How new models help self-driving cars drive like us

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Models of highway interactions and the aspects of interaction they describe in a merging scenario. Credit: PNAS Nexus (2024). DOI: 10.1093/pnasnexus/pgae420

Scientists at TU Delft have developed a new model that better describes human behavior when merging into motorway traffic. Current models often assume that drivers are constantly trying to optimize their behavior to reach their destination as quickly and safely as possible, but this is not always the case, says postdoctoral researcher Olger Siebinga. The new model gives more insight into human interactions on the motorway and can be used to improve autonomous cars.

The findings are published in the journal PNAS Nexus.

For many drivers, merging onto a motorway is a routine act, with little thought given to the many factors involved. But it is only when you try to simulate this behavior in a computer model that you realize how complex merging actually is.

“Current models are based on game theory, which assumes that people always try to behave optimally in order to emerge as ‘winners’. But in reality, people act differently in most situations,” explains Siebinga, who earned a Ph.D. with distinction on this topic in May. He discovered that drivers do not necessarily want to be first, but rather prioritize a common goal: avoiding a collision.

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Simplified merging scenario

Siebinga, together with professor David Abbink and assistant professor Arkady Zgonnikov, presents a new interaction model based on risk perception and communication. It is the first model to explain human interactions at multiple levels: from control inputs, such as how people accelerate, to the safety margins drivers maintain in terms of distance from other cars, to the final decisions about who goes first. This makes the model much more useful for applications such as autonomous vehicles.

The framework for this model came from an earlier experiment in which Siebinga had two subjects participate simultaneously in a simplified merging scenario. They could only accelerate or brake and were separated by a wall, so they could only base their behavior on what they saw on a computer screen.

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“We saw that people adjust their plans based on communication and risk perception. They build up a picture of the situation by interpreting another car’s speed as communication, and they estimate a risk based on that. If this perceived risk becomes too high, drivers change their behavior, for example by accelerating or braking, to achieve a safe outcome.”

Understanding human behavior

Modeling gives us a better understanding of human behavior.

“If we learn to better understand what underlies our decisions, we can design better systems and enable autonomous vehicles to operate in a way that we perceive to be socially acceptable,” says Siebinga.

Indeed, this is one of the biggest challenges in automated driving: How do we ensure that normal drivers understand and trust self-driving cars? Siebinga’s new model helps to lay the groundwork for safe and accepted autonomous vehicles. He is currently working on extending this model to include steering.

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More information:
Olger Siebinga et al, A model of dyadic merging interactions explains human drivers’ behavior from control inputs to decisions, PNAS Nexus (2024). DOI: 10.1093/pnasnexus/pgae420

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Delft University of Technology


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Human merge unveiled: How new models help self-driving cars drive like us (2024, November 5)
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