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TransAoA: Transformer-Based Angle of Arrival Estimation for BLE Indoor Localization

Wei Wu, Didi Zhou, Leidi Shen, Zhiheng Zhao, Congbo Li, George Q. Huang

2025IEEE Transactions on Instrumentation and Measurement17 citationsDOI

Abstract

Bluetooth low-energy (BLE) technology, characterized by its low-energy consumption, cost-effectiveness, and scalability, has gained prominence as a viable solution for indoor localization within industrial contexts. However, the dynamic nature of industrial environments poses considerable challenges to the accuracy of BLE-based indoor positioning systems (IPSs), particularly those dependent on signal strength for localization. Accordingly, this article proposes a novel method framework TransAoA that leverages the Transformer deep learning architecture to enhance angle of arrival (AoA) estimation for BLE indoor positioning. First, a data filtering method is designed to eliminate low-quality in-phase and quadrature (I/Q) samples affected by noise. Second, a specialized feature extraction method is developed to distill multiple informative features from I/Q samples prior to the prediction model to enable rapid convergence and improve accuracy. Third, the Transformer-based AoA estimation model is constructed to establish a mapping relationship between angles (azimuth and elevation) and the combined I/Q samples and features. Fourth, several BLE anchors collaborate to localize targets using a least squares (LSs) approach, and a self-adjusting calibration mechanism is devised to bolster the long-term robustness and stability of the IPS. Finally, experiments are conducted in a lab that simulates industrial conditions to verify the effectiveness of the framework. By comparison, the TransAoA shows superiority over existing benchmark methods, achieving estimation errors within 5° for 98.85% of azimuth and 99.97% of elevation measurements.

Topics & Concepts

Angle of arrivalTransformerComputer scienceElectronic engineeringElectrical engineeringReal-time computingAcousticsEngineeringVoltageTelecommunicationsPhysicsAntenna (radio)Indoor and Outdoor Localization TechnologiesTarget Tracking and Data Fusion in Sensor NetworksGNSS positioning and interference
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