Litcius/Paper detail

Simulating Wearable Urban Augmented Reality Experiences in VR: Lessons Learnt from Designing Two Future Urban Interfaces

Tram Thi Minh Tran, Callum Parker, Marius Hoggenmüller, Luke Hespanhol, Martin Tomitsch

2023Multimodal Technologies and Interaction25 citationsDOIOpen Access PDF

Abstract

Augmented reality (AR) has the potential to fundamentally change how people engage with increasingly interactive urban environments. However, many challenges exist in designing and evaluating these new urban AR experiences, such as technical constraints and safety concerns associated with outdoor AR. We contribute to this domain by assessing the use of virtual reality (VR) for simulating wearable urban AR experiences, allowing participants to interact with future AR interfaces in a realistic, safe and controlled setting. This paper describes two wearable urban AR applications (pedestrian navigation and autonomous mobility) simulated in VR. Based on a thematic analysis of interview data collected across the two studies, we find that the VR simulation successfully elicited feedback on the functional benefits of AR concepts and the potential impact of urban contextual factors, such as safety concerns, attentional capacity, and social considerations. At the same time, we highlight the limitations of this approach in terms of assessing the AR interface’s visual quality and providing exhaustive contextual information. The paper concludes with recommendations for simulating wearable urban AR experiences in VR.

Topics & Concepts

Augmented realityWearable computerHuman–computer interactionComputer scienceVirtual realityPedestrianThematic analysisDomain (mathematical analysis)Interface (matter)EngineeringTransport engineeringBubbleMathematicsEmbedded systemParallel computingSociologyMaximum bubble pressure methodQualitative researchSocial scienceMathematical analysisVirtual Reality Applications and ImpactsAugmented Reality ApplicationsSpatial Cognition and Navigation