Abstract
Telepresence robots allow users to be spatially and socially present in remote environments. Yet, it can be challenging to remotely operate telepresence robots, especially in dense environments such as academic conferences or workplaces. In this paper, we primarily focus on the effect that a speed control method, which automatically slows the telepresence robot down when getting closer to obstacles, has on user behaviors. In our first user study, participants drove the robot through a static obstacle course with narrow sections. Results indicate that the automatic speed control method significantly decreases the number of collisions. For the second study we designed a more naturalistic, conference-like experimental environment with tasks that require social interaction, and collected subjective responses from the participants when they were asked to navigate through the environment. While about half of the participants preferred automatic speed control because it allowed for smoother and safer navigation, others did not want to be influenced by an automatic mechanism. Overall, the results suggest that automatic speed control simplifies the user interface for telepresence robots in static dense environments, but should be considered as optionally available, especially in situations involving social interactions.
Highlights
Telepresence robots (TRs) are designed to allow a remote user to have a mobile presence in a remote physical space
This might be related to the overall low number of collisions in study 2, likely a consequence of the more open areas compared to the environment in Study 1
We assessed an automatic speed control method designed for telepresence robot navigation in dense environments
Summary
Telepresence robots (TRs) are designed to allow a remote user to have a mobile presence in a remote physical space. TRs have been used and tested in various scenarios, including, but not limited to, working in remote office settings [1,2,3,4,5], schooling for home-bound children [6, 7] and shopping [8]. All of these studies have shown that TRs can increase social presence in remote environments [5, 8, 9]. Navigation challenges can arise due to the limited field of view of the TR’s camera [1], the limited resolution of the Telepresence robot navigation in dense environment
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