DocumentCode :
3659340
Title :
Robust pedestrian dead reckoning (R-PDR) for arbitrary mobile device placement
Author :
Zhuoling Xiao;Hongkai Wen;Andrew Markham;Niki Trigoni
Author_Institution :
Department of Computer Science, University of Oxford
fYear :
2014
Firstpage :
187
Lastpage :
196
Abstract :
Pedestrian dead reckoning, especially on smart-phones, is likely to play an increasingly important role in indoor tracking and navigation, due to its low cost and ability to work without any additional infrastructure. A challenge however, is that positioning, both in terms of step detection and heading estimation, must be accurate and reliable, even when the use of the device is so varied in terms of placement (e.g. handheld or in a pocket) or orientation (e.g holding the device in either portrait or landscape mode). Furthermore, the placement can vary over time as a user performs different tasks, such as making a call or carrying the device in a bag. A second challenge is to be able to distinguish between a true step and other periodic motion such as swinging an arm or tapping when the placement and orientation of the device is unknown. If this is not done correctly, then the PDR system typically overestimates the number of steps taken, leading to a significant long term error. We present a fresh approach, robust PDR (R-PDR), based on exploiting how bipedal motion impacts acquired sensor waveforms. Rather than attempting to recognize different placements through sensor data, we instead simply determine whether the motion of one or both legs impact the measurements. In addition, we formulate a set of techniques to accurately estimate the device orientation, which allows us to very accurately (typically over 99%) reject false positives. We demonstrate that regardless of device placement, we are able to detect the number of steps taken with >99.4% accuracy. R-PDR thus addresses the two main limitations facing existing PDR techniques.
Keywords :
"Acceleration","Gravity","Legged locomotion","Mobile handsets","Robustness","Indoor navigation","Dead reckoning"
Publisher :
ieee
Conference_Titel :
Indoor Positioning and Indoor Navigation (IPIN), 2014 International Conference on
Type :
conf
DOI :
10.1109/IPIN.2014.7275483
Filename :
7275483
Link To Document :
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