Cited By
View all- Efremova EKuzmin LItskov V(2023)Measuring Received Signal Strength of UWB Chaotic Radio Pulses for Ranging and PositioningElectronics10.3390/electronics1221442512:21(4425)Online publication date: 27-Oct-2023
Improving Signal-Strength-based Distance Estimation in UWB Transceivers
Pages 61 - 66
Abstract
Ultra-wideband (UWB) technology has become very popular for indoor positioning and distance estimation (DE) systems due to its decimeter-level accuracy achieved when using time-of-flight-based techniques. Techniques for DE relying on signal strength (DESS) received less attention. As a consequence, existing benchmarks consist of simple channel characterizations rather than methods aiming to increase accuracy. Further development in DESS may enable lower-cost transceivers to applications that can afford lower accuracies than those based on time-of-flight. Moreover, it is a fundamental building block used by a recently proposed approach that can enable security against cyberattacks to DE which could not be avoided using only time-of-flight-based techniques. In this paper, we aim to benchmark the performance of machine-learning models when used to increase the accuracy of UWB-based DESS. Additionally, aiming for implementation in commercial off-the-shelf (COTS) transceivers, we propose and evaluate an approach to resolve ambiguities compromising DESS in these devices. Our results show that the proposed DE approaches have sub-decimeter accuracy when testing the models in the same environment and positions in which they have been trained, and achieved an average MAE of 24 cm when tested in a different environment. 3 datasets obtained from our experiments are made publicly available.
References
[1]
2022. UWB-core. https://github.com/decawave/uwb-core. Accessed: 2022-03-24.
[2]
802.15.4-2011 2015. IEEE Standard for Low-Rate Wireless Networks. Standard. The Institute of Electrical and Electronics Engineers, Inc., New York, USA.
[3]
Mimonah Al Qathrady and Ahmed Helmy. 2017. Improving BLE distance estimation and classification using TX power and machine learning: A comparative analysis. In Proceedings of the 20th ACM International Conference on Modelling, Analysis and Simulation of Wireless and Mobile Systems. 79–83.
[4]
N Alsindi, B Alavi, and K Pahlavan. 2007. Empirical pathloss model for indoor geolocation using UWB measurements. Electronics Letters 43, 7 (2007), 370–372.
[5]
Giovanni Bellusci, Gerard J. M. Janssen, Junlin Yan, and Christian C. J. M. Tiberius. 2008. Low complexity ultra-wideband ranging in indoor multipath environments. In 2008 IEEE/ION Position, Location and Navigation Symposium. 394–401. https://doi.org/10.1109/PLANS.2008.4570095
[6]
Leo Botler. [n. d.]. UWB RSS Dataset. https://bitbucket.org/leobotler/uwb-rss-dataset. Accessed: 2022-04-19.
[7]
Leo Botler, Konrad Diwold, and Kay Römer. 2021. A UWB-Based Solution to the Distance Enlargement Fraud Using Hybrid ToF and RSS Measurements. In Proceedings - 2021 IEEE 18th International Conference on Mobile Ad Hoc and Smart Systems, MASS 2021. IEEE Publications, 324–334. https://doi.org/10.1109/MASS52906.2021.00049
[8]
Decawave. 2015. DW1000 IEEE802.15.4-2011 UWB Transceiver datasheet. Decawave Ltd.
[9]
Decawave. 2017. DW1000 User Manual. Decawave Ltd.
[10]
I. Dotlic, A. Connell, H. Ma, J. Clancy, and M. McLaughlin. 2017. Angle of arrival estimation using decawave DW1000 integrated circuits. In 2017 14th Workshop on Positioning, Navigation and Communications (WPNC). 1–6.
[11]
Manuel Fernández-Delgado, Manisha Sanjay Sirsat, Eva Cernadas, Sadi Alawadi, Senén Barro, and Manuel Febrero-Bande. 2019. An extensive experimental survey of regression methods. Neural Networks 111 (2019), 11–34.
[12]
Thomas Gigl, Gerard J.M. Janssen, Vedran Dizdarevic, Klaus Witrisal, and Zoubir Irahhauten. 2007. Analysis of a UWB Indoor Positioning System Based on Received Signal Strength. In 2007 4th Workshop on Positioning, Navigation and Communication. 97–101. https://doi.org/10.1109/WPNC.2007.353618
[13]
Zoubir Irahhauten, Gerard J.M. Janssen, Homayoun Nikookar, Alex Yarovoy, and Leo P. Ligthart. 2006. UWB Channel Measurements and Results for Office and Industrial Environments. In 2006 IEEE International Conference on Ultra-Wideband. 225–230. https://doi.org/10.1109/ICU.2006.281554
[14]
Julian Walter Karoliny. 2020. Machine Learning Approaches for High Accuracy Network Localization with UWB/submitted by Julian Karoliny. Ph. D. Dissertation. Universität Linz.
[15]
Peter Krapež, Matjavz Vidmar, and Marko Munih. 2021. Distance Measurements in UWB-Radio Localization Systems Corrected with a Feedforward Neural Network Model. Sensors 21, 7 (Mar 2021), 2294. https://doi.org/10.3390/s21072294
[16]
F. Pedregosa, G. Varoquaux, A. Gramfort, V. Michel, B. Thirion, O. Grisel, M. Blondel, P. Prettenhofer, R. Weiss, V. Dubourg, J. Vanderplas, A. Passos, D. Cournapeau, M. Brucher, M. Perrot, and E. Duchesnay. 2011. Scikit-learn: Machine Learning in Python. Journal of Machine Learning Research 12 (2011), 2825–2830.
[17]
Lorenzo Rubio, Juan Reig, Herman Fernández, and Vicent M. Rodrigo-Peñarrocha. 2013. Experimental UWB Propagation Channel Path Loss and Time-Dispersion Characterization in a Laboratory Environment. International Journal of Antennas and Propagation 2013 (31 Mar 2013), 350167. https://doi.org/10.1155/2013/350167
[18]
A. Waadt, A. Burnic, D. Xu, C. Kocks, S. Wang, and P. Jung. 2010. Analysis of RSSI based positioning with multiband OFDM UWB. In 2010 Future Network Mobile Summit. 1–8.
[19]
S. Wang, A. Waadt, A. Burnic, D. Xu, C. Kocks, G. H. Bruck, and P. Jung. 2010. System implementation study on RSSI based positioning in UWB networks. In 2010 7th International Symposium on Wireless Communication Systems. 36–40.
Recommendations
Compact Quad Band-Notched Monopole Antenna for UWB Systems
A novel compact microstrip-fed UWB antenna with quad notched band is proposed. The antenna consists of a rectangular radiating patch with a half circle, a tapered microstrip feed-line, and a semi-elliptical ground plane. With a pair of L-shaped slots, ...
Precise Indoor Positioning Using UWB: A Review of Methods, Algorithms and Implementations
The demand and growth of indoor positioning has increased rapidly in the past few years for a diverse range of applications. Various innovative techniques and technologies have been introduced but precise and reliable indoor positioning still remains a ...
A Novel 5.5/7.5 GHz Dual Band-Stop Antenna with Modified Ground Plane for UWB Communications
In this study, a novel design of ultra-wideband (UWB) monopole antenna with extended bandwidth and dual band-notched properties is proposed. In the presented structure, by cutting two pairs of U-shaped slots in the ground plane, additional (third and ...
Comments
Information & Contributors
Information
Published In
May 2023
419 pages
ISBN:9798400700491
DOI:10.1145/3576914
Copyright © 2023 Owner/Author.
This work is licensed under a Creative Commons Attribution International 4.0 License.
Sponsors
Publisher
Association for Computing Machinery
New York, NY, United States
Publication History
Published: 09 May 2023
Check for updates
Author Tags
Qualifiers
- Research-article
- Research
- Refereed limited
Funding Sources
- FFG
Conference
CPS-IoT Week '23
Sponsor:
CPS-IoT Week '23: Cyber-Physical Systems and Internet of Things Week 2023
May 9 - 12, 2023
TX, San Antonio, USA
Contributors
Other Metrics
Bibliometrics & Citations
Bibliometrics
Article Metrics
- View Citations1Total Citations
- 379Total Downloads
- Downloads (Last 12 months)246
- Downloads (Last 6 weeks)58
Reflects downloads up to 01 Jan 2025
Other Metrics
Citations
Cited By
View all- Efremova EKuzmin LItskov V(2023)Measuring Received Signal Strength of UWB Chaotic Radio Pulses for Ranging and PositioningElectronics10.3390/electronics1221442512:21(4425)Online publication date: 27-Oct-2023
View Options
View options
View or Download as a PDF file.
PDFeReader
View online with eReader.
eReaderHTML Format
View this article in HTML Format.
HTML FormatLogin options
Check if you have access through your login credentials or your institution to get full access on this article.
Sign in