthetic materials able to sense and adapt to their conditions. Construction itself may be handled by bacterial printers and swarms of mechanical assemblers.
“Buildings may be designed using libraries of biological templates and constructed with biosynthetic materials.”
Much of the modern built environment we experience began its life in CAD software. In the Bio/Nano/Programmable Matter lab at Autodesk Research, engineers are developing tools to model the microscopic world. Project Cyborg helps researchers simulate atomic and molecular interactions, providing a platform to programmatically design matter. Autodesk recently partnered with Organovo, a firm developing functional bioprinters that can print living tissues. This pairing extends the possibilities from molecular design to biofabrication, enabling rapid prototyping of everything from pharmaceuticals to nanomachines.
Source: Fast Company