Most artificial intelligence (AI) researchers now believe that writing computer code which can capture the nuances of situated interactions is impossible. Alternatively, modern machine learning (ML) researchers have focused on learning about these types of interactions from data. To explore these learning-based approaches and quickly build agents that can make sense of human instructions and safely perform actions in open-ended conditions, we created a research framework within a video game environment.Today, we’re publishing a paper [INSERT LINK] and collection of videos, showing our early steps in building video game AIs that can understand fuzzy human concepts – and therefore, can begin to interact with people on their own terms.
Most artificial intelligence (AI) researchers now believe that writing computer code which can capture the nuances of situated interactions is impossible. Alternatively, modern machine learning (ML) researchers have focused on learning about these types of interactions from data. To explore these learning-based approaches and quickly build agents that can make sense of human instructions and safely perform actions in open-ended conditions, we created a research framework within a video game environment.Today, we’re publishing a paper [INSERT LINK] and collection of videos, showing our early steps in building video game AIs that can understand fuzzy human concepts – and therefore, can begin to interact with people on their own terms.
Researchers at MIT have made significant steps toward creating robots that could practically and economically assemble nearly anything, including things much larger than themselves, from vehicles to buildings to larger robots.
Amoebae are single-cell organisms. By means of self-organization, they can form complex structures—and do this purely through local interactions: If they have a lot of food, they disperse evenly through a culture medium. But if food becomes scarce, they emit the messenger known as cyclic adenosine monophosphate (cAMP). This chemical signal induces amoebae to gather in one place and form a multicellular aggregation. The result is a fruiting body.
Volunteer customers will be able to order and receive beverages at designated drop-off points in PIT's Airside Terminal. Ottobot from Ottonomy is the first fully autonomous robot for deliveries inside airports and is currently deployed at multiple airports.
Learning how to build upon knowledge by tapping 30 years of computer vision research
Learning how to build upon knowledge by tapping 30 years of computer vision research
Learning how to build upon knowledge by tapping 30 years of computer vision research
Learning how to build upon knowledge by tapping 30 years of computer vision research
Learning how to build upon knowledge by tapping 30 years of computer vision research
Learning how to build upon knowledge by tapping 30 years of computer vision research
Learning how to build upon knowledge by tapping 30 years of computer vision research
Learning how to build upon knowledge by tapping 30 years of computer vision research
Researchers from Hanyang University and Inha University have introduced collective behavior of multiple swimming robots for delivery of thousands of cargos.
IEC 61131-3 is the de facto standard in the industrial automation industry. It encompasses 5 different programming “languages”. It makes designing simple programs straightforward and easy, and it does this very well.