Intelligent Geomagnetic Indoor Positioning System

Kuo, Yen-Hui; Wu, Eric Hsiao-Kuang

doi:10.3390/electronics12102227

Cited by 3 publications

(1 citation statement)

References 30 publications

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“…Recently, studies on Wi-FI have been optimizing line of sight (LOS) and non-line of sight (NLOS) [ 22 , 23 ] approaches, including combination with vision [ 24 ] for localization. Furthermore, sensors such as IMU [ 25 ] and Geomagnetism [ 26 ] are integrated in movement and positioning. However, considering restrictive data collection in caregiving activities, beacons are preferred in nursing homes with straightforward installation and lesser complexity imposed on participants [ 3 , 27 ].…”

Section: Introductionmentioning

confidence: 99%

Relabeling for Indoor Localization Using Stationary Beacons in Nursing Care Facilities

Garcia,

Inoue

2024

Sensors

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In this study, we propose an augmentation method for machine learning based on relabeling data in caregiving and nursing staff indoor localization with Bluetooth Low Energy (BLE) technology. Indoor localization is used to monitor staff-to-patient assistance in caregiving and to gain insights into workload management. However, improving accuracy is challenging when there is a limited amount of data available for training. In this paper, we propose a data augmentation method to reuse the Received Signal Strength (RSS) from different beacons by relabeling to the locations with less samples, resolving data imbalance. Standard deviation and Kullback–Leibler divergence between minority and majority classes are used to measure signal pattern to find matching beacons to relabel. By matching beacons between classes, two variations of relabeling are implemented, specifically full and partial matching. The performance is evaluated using the real-world dataset we collected for five days in a nursing care facility installed with 25 BLE beacons. A Random Forest model is utilized for location recognition, and performance is compared using the weighted F1-score to account for class imbalance. By increasing the beacon data with our proposed relabeling method for data augmentation, we achieve a higher minority class F1-score compared to augmentation with Random Sampling, Synthetic Minority Oversampling Technique (SMOTE) and Adaptive Synthetic Sampling (ADASYN). Our proposed method utilizes collected beacon data by leveraging majority class samples. Full matching demonstrated a 6 to 8% improvement from the original baseline overall weighted F1-score.

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Section: Introductionmentioning

confidence: 99%

Relabeling for Indoor Localization Using Stationary Beacons in Nursing Care Facilities

Garcia,

Inoue

2024

Sensors

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The application of YOLOv7 in the detection and positioning of vehicles in the digital workshop

Wang,

Gao,

Chen

et al. 2024

2024 5th International Conference on Computer Vision, Image and Deep Learning (CVIDL)

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Relabeling for Indoor Localization Using Stationary Beacons in Nursing Care Facilities

Garcia,

Inoue

2023

Preprint

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In this study, we propose an augmentation method for machine learning based on relabeling data in caregiving and nursing staff indoor localization with Bluetooth Low Energy (BLE) technology. Indoor localization is used to monitor staff to patient assistance in caregiving and to gain insights into workload management. However, improving accuracy is challenging when there is a limited amount of sensor data available for training. In this paper, we propose a data augmentation method to reuse the Received Signal Strength (RSS) from different sensors by relabeling to the sensors with less samples resolving data imbalance. Standard deviation and Kullback-Leibler divergence between minority and majority class are used to measure signal pattern to find matching sensors to relabel. By matching sensors between classes, two variation of relabeling are implemented specifically full and partial matching. The performance is evaluated using real world dataset we collected for five days in a nursing care facility installed with 25 BLE beacons. Random Forest model is utilized for location recognition, and performance is compared using the weighted F1-score to account for class imbalance. By increasing the sensor data with our proposed relabeling method for data augmentation, we achieved higher minority class F1-score as compared to augmentation with Random Sampling, Synthetic Minority Oversampling Technique (SMOTE) and Adaptive Synthetic Sampling (ADASYN). Our proposed method utilizes collected sensor data by leveraging majority class samples. Full matching demonstrated a 6 to 8% improvement from the original baseline overall weighted F1-score.

show abstract

Intelligent Geomagnetic Indoor Positioning System

Cited by 3 publications

References 30 publications

Relabeling for Indoor Localization Using Stationary Beacons in Nursing Care Facilities

Relabeling for Indoor Localization Using Stationary Beacons in Nursing Care Facilities

The application of YOLOv7 in the detection and positioning of vehicles in the digital workshop

Relabeling for Indoor Localization Using Stationary Beacons in Nursing Care Facilities

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