Artificial intelligence can accelerate the race toward sustainable energy technologies, prominent researchers argue
We鈥檝e all heard that artificial intelligence and machine learning are poised to transform our lives with self-driving cars and voice-activated robotic assistants. But these technologies may also be the key to speeding up the development of clean energy 鈥 from better batteries to more efficient solar cells.
, including the 重口味SM鈥檚 Ted Sargent, Harvard鈥檚 Al谩n Aspuru-Guzik, and internationally renowned AI pioneer Yoshua Bengio of Universit茅 de Montr茅al. Sargent of the Faculty of Applied Science & Engineering is U of T鈥檚 vice-president, international.
Solar and wind power have seen dramatic reductions in cost in recent years; however, in order to displace significant amounts of fossil fuels, they urgently require further improvements in conversion efficiency and energy storage. Sargent鈥檚 team is among those racing to develop new technologies that can meet these needs.
The problem, argues Sargent, is that 鈥渢he search space is vast.鈥
鈥淎ccording to , there are more than 700,000 potential materials to choose from,鈥 says Sargent. 鈥淏ut when researchers select which materials to use in a new device, such as a solar cell or battery, they typically focus on a few combinations of elements they deem interesting, based on their own experience. They ignore everything else.鈥
Sorting through all possible materials to determine the very best ones to use in each particular situation is a task for which humans are ill-equipped. Artificial intelligence, on the other hand, is very effective at mining large databases to find the optimal match for given set of criteria. The approach could avoid a lot of dead ends, saving valuable time and money.
鈥淲hat we鈥檇 like to see is more collaboration between the artificial intelligence community and the clean energy community,鈥 says Phil De Luna, a PhD candidate in the department of material sciences and engineering and an author on the paper. 鈥淚f machine learning algorithms can decode human speech and recognize faces, they should also be able to point us to the combinations of materials that will be most promising.鈥
The Nature opinion piece was a product of a joint seminar between two research programs of the Canadian Institute for Advanced Research (CIFAR): Bio-Inspired Solar Energy and Learning in Machines and Brains. Held at MIT last summer, the meeting resulted in this collective call to action, sponsored by more than a dozen internationally renowned professors and industrial scientists in fields ranging from materials science and engineering to computer science.
U of T's Faculty of Applied Science & Engineering is well-positioned to mediate these new collaborations. Researchers such as Sargent and others in the are developing innovative solutions in energy generation and storage. On the artificial intelligence side, faculty members have developed algorithms that can in real time, or to find the root causes of disease.
U of T is also home to the , which brings together a vibrant community of innovative problem-solvers to work across disciplines on both curiosity-driven and applied research challenges: Applying machine learning and artificial intelligence to sustainability would be a perfect fit.
Sargent and his co-authors acknowledge that what they are proposing is a tall order, yet they believe that it is a necessary step.
鈥淭ime is running out for finding the new energy technologies the world needs,鈥 says Sargent. 鈥淓xisting strategies may not get us there fast enough, so we need to try something new.鈥
The full list of co-signatories includes professors and scientists from the following institutions and companies: The 重口味SM, Universit茅 de Montr茅al, Harvard University, Northwestern University, Stanford University, Korea Advanced Institute of Science & Technology, University of Pennsylvania, Carnegie Mellon University, , , , and .