Remote Sensing | Wu B, Ma C, Poslad S, Selviah DR | Pedestrian dead reckoning (PDR), enabled by smartphones’ embedded inertial sensors, is widely applied as a type of indoor positioning system (IPS).
An Adaptive Human Activity-Aided Hand-Held Smartphone-Based Pedestrian Dead Reckoning Positioning System
Abstract
Pedestrian dead reckoning (PDR), enabled by smartphones’ embedded inertial sensors, is widely applied as a type of indoor positioning system (IPS). However, traditional PDR faces two challenges to improve its accuracy: lack of robustness for different PDR-related human activities and positioning error accumulation over elapsed time. To cope with these issues, we propose a novel adaptive human activity-aided PDR (HAA-PDR) IPS that consists of two main parts, human activity recognition (HAR) and PDR optimization. (1) For HAR, eight different locomotion-related activities are divided into two classes: steady-heading activities (ascending/descending stairs, stationary, normal walking, stationary stepping, and lateral walking) and non-steady-heading activities (door opening and turning).
A hierarchical combination of a support vector machine (SVM) and decision tree (DT) is used to recognize steady-heading activities. An autoencoder-based deep neural network (DNN) and a heading range-based method to recognize door opening and turning, respectively. The overall HAR accuracy is over 98.44%. (2) For optimization methods, a process automatically sets the parameters of the PDR differently for different activities to enhance step counting and step length estimation.
Furthermore, a method of trajectory optimization mitigates PDR error accumulation utilizing the non-steady-heading activities. We divided the trajectory into small segments and reconstructed it after targeted optimization of each segment. Our method does not use any a priori knowledge of the building layout, plan, or map. Finally, the mean positioning error of our HAA-PDR in a multilevel building is 1.79 m, which is a significant improvement in accuracy compared with a baseline state-of-the-art PDR system.
Publication Type: | Journal Article |
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Publication Sub Type: | Article |
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Authors: | Wu B, Ma C, Poslad S, Selviah DR |
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Publisher: | Molecular Diversity Preservation International - MDPI Open Access Journals |
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Publication date: | 01/06/2021 |
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Journal: | Remote Sensing |
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Volume: | 13 |
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Article number: | ARTN 2137 |
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Issue: | 11 |
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Status: | Published |
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Keywords: | Science & Technology, Life Sciences & Biomedicine, Physical Sciences, Technology, Environmental Sciences, Geosciences, Multidisciplinary, Remote Sensing, Imaging Science & Photographic Technology, Environmental Sciences & Ecology, Geology, indoor positioning system, PDR, human activity recognition, machine learning, localization, data fusion, trajectory optimization, parameter optimization, autoencoder neural network, phone pose, movement state, RECOGNITION, ROBUST, ALGORITHM |
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Author URL: | http://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcApp... |
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DOI: | http://dx.doi.org/10.3390/rs13112137 |
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Full Text URL: | https://discovery.ucl.ac.uk/id/eprint/10128886/ |
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