TY - GEN
T1 - UNIQC: Unified I/Q Correction with Quality-Scored Filtering for BLE-Enabled Application Traceability for Industry 4.0 Applications
AU - Huang, Yijia
AU - Lam, Hin Sang
AU - Zhao, Zhiheng
AU - Huang, George Q.
N1 - Publisher Copyright:
© 2025 IEEE.
PY - 2025/8
Y1 - 2025/8
N2 - Industry 4.0 has catalyzed resource allocation, merging high-precision traceability to streamline production and minimize wastage. Within the industrial context, real-time tracking assets enhances operational efficiency and diminishes energy expenditure by alleviating logistical inefficiencies. Although Global Positioning System demonstrates robustness for outdoor localization, indoor positioning systems (IPS) frequently exhibit suboptimal performance. The advent of Bluetooth Low Energy (BLE) v5.1, leveraging angle of arrival (AoA), delivers a cost-efficient, precise framework for traceability in industrial indoor environments. Prevailing research primarily emphasizes on exploiting the collected signals to estimate angles for indoor localization. However, little attention is paid to signal quality, particularly affected by complex industrial environment, which may markedly degrade the positioning performance. Specifically, imbalances between in-phase (I) and quadrature (Q) signal components impair received signal quality, ultimately undermining positioning accuracy. To address this challenge, this article proposes UNIQC for BLE AoA-enabled IPS, incorporating unified I/Q correction with quality-scored filtering to elevate precision and reduce computational load. An onsite experiment validates its efficacy, evidencing enhanced filtering and superior angle estimation for resource traceability in Industry 4.0.
AB - Industry 4.0 has catalyzed resource allocation, merging high-precision traceability to streamline production and minimize wastage. Within the industrial context, real-time tracking assets enhances operational efficiency and diminishes energy expenditure by alleviating logistical inefficiencies. Although Global Positioning System demonstrates robustness for outdoor localization, indoor positioning systems (IPS) frequently exhibit suboptimal performance. The advent of Bluetooth Low Energy (BLE) v5.1, leveraging angle of arrival (AoA), delivers a cost-efficient, precise framework for traceability in industrial indoor environments. Prevailing research primarily emphasizes on exploiting the collected signals to estimate angles for indoor localization. However, little attention is paid to signal quality, particularly affected by complex industrial environment, which may markedly degrade the positioning performance. Specifically, imbalances between in-phase (I) and quadrature (Q) signal components impair received signal quality, ultimately undermining positioning accuracy. To address this challenge, this article proposes UNIQC for BLE AoA-enabled IPS, incorporating unified I/Q correction with quality-scored filtering to elevate precision and reduce computational load. An onsite experiment validates its efficacy, evidencing enhanced filtering and superior angle estimation for resource traceability in Industry 4.0.
UR - https://www.scopus.com/pages/publications/105018313430
U2 - 10.1109/CASE58245.2025.11163923
DO - 10.1109/CASE58245.2025.11163923
M3 - Conference article published in proceeding or book
AN - SCOPUS:105018313430
T3 - IEEE International Conference on Automation Science and Engineering
SP - 2301
EP - 2306
BT - 2025 IEEE 21st International Conference on Automation Science and Engineering, CASE 2025
PB - IEEE Computer Society
T2 - 21st IEEE International Conference on Automation Science and Engineering, CASE 2025
Y2 - 17 August 2025 through 21 August 2025
ER -