WalkieLokie: Relative Positioning for Augmented Reality Using a Dummy Acoustic Speaker

PubDate: Aug 2015

Teams: University of Science and Technology of China；, Tsinghua University

Writers: Wenchao Huang, Yan Xiong, Xiang-Yang Li, Yiqing Hu, Xufei Mao, Panlong Yang

PDF: WalkieLokie: Relative Positioning for Augmented Reality Using a Dummy Acoustic Speaker

Abstract

We propose and implement a novel relative positioning system, WalkieLokie, to enable more kinds of Augmented Reality applications, e.g., virtual shopping guide, virtual business card sharing. WalkieLokie calculates the distance and direction between an inquiring user and the corresponding target. It only requires a dummy speaker binding to the target and broadcasting inaudible acoustic signals. Then the user walking around can obtain the position using a smart device. The key insight is that when a user walks, the distance between the smart device and the speaker changes; and the pattern of displacement (variance of distance) corresponds to the relative position. We use a second-order phase locked loop to track the displacement and further estimate the position. To enhance the accuracy and robustness of our strategy, we propose a synchronization mechanism to synthesize all estimation results from different timeslots. We show that the mean error of ranging and direction estimation is 0.63m and 2.46 degrees respectively, which is accurate even in case of virtual business card sharing. Furthermore, in the shopping mall where the environment is quite severe, we still achieve high accuracy of positioning one dummy speaker, and the mean position error is 1.28m.