An efficient clustering with robust outlier mitigation for Wi-Fi fingerprint based indoor positioning

An efficient clustering with robust outlier mitigation for Wi-Fi fingerprint based indoor positioning

Wi-Fi fingerprint systems provide cost-effective and reliable solution for indoor positioning. However, such systems incur high calibration cost in the training phase and high searching overhead in the positioning phase. Moreover, huge storage requirement for the radio map of a large-scale fingerpri...

Full description

Saved in:
Bibliographic Details
Published in:Applied soft computing Vol. 109; p. 107549
Main Authors: Sadhukhan, Pampa, Gain, Supriya, Dahal, Keshav, Chattopadhyay, Samiran, Garain, Nilkantha, Wang, Xinheng
Format: Journal Article
Language:English
Published: Elsevier B.V 01-09-2021
Subjects:
Accuracy
Clustering
Fingerprint
Outlier
Positioning
RSS
Searching overhead
Storage overhead
Outlier
Positioning
Fingerprint
Accuracy
RSS
Searching overhead
Clustering
Storage overhead
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Wi-Fi fingerprint systems provide cost-effective and reliable solution for indoor positioning. However, such systems incur high calibration cost in the training phase and high searching overhead in the positioning phase. Moreover, huge storage requirement for the radio map of a large-scale fingerprint system is another major issue. Several solutions based on crowd-sourcing or machine learning technique have been proposed in literature to reduce the calibration overhead. On the other hand, various clustering methods have been proposed over the past decade to reduce the searching overhead. However, none of the existing systems has addressed the issue of high storage requirement for the fingerprint database constructed in the training phase. Moreover, presence of outlier in the received signal strength (RSS) measurements severely impacts the positioning accuracy of such systems. Thus, this paper proposes an efficient clustering strategy for fingerprint based positioning systems to reduce the storage overhead and searching overhead incurred by such systems and also proposes a robustoutlier mitigation technique to improve their positioning accuracy. The performances of our proposed positioning system are evaluated and compared with five existing fingerprint techniques in both the simulation test bed as well as real indoor environment via extensive experimentation. The experimental results demonstrate that our proposed system can not only reduce the storage overhead and searching overhead but also improve the positioning accuracy compared to the other existing techniques. •Designing an efficient clustering strategy for fingerprint based indoor positioning.•Designing a robust outlier mitigation technique for proposed indoor positioning.•Comparing performances of proposed system with five other positioning systems.•Proposed system reduces storage requirement and positioning time.•Proposed system also improves positioning accuracy.
ISSN:1568-4946
1872-9681
DOI:10.1016/j.asoc.2021.107549