Positioning and Tracking of Multiple Humans Moving in Small Rooms Based on a One-Transmitter-Two-Receiver UWB Radar Configuration

doi:10.3390/s22145228

. 2022 Jul 13;22(14):5228.

doi: 10.3390/s22145228.

Positioning and Tracking of Multiple Humans Moving in Small Rooms Based on a One-Transmitter-Two-Receiver UWB Radar Configuration

Jana Fortes¹, Michal Švingál², Tamás Porteleky², Patrik Jurík³, Miloš Drutarovský³

Affiliations

¹ Department of Mathematics and Theoretical Informatics, Technical University of Košice, 042 00 Kosice, Slovakia.
² K-Mlab Organizational Unit of Ilmsens GmbH, 040 01 Kosice, Slovakia.
³ Department of Electronics and Multimedia Telecommunications, Technical University of Košice, 042 00 Kosice, Slovakia.

PMID: 35890910
PMCID: PMC9324171
DOI: 10.3390/s22145228

Positioning and Tracking of Multiple Humans Moving in Small Rooms Based on a One-Transmitter-Two-Receiver UWB Radar Configuration

Jana Fortes et al. Sensors (Basel). 2022.

. 2022 Jul 13;22(14):5228.

doi: 10.3390/s22145228.

Authors

Jana Fortes¹, Michal Švingál², Tamás Porteleky², Patrik Jurík³, Miloš Drutarovský³

Affiliations

¹ Department of Mathematics and Theoretical Informatics, Technical University of Košice, 042 00 Kosice, Slovakia.
² K-Mlab Organizational Unit of Ilmsens GmbH, 040 01 Kosice, Slovakia.
³ Department of Electronics and Multimedia Telecommunications, Technical University of Košice, 042 00 Kosice, Slovakia.

PMID: 35890910
PMCID: PMC9324171
DOI: 10.3390/s22145228

Abstract

The paper aims to propose a sequence of steps that will allow multi-person tracking with a single UWB radar equipped with the minimal antenna array needed for trilateration. Its localization accuracy is admittedly limited, but on the other hand, thoughtfully chosen placement of antennas can increase the detectability of several humans moving in their immediate vicinity and additionally decrease the computational complexity of the signal processing methods. It is shown that the UWB radar measuring with high rate and fine range resolution in conjunction with properly tuned processing parameters can continually track people even in the case when their radar echoes are crossing or merging. Emphasis is given to the simplified method of the time-of-arrival (TOA) estimation and association and the novel method needed for antenna height compensation. The performance of the proposed human tracking framework is evaluated for the experimental scenario with three people moving closely in a small room. A quantitative analysis of the estimated _target tracks confirms the benefits of suggested high antenna placement and application of new signal processing methods in the form of decreasing the mean localization error and increasing the frequency of correct _target position estimations.

Keywords: M-sequence radar; UWB radar; antenna height; multiple human _targets; signal processing; _target positioning; _target tracking.

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

**Figure 1**
M-sequence UWB system: (a) an original m:explore, (b) a customized version of m:explore with antennas.

**Figure 2**
The experimental scenario: (a) scheme, (b) photos.

**Figure 3**
Comparison of outputs measured simultaneously in two antenna heights: (a) detector output from antenna height 1.3 m, (b) detector output from antenna height 2.5 m, (c) tracking output from antenna height 1.3 m, (d) tracking output from antenna height 2.5 m.

**Figure 4**
Proposed human tracking framework.

**Figure 5**
Comparison of outputs measured from antenna height 2.5 m processed by the original and the proposed TOA estimation method: (a) trace connection output (the original method), (b) TOA matching output (the proposed method), (c) final tracks estimated from trace connection output, (d) final tracks estimated from TOA matching output.

**Figure 6**
Illustration of different plains for estimation of TOA and estimation of the final _target coordinates.

**Figure 7**
The cross-section of the spheroid S formed from measured TOA around couple $T_{x} - R_{x}$ and the plane $β$ situated in the approximated _target height displayed in the $x - z$ plane.

**Figure 8**
Change in the localization accuracy of x-coordinate, y-coordinate and _target position $P = [x, y]$ depending on the changing value of the input parameter $p T a r g e t H e i g h t$ : (a) mean localization error [m], (b) relative frequency of the correct estimations [%].

**Figure 9**
2D _target localization based on one transmitter-two receiver UWB radar configuration.

**Figure 10**
The radargrams from Rx1 and Rx2 with the raw radar data.

**Figure 11**
The radargrams from Rx1 and Rx2 with the subtracted background.

**Figure 12**
The radargrams from Rx1 and Rx2 with the detection output.

**Figure 13**
The radargrams from Rx1 and Rx2 with the estimated TOA.

**Figure 14**
_target localization in the $x - y$ plane without height compensation (cyan circles) vs. with height compensation (magenta circles).

**Figure 15**
_target tracking in the $x - y$ plane: TOA matching & no height compensation & antenna height 1.3 m (yellow tracks) vs. trace connection & height compensation & antenna height 2.5 m (black tracks) vs. TOA matching & no height compensation & antenna height 2.5 m (cyan tracks) vs. TOA matching & height compensation & antenna height 2.5 m (magenta tracks).

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References

1. Yarovoy A., Zhuge X., Savelyev T., Ligthart L. Comparison of UWB technologies for human being detection with radar; Proceedings of the 2007 European Microwave Conference; Munich, Germany. 9–12 October 2007; pp. 1574–1577.
1. Khan F., Ghaffar A., Khan N., Cho S.H. An overview of signal processing techniques for remote health monitoring using impulse radio UWB transceiver. Sensors. 2020;20:2479. doi: 10.3390/s20092479. - DOI - PMC - PubMed
1. Kebe M., Gadhafi R., Mohammad B., Sanduleanu M., Saleh H., Al-Qutayri M. Human vital signs detection methods and potential using radars: A review. Sensors. 2020;20:1454. doi: 10.3390/s20051454. - DOI - PMC - PubMed
1. Zhang Y., Qi F., Lv H., Liang F., Wang J. Bioradar technology: Recent research and advancements. IEEE Microw. Mag. 2019;20:58–73. doi: 10.1109/MMM.2019.2915491. - DOI
1. Thi Phuoc Van N., Tang L., Demir V., Hasan S.F., Duc Minh N., Mukhopadhyay S. Microwave radar sensing systems for search and rescue purposes. Sensors. 2019;19:2879. doi: 10.3390/s19132879. - DOI - PMC - PubMed

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[1] Yarovoy A., Zhuge X., Savelyev T., Ligthart L. Comparison of UWB technologies for human being detection with radar; Proceedings of the 2007 European Microwave Conference; Munich, Germany. 9–12 October 2007; pp. 1574–1577.

[2] Yarovoy A., Zhuge X., Savelyev T., Ligthart L. Comparison of UWB technologies for human being detection with radar; Proceedings of the 2007 European Microwave Conference; Munich, Germany. 9–12 October 2007; pp. 1574–1577.

[3] Khan F., Ghaffar A., Khan N., Cho S.H. An overview of signal processing techniques for remote health monitoring using impulse radio UWB transceiver. Sensors. 2020;20:2479. doi: 10.3390/s20092479. - DOI - PMC - PubMed

[4] Khan F., Ghaffar A., Khan N., Cho S.H. An overview of signal processing techniques for remote health monitoring using impulse radio UWB transceiver. Sensors. 2020;20:2479. doi: 10.3390/s20092479. - DOI - PMC - PubMed

[5] Kebe M., Gadhafi R., Mohammad B., Sanduleanu M., Saleh H., Al-Qutayri M. Human vital signs detection methods and potential using radars: A review. Sensors. 2020;20:1454. doi: 10.3390/s20051454. - DOI - PMC - PubMed

[6] Kebe M., Gadhafi R., Mohammad B., Sanduleanu M., Saleh H., Al-Qutayri M. Human vital signs detection methods and potential using radars: A review. Sensors. 2020;20:1454. doi: 10.3390/s20051454. - DOI - PMC - PubMed

[7] Zhang Y., Qi F., Lv H., Liang F., Wang J. Bioradar technology: Recent research and advancements. IEEE Microw. Mag. 2019;20:58–73. doi: 10.1109/MMM.2019.2915491. - DOI

[8] Zhang Y., Qi F., Lv H., Liang F., Wang J. Bioradar technology: Recent research and advancements. IEEE Microw. Mag. 2019;20:58–73. doi: 10.1109/MMM.2019.2915491. - DOI

[9] Thi Phuoc Van N., Tang L., Demir V., Hasan S.F., Duc Minh N., Mukhopadhyay S. Microwave radar sensing systems for search and rescue purposes. Sensors. 2019;19:2879. doi: 10.3390/s19132879. - DOI - PMC - PubMed

[10] Thi Phuoc Van N., Tang L., Demir V., Hasan S.F., Duc Minh N., Mukhopadhyay S. Microwave radar sensing systems for search and rescue purposes. Sensors. 2019;19:2879. doi: 10.3390/s19132879. - DOI - PMC - PubMed

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Positioning and Tracking of Multiple Humans Moving in Small Rooms Based on a One-Transmitter-Two-Receiver UWB Radar Configuration

Affiliations

Positioning and Tracking of Multiple Humans Moving in Small Rooms Based on a One-Transmitter-Two-Receiver UWB Radar Configuration

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Conflict of interest statement

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