Human-Centered Design for Connected Automation: Predicting Pedestrian Crossing Intentions

Road traffic remains a leading cause of death worldwide, with pedestrians and other vulnerable road users accounting for over half of the 1.19 million annual fatalities, much of it due to human error. Level-5 automated driving systems (ADSs), capable of full self-driving without human oversight, have the potential to reduce these incidents. However, their effectiveness depends not only on automation performance but also on their ability to communicate intent and coordinate safely with pedestrians in the absence of traditional driver cues. Understanding how pedestrians interpret and respond to ADS behavior is therefore critical to the development of connected vehicle systems. This study extends the Theory of Planned Behavior (TPB) by incorporating four external factors (i.e. safety, trust, compatibility, and understanding) to model pedestrian decision-making in road-crossing scenarios involving level-5 ADSs. Using data from an online survey (n = 212), results show that perceived behavioral control, attitude, and social information significantly predict pedestrians' crossing intentions. External factors, particularly perceived safety and understanding, strongly influence these constructs. Findings provide actionable insights for designing external human-machine interfaces (eHMIs) and cooperative V2X communication strategies that support safe, transparent interactions between automated vehicles and pedestrians. This work contributes to the development of inclusive, human-centered connected mobility systems.