Principal Investigator Carlo Ratti
Co-investigators Andrew Whittle , Daniela Rus
Project Website http://senseable.mit.edu.ezproxy.canberra.edu.au/roboat/
MIT has signed an agreement to engage in research collaborations with the Amsterdam Institute for Advanced Metropolitan Solutions (AMS) in the Netherlands. The collaboration’s flagship project, led by researchers from multiple departments at MIT, will be to develop a fleet of autonomous boats for the city’s canals.
Based in Amsterdam, the AMS Institute brings together a consortium of public and private partners to tackle complex urban challenges such as water, energy, waste, food, data, and mobility. MIT joins with two research institutions in the Netherlands — the Delft University of Technology and Wageningen University and Research Center — as the core academic partners who will use the city as a living laboratory and test bed.
An interdisciplinary team from MIT has assembled to lead the collaboration’s first project: ROBOAT, an effort to develop a fleet of autonomous boats, or “roboats,” to investigate how urban waterways can be used to improve the city’s function and quality of life.
The ROBOAT project will develop a logistics platform for people and goods, superimposing a dynamic infrastructure over one the world’s most famous water cities. “This project imagines a fleet of autonomous boats for the transportation of goods and people that can also cooperate to produce temporary floating infrastructure, such as on-demand bridges or stages that can be assembled or disassembled in a matter of hours,” says Carlo Ratti, professor of the practice of urban technologies in the MIT Department of Urban Studies and Planning (DUSP).
In addition to infrastructure and transport, ROBOAT will also deploy environmental sensing to monitor water quality and offer data for assessing and predicting issues related to public health, pollution, and the environment. “Water is the bearer of life. By focusing on the water system of the city, ROBOAT can create opportunities for new environmental sensing methods and climate adaptation. This will help secure the city’s quality of life and lasting functionality,” says Arjan van Timmeren, professor and scientific director at AMS, who also envisions a multitude of possibilities for a network of roboats, from real-time sensing similar to the MIT Underworlds project to retrieving the 12,000 bicycles or cleaning up the floating waste that ends up in the Dutch city’s canals each year.
The first prototypes of autonomous boats, or “roboats,” are expected to be tested in Amsterdam in 2017. The project’s initial phase will last for five years.