MIT is collaborating with two Dutch universities to create a small fleet of self-driving boats that will first be tested in Amsterdam to ferry commuters and goods about the city.
The $27 million, five-year project named Roboat is expected to launch its first watercraft in the canals of the Dutch capital next year.
The researchers are also working to create other "dynamic" craft and temporary floating infrastructure such as on-demand bridges and stages that can be assembled or disassembled in a matter of hours.
Roboat is a collaborative project between MIT and researchers from Delft University of Technology and Wageningen University in Holland.
"Roboat offers enormous possibilities," Arjan van Timmeren, science director at the Amsterdam Institute for Advanced Metropolitan Solutions, said in a statement. "We'll also be exploring environmental sensing. We could for instance do further research on underwater robots that can detect diseases at an early stage or use Roboats to rid the canals from floating waste and find a more efficient way to handle the 12,000 bicycles that end up in the city's canals each year."
Amsterdam Institute for Advanced Metropolitan Solutions
Self-driving "Roboats" could be used to form temporary floating infrastructure such as on-demand bridges and stages.
While the university Roboat project is focused on watercraft for canals, private companies have been developing self-driving boats for a variety of other purposes for years.
For example, Sea Machines in Boston builds autonomous control and navigation systems for the commercial marine industry. The company is on its third version of a heavy-duty autonomous workboat for offshore and nearshore operations.
The Sea Machines V2 has robust enough stability for open ocean-floor surveying or to deploy geographically-sensitive acoustic positioning systems. The vessel has a propulsion system that can do 20 knots and pull three tons of cargo.
Sea Machine's V2 autonomous boat has enough stability for open ocean-floor surveying or to deploy geographically-sensitive acoustic positioning systems. The vessel has a propulsion system that can do 20 knots and pull three tons of cargo.
With a pilot house and helm, the V2 can be controlled autonomously as a robot or manually driven as a conventional boat.
Saildrone, in Alameda, Calif., is building miniature sailboats that traverse the bay and shores to monitor fish stocks or gather environmental data, according to the MIT Review.
This year, Rolls-Royce announced its vision for autonomous container ships that would traverse oceans sans crew.
"Autonomous shipping is the future of the maritime industry," said Mikael Makinen, president of Rolls-Royce's marine division. "As disruptive as the smartphone, the smart ship will revolutionize the landscape of ship design and operation."
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