Service, company and caring robots participate in the human’s daily life more and more frequently. Therefore, the performance of mobility largely affects robot to share the environment with human harmoniously. For different kinds of mobile platforms, omnidirectional ones can be recognized as a trend. However, apart from the discussions in typical navigation problems, few researches address the use of omnidirectional mobility in human-robot interaction (HRI). It seems that the relation between this mobility and interaction is dispensable, or ambiguous. In this thesis, we propose an HRI navigation system focusing on omnidirectional mobility. In contrast to the typical navigation problem, we demonstrate its indispensable features for ``social acceptance". We first observe the human-human interaction in three scenarios in order to extract the omnidirectional movements. Then, we model these behaviors with holonomic motion patterns. Besides, to strengthen the relation between motions and social acceptance, we reason these behaviors with sociological theory. The simulation results verify the constructed motion behaviors. In the conducted experiments, we let the subjects interact with our robot, performing both holonomic and nonholonomic motions. Through the evaluation results and feedback from subjects, the promotion of social acceptance, a goal that HRI keeps striving for, due to omnidirectional mobility is verified.