Abstract
People’s impression of their own “sense-of-direction” (SOD) is related to their ability to effectively find their way through environments, such as neighborhoods and cities, but is also related to the speed and accuracy with which they learn new environments. In the current literature, it is unclear whether the cognitive skills underlying SOD require intentional cognitive effort to produce accurate knowledge of a new environment. The cognitive skills underlying SOD could exert their influence automatically—without conscious intention—or they might need to be intentionally and effortfully applied. Determining the intentionality of acquiring environmental spatial knowledge would shed light on whether individuals with a poor SOD can be trained to use the skill set of an individual with good SOD, thereby improving their wayfinding and spatial learning. Therefore, this research investigates the accuracy of spatial knowledge acquisition during a walk through a previously unfamiliar neighborhood by individuals with differing levels of self-assessed SOD, as a function of whether their spatial learning was intentional or incidental. After walking a route through the neighborhood, participants completed landmark, route, and survey knowledge tasks. SOD was related to the accuracy of acquired spatial knowledge, as has been found previously. However, learning intentionality did not affect spatial knowledge acquisition, neither as a main effect nor in interaction with SOD. This research reveals that while the accuracy of spatial knowledge acquired via direct travel through an environment is validly measured by self-reported SOD, the spatial skills behind a good SOD appear to operate with or without intentional application.
Highlights
The ability to learn spatial properties of novel environments is an important aspect of our everyday lives—whether learning a new city you moved to or navigating through an unfamiliar airport
This results in two groups in which very similar participants are separated into different categories. This can be especially problematic in skewed distributions, such as we find with SOD scores (Fig. 1)
Multivariate analysis of variance (MANOVA) Given that we preselected participants based on their SOD scores and grouped them by SOD, we modeled SOD as a discrete variable
Summary
The ability to learn spatial properties of novel environments is an important aspect of our everyday lives—whether learning a new city you moved to or navigating through an unfamiliar airport. Spatial knowledge acquisition includes learning both metric and nonmetric spatial properties of environments; metric properties include quantitative distances and directions and nonmetric properties include sequence and connectivity. These spatial properties include the identities and locations of landmarks, the turns in a route, and the distances and directions between places (Goldin & Thorndyke, 1982; Thorndyke & Hayes-Roth, 1982). We examine how the individual-difference trait of “sense-of-direction” (SOD) expresses itself when people directly learn spatial properties of a new neighborhood. We examine this relationship as a function of whether people receive intentional or incidental instructions to learn the spatial properties
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