Tappigraphy: continuous ambulatory assessment and analysis of in-situ map app use behaviour

While map apps on smartphones are abundant, their everyday usage is still an open empirical research question. With tappigraphy – the quantification of smartphone touchscreen interactions – we aimed to capture continuous data stream of behavioural human-map app usage patterns. The current study introduces a first tappigraphy analysis of the distribution of touchscreen interactions on map apps in 211 remotely observed smartphone users, accumulating a total of 42 days of tap data. We detail the requirements, setup, and data collection to understand how much, when, for how long, and how people use mobile map apps in their daily lives. Supporting prior research, we find that on average map apps are only sparsely used, compared to other apps. The longitudinal fluctuations in map use are not random and are partly governed by general daily and weekly human behaviour cycles. Smartphone session duration including map app use can be clearly distinguished from sessions without any map apps used, indicating a distinct temporal behavioural footprint surrounding map use. With the transfer of the tappigraphy approach to a mobile map app use context, we see a promising avenue to provide research communities interested in the underlying behavioural mechanisms of map use a continuous, in-situ momentary assessment method

Limiting the reliance on navigation assistance with navigation instructions containing emotionally salient narratives for confident wayfinding

We live in a world that is increasingly dependent on technology, including for orientation in both familiar and unfamiliar space, which contributes to a long-term erosion of innate spatial navigation skills. In this study, we examined whether modified navigation instructions can make pedestrians less reliant on navigation aids to solve wayfinding tasks. In contrast to standard instructions, the modified instructions make decision-relevant landmarks at intersections emotionally salient and connected through narrative, and thus more memorable. The results of our online VR study with seventy adults revealed that, after navigating an unfamiliar route using modified navigation instructions, people made significantly fewer references to the navigation aid without compromising the accuracy of navigation compared to standard instructions. Narrative-based navigation instructions improved memory for the order in which relevant features in the environment were encountered along the traversed route, but not landmark recognition memory or memory for landmark-direction associations. Our findings highlight the benefits of using human-centred technologies that – as opposed to current navigation systems – promote the encoding and memorability of spatial information during navigation, and have the potential to train human spatial navigation abilities in the long term as a countermeasure toward GPS cognitive deskilling of population

Fixation-related potentials during mobile map assisted navigation in the real world: The effect of landmark visualization style

An often-proposed enhancement for mobile maps to aid assisted navigation is the presentation of landmark information, yet understanding of the manner in which they should be displayed is limited. In this study, we investigated whether the visualization of landmarks as 3D map symbols with either an abstract or realistic style influenced the subsequent processing of those landmarks during route navigation. We utilized a real-world mobile electroencephalography approach to this question by combining several tools developed to overcome the challenges typically encountered in real-world neuroscience research. We coregistered eye-movement and EEG recordings from 45 participants as they navigated through a real-world environment using a mobile map. Analyses of fixation event-related potentials revealed that the amplitude of the parietal P200 component was enhanced when participants fixated landmarks in the real world that were visualized on the mobile map in a realistic style, and that frontal P200 latencies were prolonged for landmarks depicted in either a realistic or abstract style compared with features of the environment that were not presented on the map, but only for the male participants. In contrast, we did not observe any significant effects of landmark visualization style on visual P1-N1 peaks or the parietal late positive component. Overall, the findings indicate that the cognitive matching process between landmarks seen in the environment and those previously seen on a map is facilitated by more realistic map display, while low-level perceptual processing of landmarks and recall of associated information are unaffected by map visualization style