publications

2025

1. Mobicom 2025

   Scalable and Low Power Localization for Underwater Robots

   Sayed Saad Afzal, Jack Rademacher, Weitung Chen, and 2 more authors

   In Proceedings of the 31st Annual International Conference on Mobile Computing and Networking, Kerry Hotel, Hong Kong, Hong Kong, China, 2025

   Abs DOI

   Localization is a critical task for underwater robots, yet today’s underwater localization systems are limited by their accuracy, scalability, and/or energy consumption (i.e., longevity). We present the design, implementation, and evaluation of EchoBLUE- an accurate, scalable, and low-power localization system for underwater robots.In EchoBLUE, an underwater robot transmits SONAR-style (FMCW) signals, and leverages ultra-low power underwater backscatter nodes as location anchors. EchoBLUE’s design introduces two key innovations. The first is a novel doppler compensation mechanism that enables it to accurately self-localize under mobility: the technique employs a cross-chirp mechanism that exploits the quad-band nature of the resulting backscatter response to overcome the range-doppler ambiguity. Second, it introduces the first semi-active retrodirective underwater backscatter design and uses it for location anchors; this design achieves wide bandwidth to backscatter the full FMCW signal, enabling fine-grained localization.We implemented a proof of concept prototype of EchoBLUE by building a base station mounted on a BlueROV2 underwater robot and custom-designed low-power retrodirective location anchors deployed in a pool. Our evaluation across 700 real-world trials demonstrates that EchoBLUE achieves a median 3D localization accuracy of 28 cm and 90th percentile of 48 cm. Moreover, these anchors consume only 740 μW for semi-active backscatter, paving the way for truly low-power and scalable underwater localization.

2. RoboSoft 2025

   Hovering Flight of Soft-Actuated Insect-Scale Micro Aerial Vehicles using Deep Reinforcement Learning (*equal contribution)

   Yi-Hsuan Hsiao^*, Weitung Chen^*, Yun-Sheng Chang^*, and 2 more authors

   In 2025 IEEE 8th International Conference on Soft Robotics (RoboSoft), 2025

   DOI
3. IEEE JRFID 2025

   Ceilbot: A Ceiling-Mounted Robot for Fast and Accurate Localization of Off-the-Shelf RFIDs via Wideband SAR-Based Reinforcement Learning

   Weitung Chen, Tara Boroushaki, Isaac Perper, and 2 more authors

   IEEE Journal of Radio Frequency Identification, 2025

   DOI

2024

1. MobiSys 2024

   Demo: Automated Parking Enforcement with Fine-Grained RF Position Recognition

   Weitung Chen, Tzu Yang Teng, Wen Yung Wu, and 3 more authors

   In Proceedings of the 22nd Annual International Conference on Mobile Systems, Applications and Services, Minato-ku, Tokyo, Japan, 2024

   Abs DOI

   This demo presents SCOPE, an electric scooter equipped with RF sensing and License Plate Recognition (LPR) capabilities to achieve accurate and efficient parking enforcement. SCOPE leverages Ultra High Frequency (UHF) Radio Frequency IDentification (RFID) technology and incorporates the Synthetic Aperture Radar (SAR)-based RFID localization algorithm for precise parking spot recognition. Our demo presents an end-to-end system that combines License Plate Recognition (LPR) and RF-based positioning, achieving 88% accuracy in matching vehicles to their lots and enabling automated parking enforcement in practical environments. Demo Video: youtu.be/EuaiJqOeA5Y. Implementation: [Source Code].

2. IROS 2024

   3D-BLUE: Backscatter Localization for Underwater Robotics

   Sayed Saad Afzal, Weitung Chen, and Fadel Adib

   In 2024 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), 2024

   DOI
3. IEEE RFID 2024

   Reinforcement Learning for RFID Localization

   Weitung Chen, Tara Boroushaki, Isaac Perper, and 1 more author

   In 2024 IEEE International Conference on RFID (RFID), 2024

   DOI

2023

1. SIGCOMM 2023

   Demo: Real-time X-Ray Vision via Augmented Reality with RF Sensing

   Tara Boroushaki, Maisy Lam, Weitung Chen, and 3 more authors

   In Proceedings of the ACM SIGCOMM 2023 Conference, New York, NY, USA, 2023

   Abs DOI

   This demo presents X-AR, an Augmented Reality headset that enables its user to find and retrieve hidden items. X-AR leverages battery-less 3-cent Radio Frequency IDentification (RFID) tags that are already deployed on billions of items. As a user wearing X-AR moves in an environment, the headset transmits RF signals and leverages natural human mobility to locate RFID-tagged items. X-AR then guides the user toward the desired item for retrieval. We built a real-time prototype of this system on a Microsoft Hololens 2 AR headset with a conformal antenna, software radios, and an edge server. Our demo will enable any user to wear our X-AR prototype and use it to find and retrieve hidden items in a warehouse-like setting. Demo Video: youtu.be/bdUN21ft7G0

2. IEEE RFID 2023

   Exploiting Synergies between Augmented Reality and RFIDs for Item Localization and Retrieval

   Tara Boroushaki, Maisy Lam, Weitung Chen, and 3 more authors

   In 2023 IEEE International Conference on RFID (RFID), 2023

   DOI

2017

1. iThings 2017

   Pokeball: A 3D Positioning System Using Magnetism

   Weitung Chen and Ling-Jyh Chen

   In 2017 IEEE International Conference on Internet of Things (iThings) and IEEE Green Computing and Communications (GreenCom) and IEEE Cyber, Physical and Social Computing (CPSCom) and IEEE Smart Data (SmartData), 2017

   DOI

2016

1. MobiSys 2016

   Demo: Magnetic Positioning Sphere - A Single-Source 3D Positioning System using Rotating Magnetic Fields

   Weitung Chen and Ling-Jyh Chen

   In Proceedings of the 14th Annual International Conference on Mobile Systems, Applications, and Services Companion, Singapore, Singapore, 2016

   DOI