@inproceedings { mavrogiannis19, abstract = {State-of-the-art social robot navigation algorithms often lack a thorough experimental validation in human environments: simulated evaluations are often conducted under unrealistically strong assumptions that prohibit deployment in real world environments; experimental demonstrations that are limited in sample size do not provide adequate evidence regarding the user experience and the robot behavior; field studies may suffer from the noise imposed by uncontrollable factors from the environment; controlled lab experiments often fail to properly enforce challenging interaction settings. This paper contributes a first step towards addressing the outlined gaps in the literature. We present an original experiment, designed to test the implicit interaction between a mobile robot and a group of navigating human participants, under challenging settings in a controlled lab environment. We conducted a large-scale, within-subjects design study with 105 participants, exposed to three different conditions, corresponding to three distinct navigation strategies, executed by a telepresence robot (two autonomous, one teleoperated). We analyzed observed human and robot trajectories, under close interaction settings and participants’ impressions regarding the robot's behavior. Key findings, extracted from a comparative statistical analysis include: (1) evidence that human acceleration is lower when navigating around an autonomous robot compared to a teleoperated one; (2) the lack of evidence to support the conventional expectation that teleoperation would be humans' preferred strategy. To the best of our knowledge, our study is unique in terms of goals, settings, thoroughness of evaluation and sample size.}, booktitle = {2019 14th ACM/IEEE International Conference on Human-Robot Interaction (HRI)}, keywords = {Social Robotic Companions;}, month = {March}, pages = {421--430}, publisher = {ACM/IEEE}, title = {Effects of Distinct Robot Navigation Strategies on Human Behavior in a Crowded Environment}, year = {2019}, author = {Christoforos Mavrogiannis and Alena M Hutchinson and John Macdonald and Patrícia Alves-Oliveira and Ross A Knepper} }