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LU, Y. GERASIMENKO, M. KOVALCHUKOV, R. ŠTŮSEK, M. URAMA, J. HOŠEK, J. VALKAMA, M. LOHAN, E.
Original Title
Feasibility of Location-Aware Handover for Autonomous Vehicles in Industrial Multi-Radio Environments
Type
journal article in Web of Science
Language
English
Original Abstract
The integration of millimeter wave (mmWave) and low frequency interfaces brings an unique opportunity to unify the communications and positioning technologies in the future wireless heterogeneous networks (HetNets), which offer great potential for efficient handover using location awareness, hence a location-aware handover (LHO). Targeting a self-organized communication system with autonomous vehicles, we conduct and describe an experimental and analytical study on the LHO using a mmWave-enabled robotic platform in a multi-radio environment. Compared to the conventional received signal strength indicator (RSSI)-based handover, the studied LHO not only improves the achievable throughput, but also enhances the wireless link robustness for the industrial Internet-of-things (IIoT)-oriented applications. In terms of acquiring location awareness, a geometry-based positioning (GBP) algorithm is proposed and implemented in both simulation and experiments, where its achievable accuracy is assessed and tested. Based on the performed experiments, the location-related measurements acquired by the robot are not accurate enough for the standalone-GBP algorithm to provide an accurate location awareness to perform a reliable handover. Nevertheless, we demonstrate that by combining the GBP with the dead reckoning, more accurate location awareness becomes achievable, the LHO can therefore be performed in a more optimized manner compared to the conventional RSSI-based handover scheme, and is therefore able to achieve approximately twice as high average throughput in certain scenarios. Our study confirms that the achieved location awareness, if accurate enough, could enable an efficient handover scheme, further enhancing the autonomous features in the HetNets.
Keywords
dead reckoning; geometry-based positioning; indoor industrial environments; location-aware handover; mmWave communications; multi-radio access; radio positioning
Authors
LU, Y.; GERASIMENKO, M.; KOVALCHUKOV, R.; ŠTŮSEK, M.; URAMA, J.; HOŠEK, J.; VALKAMA, M.; LOHAN, E.
Released
5. 11. 2020
Publisher
MDPI
ISBN
1424-8220
Periodical
SENSORS
Year of study
20
Number
21
State
Swiss Confederation
Pages from
1
Pages to
22
Pages count
URL
https://www.mdpi.com/1424-8220/20/21/6290
Full text in the Digital Library
http://hdl.handle.net/11012/195705
BibTex
@article{BUT165834, author="LU, Y. and GERASIMENKO, M. and KOVALCHUKOV, R. and ŠTŮSEK, M. and URAMA, J. and HOŠEK, J. and VALKAMA, M. and LOHAN, E.", title="Feasibility of Location-Aware Handover for Autonomous Vehicles in Industrial Multi-Radio Environments", journal="SENSORS", year="2020", volume="20", number="21", pages="1--22", doi="10.3390/s20216290", issn="1424-8220", url="https://www.mdpi.com/1424-8220/20/21/6290" }