Your search keyword '"ePDR-BLE compensation mechanism (EPBCM)"' showing total 3 results

1. Enhanced PDR-BLE Compensation Mechanism Based on HMM and AWCLA for Improving Indoor Localization

Author

Harun Jamil, Faiza Qayyum, Faisal Jamil, and Do-Hyeun Kim

Subjects

ePDR-BLE compensation mechanism (EPBCM), unscented Kalman filter (UKF), Kalman filter (KF), received signal strength indicator (RSSI), hidden Markov model (HMM), Bluetooth low energy (BLE), Chemical technology, TP1-1185

Abstract

This paper presents an enhanced PDR-BLE compensation mechanism for improving indoor localization, which is considerably resilient against variant uncertainties. The proposed method of ePDR-BLE compensation mechanism (EPBCM) takes advantage of the non-requirement of linearization of the system around its current state in an unscented Kalman filter (UKF) and Kalman filter (KF) in smoothing of received signal strength indicator (RSSI) values. In this paper, a fusion of conflicting information and the activity detection approach of an object in an indoor environment contemplates varying magnitude of accelerometer values based on the hidden Markov model (HMM). On the estimated orientation, the proposed approach remunerates the inadvertent body acceleration and magnetic distortion sensor data. Moreover, EPBCM can precisely calculate the velocity and position by reducing the position drift, which gives rise to a fault in zero-velocity and heading error. The developed EPBCM localization algorithm using Bluetooth low energy beacons (BLE) was applied and analyzed in an indoor environment. The experiments conducted in an indoor scenario shows the results of various activities performed by the object and achieves better orientation estimation, zero velocity measurements, and high position accuracy than other methods in the literature.

Published

2021

2. Enhanced PDR-BLE Compensation Mechanism Based on HMM and AWCLA for Improving Indoor Localization

Author

Faiza Qayyum, Do-Hyeun Kim, Faisal Jamil, and Harun Jamil

Subjects

unscented Kalman filter (UKF), received signal strength indicator (RSSI), Computer science, Chemical technology, Kalman filter, TP1-1185, hidden Markov model (HMM), Accelerometer, Biochemistry, ePDR-BLE compensation mechanism (EPBCM), Article, Atomic and Molecular Physics, and Optics, Analytical Chemistry, Compensation (engineering), Bluetooth low energy (BLE), Acceleration, Linearization, Control theory, Kalman filter (KF), Distortion, Electrical and Electronic Engineering, Hidden Markov model, Instrumentation, Smoothing

Abstract

This paper presents an enhanced PDR-BLE compensation mechanism for improving indoor localization, which is considerably resilient against variant uncertainties. The proposed method of ePDR-BLE compensation mechanism (EPBCM) takes advantage of the non-requirement of linearization of the system around its current state in an unscented Kalman filter (UKF) and Kalman filter (KF) in smoothing of received signal strength indicator (RSSI) values. In this paper, a fusion of conflicting information and the activity detection approach of an object in an indoor environment contemplates varying magnitude of accelerometer values based on the hidden Markov model (HMM). On the estimated orientation, the proposed approach remunerates the inadvertent body acceleration and magnetic distortion sensor data. Moreover, EPBCM can precisely calculate the velocity and position by reducing the position drift, which gives rise to a fault in zero-velocity and heading error. The developed EPBCM localization algorithm using Bluetooth low energy beacons (BLE) was applied and analyzed in an indoor environment. The experiments conducted in an indoor scenario shows the results of various activities performed by the object and achieves better orientation estimation, zero velocity measurements, and high position accuracy than other methods in the literature.

Published

2021

3. Enhanced PDR-BLE Compensation Mechanism Based on HMM and AWCLA for Improving Indoor Localization.

Author

Jamil, Harun, Qayyum, Faiza, Jamil, Faisal, and Kim, Do-Hyeun

Subjects

*HIDDEN Markov models, *LOCALIZATION (Mathematics), *KALMAN filtering, *OBJECT recognition (Computer vision), *MAGNETIC sensors, *ALGORITHMS

Abstract

This paper presents an enhanced PDR-BLE compensation mechanism for improving indoor localization, which is considerably resilient against variant uncertainties. The proposed method of ePDR-BLE compensation mechanism (EPBCM) takes advantage of the non-requirement of linearization of the system around its current state in an unscented Kalman filter (UKF) and Kalman filter (KF) in smoothing of received signal strength indicator (RSSI) values. In this paper, a fusion of conflicting information and the activity detection approach of an object in an indoor environment contemplates varying magnitude of accelerometer values based on the hidden Markov model (HMM). On the estimated orientation, the proposed approach remunerates the inadvertent body acceleration and magnetic distortion sensor data. Moreover, EPBCM can precisely calculate the velocity and position by reducing the position drift, which gives rise to a fault in zero-velocity and heading error. The developed EPBCM localization algorithm using Bluetooth low energy beacons (BLE) was applied and analyzed in an indoor environment. The experiments conducted in an indoor scenario shows the results of various activities performed by the object and achieves better orientation estimation, zero velocity measurements, and high position accuracy than other methods in the literature. [ABSTRACT FROM AUTHOR]

Published

2021