The MIT tech could improve the way self-driving vehicles respond to human drivers around them.
Researchers at MIT’s Computer Science and Artificial Intelligence Laboratory (CSAIL) have developed an AI system for self-driving cars that classifies human drivers’ social personalities to improve decision-making in tricky road situations.
MIT researchers believe it could also be used to train self-driving cars to exhibit more human-like behavior that other people on the road could understand more easily.
The AI stems from the idea that self-driving cars can be programmed to classify the social personalities of other drivers. This classification allows the vehicle to make better predictions about upcoming dangers.
The researchers use ‘social value orientation’ to assess how egotistical or ‘prosocial’ other drivers are. Using this assessment, the system generates real-time driving trajectories for self-driving cars.
The system could be used to address the mismatch in behaviors and expectations between human drivers and autonomous vehicles.
While humans sometimes make calculated risks to avoid a situation, self-deriving cars are programmed to be cautious and obey road rules, particularly at difficult-to-navigate intersections and four-way stops.
This caution could explain the high number of incidents of human drivers rear-ending self-driving cars. It is how Apple’s self-driving vehicle got into its first crash last year as it was slowly merging onto a highway.
The algorithm they have developed gives people scores for the qualities cooperative, altruistic, or egoistic based on how much the driver demonstrates care for themselves versus care for others.
The approach also draws on social psychology and game theory for understanding social situations among competing players.
For example, in the case of a car merging into a lane, the two outcomes are to let somebody merge – cooperative – or not – egotistical. The researchers found that cars trying to merge into lanes behave more competitively than those already in the lane.
The system was also trained to understand when it’s appropriate for a self-driving car to display more assertive behavior, such as when making a lane change in heavy traffic.
The MIT researchers say the system is not ready for real roads yet. However, they’ll soon start exploring how their model works for pedestrians, bicycles and other road users. They also intend to use social value orientation to assist decision-decision-making in household robots.
They argue that the system could also be helpful for human drivers, providing a second set of eyes that could detect an aggressive driver in a blind spot. The system could give an alert in the rear-view mirror, allowing the driver to adjust their driving patterns.