Sheyang Tang scite author profile

Recent years have witnessed the rapid proliferation of low-power backscatter technologies that realize the ubiquitous and long-term connectivity to empower smart cities and smart homes. Localizing such low-power backscatter tags is crucial for IoT-based smart services. However, current backscatter localization systems require prior knowledge of the site, either a map or landmarks with known positions, increasing the deployment cost. To empower universal localization service, this paper presents Rover, an indoor localization system that simultaneously localizes multiple backscatter tags with zero start-up cost using a robot equipped with inertial sensors. Rover runs in a joint optimization framework, fusing WiFi-based positioning measurements with inertial measurements to simultaneously estimate the locations of both the robot and the connected tags. Our design addresses practical issues such as the interference among multiple tags and the real-time processing for solving the SLAM problem. We prototype Rover using off-the-shelf WiFi chips and customized backscatter tags. Our experiments show that Rover achieves localization accuracies of 39.3 cm for the robot and 74.6 cm for the tags.

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Probeable DARTS with Application to Computational Pathology

Tang¹,

Hosseini

Chen

et al. 2021

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WiSion: Bolstering MAV 3D Indoor State Estimation by Embracing Multipath of WiFi

Xiao

Zhang

Tang

et al. 2023

IEEE Trans. Veh. Technol.

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Robot-assisted Backscatter Localization for IoT Applications

Zhang¹,

Wang²,

Tang³

et al. 2020

Preprint

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Recent years have witnessed the rapid proliferation of backscatter technologies that realize the ubiquitous and longterm connectivity to empower smart cities and smart homes. Localizing such backscatter tags is crucial for IoT-based smart applications. However, current backscatter localization systems require prior knowledge of the site, either a map or landmarks with known positions, which is laborious for deployment. To empower universal localization service, this paper presents Rover, an indoor localization system that localizes multiple backscatter tags without any start-up cost using a robot equipped with inertial sensors. Rover runs in a joint optimization framework, fusing measurements from backscattered WiFi signals and inertial sensors to simultaneously estimate the locations of both the robot and the connected tags. Our design addresses practical issues including interference among multiple tags, real-time processing, as well as the data marginalization problem in dealing with degenerated motions. We prototype Rover using off-the-shelf WiFi chips and customized backscatter tags. Our experiments show that Rover achieves localization accuracies of 39.3 cm for the robot and 74.6 cm for the tags.

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Sheyang Tang

Robot-Assisted Backscatter Localization for IoT Applications

Localizing Backscatters by a Single Robot with Zero Start-Up Cost

Probeable DARTS with Application to Computational Pathology

WiSion: Bolstering MAV 3D Indoor State Estimation by Embracing Multipath of WiFi

Robot-assisted Backscatter Localization for IoT Applications

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