Paper Info
Title
An evaluation method of channel state information fingerprinting for single gateway indoor localization
Abstract
The proliferation of location-based services highlights the need to develop an accurate indoor localization solution. The global navigation satellite system does not deliver good accuracy indoors because of weak signal. One solution is to piggyback Wi-Fi technology, which is widespread in offices and domestic environments. This wireless communication has a promising future, with the possibility to estimate locations with a single gateway by combining channel state information with fingerprinting. However, the existing solutions are often limited to a specific setup and are hard to replicate in other situations. Furthermore, channel state information consists of complex data, which hampers the learning phase of machine learning techniques. This paper assesses the performances of unsupervised data complexity reduction methods by considering different data collection scenarios with multiple antenna elements at the anchor gateway. The study puts forward an evaluation method based on five heuristic scores to guide the design of future fingerprinting solutions based on channel state information. This has been extended to several spatial distributions of training locations, and we show that the kernel entropy component analysis is more suitable for implementation than the principal component analysis, the factor analysis, the independent component analysis and the kernel principal component analysis.
Year
DOI
Venue
2020
10.1016/j.jnca.2020.102591
Journal of Network and Computer Applications
Keywords
DocType
Volume
Performance assessment,CSI Fingerprinting,Indoor localization,Single gateway,Unsupervised data complexity reduction,SIMO,Data collection scenarios
Journal
159
ISSN
Citations 
PageRank 
1084-8045
1
0.36
References 
Authors
0
4
Name
Order
Citations
PageRank
Brieuc Berruet131.43
Oumaya Baala25911.09
Alexandre Caminada310723.61
Valery Guillet442.13