Abstract
While traffic signals, signs, and road markings provide explicit guidelines for those operating in and around the roadways, some decisions, such as determinations of “who will go first,” are made by implicit negotiations between road users. In such situations, pedestrians are today often dependent on cues in drivers’ behavior such as eye contact, postures, and gestures. With the introduction of more automated functions and the transfer of control from the driver to the vehicle, pedestrians cannot rely on such non-verbal cues anymore. To study how the interaction between pedestrians and automated vehicles (AVs) might look like in the future, and how this might be affected if AVs were to communicate their intent to pedestrians, we designed an external vehicle interface called automated vehicle interaction principle (AVIP) that communicates vehicles’ mode and intent to pedestrians. The interaction was explored in two experiments using a Wizard of Oz approach to simulate automated driving. The first experiment was carried out at a zebra crossing and involved nine pedestrians. While it focused mainly on assessing the usability of the interface, it also revealed initial indications related to pedestrians’ emotions and perceived safety when encountering an AV with/without the interface. The second experiment was carried out in a parking lot and involved 24 pedestrians, which enabled a more detailed assessment of pedestrians’ perceived safety when encountering an AV, both with and without the interface. For comparison purposes, these pedestrians also encountered a conventional vehicle. After a short training course, the interface was deemed easy for the pedestrians to interpret. The pedestrians stated that they felt significantly less safe when they encountered the AV without the interface, compared to the conventional vehicle and the AV with the interface. This suggests that the interface could contribute to a positive experience and improved perceived safety in pedestrian encounters with AVs – something that might be important for general acceptance of AVs. As such, this topic should be further investigated in future studies involving a larger sample and more dynamic conditions.
Highlights
The latest technological advancements in the road vehicle domain suggest that vehicles having advanced robotic characteristics will become an integral part of our future transportation system (Anderson et al, 2014)
The Wizard of Oz (WOZ) approach was successful in making all pedestrians involved in the experiment (N = 9) believe that they were experiencing an automated vehicles (AVs)
All pedestrians (N = 24) believed that they were interacting with an AV
Summary
The latest technological advancements in the road vehicle domain suggest that vehicles having advanced robotic characteristics will become an integral part of our future transportation system (Anderson et al, 2014). Advanced driver support systems such as adaptive cruise control (ACC), automatic emergency braking (AEB), and pedestrian safety are already on the market, while automated driving systems that assume either partial or full authority from vehicle drivers are under development. Such vehicles are expected to bring many benefits to society, including improved safety, reduced congestion, lower levels of emissions, higher productivity, and greater mobility. To facilitate these benefits and ensure large-scale introduction, there are some challenges that must be overcome. Expectations and feelings of safety or insecurity affect the way the interactions develop (Zhou et al, 2009; Malmsten Lundgren et al, 2017; Sucha et al, 2017)
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