A novel non-invasive, non-conductive method for measuring respiration

Ringkamp, Jan; Radler, Philipp; Lebhardt, Philipp; Langejürgen, Jens

doi:10.5194/jsss-9-27-2020

Articles | Volume 9, issue 1

https://doi.org/10.5194/jsss-9-27-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Sensors and Measurement Systems 2019

https://doi.org/10.5194/jsss-9-27-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 9, issue 1

Regular research article

|

30 Jan 2020

Regular research article |

| 30 Jan 2020

A novel non-invasive, non-conductive method for measuring respiration

Jan Ringkamp, Philipp Radler, Philipp Lebhardt, and Jens Langejürgen

Viewed

Total article views: 1,981 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
1,486	428	67	1,981	106	145

HTML: 1,486
PDF: 428
XML: 67
Total: 1,981
BibTeX: 106
EndNote: 145

Views and downloads (calculated since 30 Jan 2020)

Month	HTML	PDF	XML	Total
Jan 2020	45	8	2	55
Feb 2020	97	17	0	114
Mar 2020	30	7	1	38
Apr 2020	38	6	0	44
May 2020	19	1	1	21
Jun 2020	117	24	1	142
Jul 2020	40	10	2	52
Aug 2020	129	1	3	133
Sep 2020	37	3	0	40
Oct 2020	24	6	0	30
Nov 2020	63	2	0	65
Dec 2020	81	11	1	93
Jan 2021	12	3	0	15
Feb 2021	13	8	0	21
Mar 2021	10	2	0	12
Apr 2021	8	10	0	18
May 2021	16	5	1	22
Jun 2021	15	7	1	23
Jul 2021	9	3	0	12
Aug 2021	9	4	0	13
Sep 2021	8	6	0	14
Oct 2021	9	22	0	31
Nov 2021	15	12	1	28
Dec 2021	13	3	0	16
Jan 2022	16	10	1	27
Feb 2022	13	3	1	17
Mar 2022	6	2	0	8
Apr 2022	7	13	0	20
May 2022	14	6	3	23
Jun 2022	4	3	2	9
Jul 2022	3	2	0	5
Aug 2022	10	3	0	13
Sep 2022	19	2	1	22
Oct 2022	10	3	1	14
Nov 2022	37	4	1	42
Dec 2022	8	3	0	11
Jan 2023	12	6	0	18
Feb 2023	13	4	0	17
Mar 2023	13	3	1	17
Apr 2023	4	2	1	7
May 2023	8	6	1	15
Jun 2023	1	3	0	4
Jul 2023	6	2	0	8
Aug 2023	8	8	6	22
Sep 2023	7	4	2	13
Oct 2023	10	7	0	17
Nov 2023	9	4	4	17
Dec 2023	8	5	3	16
Jan 2024	3	2	0	5
Feb 2024	8	6	1	15
Mar 2024	7	9	1	17
Apr 2024	19	3	3	25
May 2024	9	2	1	12
Jun 2024	36	11	3	50
Jul 2024	19	4	0	23
Aug 2024	21	3	3	27
Sep 2024	12	6	2	20
Oct 2024	18	4	1	23
Nov 2024	12	7	1	20
Dec 2024	8	4	1	13
Jan 2025	9	3	1	13
Feb 2025	19	8	0	27
Mar 2025	13	4	0	17
Apr 2025	11	8	1	20
May 2025	11	6	1	18
Jun 2025	32	9	0	41
Jul 2025	20	9	0	29
Aug 2025	16	5	1	22
Sep 2025	35	9	1	45
Oct 2025	27	11	2	40
Nov 2025	18	6	1	25

Cumulative views and downloads (calculated since 30 Jan 2020)

Month	HTML	PDF	XML	Total
Jan 2020	45	8	2	55
Feb 2020	97	17	0	114
Mar 2020	30	7	1	38
Apr 2020	38	6	0	44
May 2020	19	1	1	21
Jun 2020	117	24	1	142
Jul 2020	40	10	2	52
Aug 2020	129	1	3	133
Sep 2020	37	3	0	40
Oct 2020	24	6	0	30
Nov 2020	63	2	0	65
Dec 2020	81	11	1	93
Jan 2021	12	3	0	15
Feb 2021	13	8	0	21
Mar 2021	10	2	0	12
Apr 2021	8	10	0	18
May 2021	16	5	1	22
Jun 2021	15	7	1	23
Jul 2021	9	3	0	12
Aug 2021	9	4	0	13
Sep 2021	8	6	0	14
Oct 2021	9	22	0	31
Nov 2021	15	12	1	28
Dec 2021	13	3	0	16
Jan 2022	16	10	1	27
Feb 2022	13	3	1	17
Mar 2022	6	2	0	8
Apr 2022	7	13	0	20
May 2022	14	6	3	23
Jun 2022	4	3	2	9
Jul 2022	3	2	0	5
Aug 2022	10	3	0	13
Sep 2022	19	2	1	22
Oct 2022	10	3	1	14
Nov 2022	37	4	1	42
Dec 2022	8	3	0	11
Jan 2023	12	6	0	18
Feb 2023	13	4	0	17
Mar 2023	13	3	1	17
Apr 2023	4	2	1	7
May 2023	8	6	1	15
Jun 2023	1	3	0	4
Jul 2023	6	2	0	8
Aug 2023	8	8	6	22
Sep 2023	7	4	2	13
Oct 2023	10	7	0	17
Nov 2023	9	4	4	17
Dec 2023	8	5	3	16
Jan 2024	3	2	0	5
Feb 2024	8	6	1	15
Mar 2024	7	9	1	17
Apr 2024	19	3	3	25
May 2024	9	2	1	12
Jun 2024	36	11	3	50
Jul 2024	19	4	0	23
Aug 2024	21	3	3	27
Sep 2024	12	6	2	20
Oct 2024	18	4	1	23
Nov 2024	12	7	1	20
Dec 2024	8	4	1	13
Jan 2025	9	3	1	13
Feb 2025	19	8	0	27
Mar 2025	13	4	0	17
Apr 2025	11	8	1	20
May 2025	11	6	1	18
Jun 2025	32	9	0	41
Jul 2025	20	9	0	29
Aug 2025	16	5	1	22
Sep 2025	35	9	1	45
Oct 2025	27	11	2	40
Nov 2025	18	6	1	25

Viewed (geographical distribution)

Total article views: 1,743 (including HTML, PDF, and XML) Thereof 1,678 with geography defined and 65 with unknown origin.

Country	#	Views	%

1

1

Latest update: 21 Nov 2025

Short summary

We present a novel method for measuring dynamic changes in respiration parameters due to breathing based on the coupling of two ultra-high-frequency antennae. Our sensor system shows a high reproducibility and a timing similar to a conventional flow sensor. The presented method is a promising candidate to overcome some of the most important technical burdens of measuring respiratory parameters and might be used as a trigger for patient–ventilator synchronization in infants and neonates.


Total:	0
HTML:	0
PDF:	0
XML:	0