A Respiration Sensor for a Chest-Strap Based Wireless Body Sensor

Hesse, Marc; Christ, Peter; Hörmann, Timm; Rückert, Ulrich

A Respiration Sensor for a Chest-Strap Based Wireless Body Sensor

Hesse M, Christ P, Hörmann T, Rückert U (2014)
In: SENSORS, 2014 IEEE. IEEE: 490-493.

Konferenzbeitrag | Veröffentlicht | Englisch

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DOI

https://doi.org/10.1109/ICSENS.2014.6985042

URN

urn:nbn:de:0070-pub-27306617

Autor*in

Hesse, Marc^UniBi ; Christ, Peter^UniBi; Hörmann, Timm^UniBi; Rückert, Ulrich^UniBi

Einrichtung

Center of Excellence - Cognitive Interaction Technology CITEC
Technische Fakultät > AG Kognitronik und Sensorik

Abstract / Bemerkung

In this paper we present a respiration sensor suitable for an integration into a wireless body sensor worn around the chest. The thorax expansion and contraction during in- and exhalation is captured using a force-sensing resistor. Based on the captured thoracic movements, the breaths are determined with a peak detection algorithm. For evaluation, a treadmill experiment with five subjects was conducted using an ergospirometry system as a reference. Overall, an average deviation of -0.32±0.68 min-1 in the respiration rate between the ergospirometry and our sensor was observed. In general, the captured thoracic movements showed breaths as distinctive oscillations, but in some cases a non-optimal pressure transfer between thorax and sensor was observed. Therefore, a mechanical housing mechanism was developed. A comparison of our construction with a respiratory inductance plethysmography (RIP)-based sensor shows a close relationship with the captured thoracic movements during normal and deep respiration.

Stichworte

Accelerometers; treadmill experiment; body sensor networks; force sensors; biomedical transducers; packaging; peak detectors; pressure sensors; RIP; wireless sensor networks; chest-strap based wireless body sensor; ergospirometry system; force-sensing resistor; mechanical housing mechanism; nonoptimal pressure transfer; oscillation; peak detection algorithm; Wireless sensor networks; Wireless communication; Temperature measurement; Resistors; Biomedical monitoring; Plethysmography; respiration sensor; respiratory inductance plethysmography; thoracic movement; thorax contraction; thorax expansion

Erscheinungsjahr

2014

Titel des Konferenzbandes

SENSORS, 2014 IEEE

Seite(n)

490-493

ISBN

9781479901623

Page URI

https://pub.uni-bielefeld.de/record/2730661

Zitieren

Hesse M, Christ P, Hörmann T, Rückert U. A Respiration Sensor for a Chest-Strap Based Wireless Body Sensor. In: SENSORS, 2014 IEEE. IEEE; 2014: 490-493.

Hesse, M., Christ, P., Hörmann, T., & Rückert, U. (2014). A Respiration Sensor for a Chest-Strap Based Wireless Body Sensor. SENSORS, 2014 IEEE, 490-493. IEEE. doi:10.1109/ICSENS.2014.6985042

Hesse, Marc, Christ, Peter, Hörmann, Timm, and Rückert, Ulrich. 2014. “A Respiration Sensor for a Chest-Strap Based Wireless Body Sensor”. In SENSORS, 2014 IEEE, 490-493. IEEE.

Hesse, M., Christ, P., Hörmann, T., and Rückert, U. (2014). “A Respiration Sensor for a Chest-Strap Based Wireless Body Sensor” in SENSORS, 2014 IEEE (IEEE), 490-493.

Hesse, M., et al., 2014. A Respiration Sensor for a Chest-Strap Based Wireless Body Sensor. In SENSORS, 2014 IEEE. IEEE, pp. 490-493.

M. Hesse, et al., “A Respiration Sensor for a Chest-Strap Based Wireless Body Sensor”, SENSORS, 2014 IEEE, IEEE, 2014, pp.490-493.

Hesse, M., Christ, P., Hörmann, T., Rückert, U.: A Respiration Sensor for a Chest-Strap Based Wireless Body Sensor. SENSORS, 2014 IEEE. p. 490-493. IEEE (2014).

Hesse, Marc, Christ, Peter, Hörmann, Timm, and Rückert, Ulrich. “A Respiration Sensor for a Chest-Strap Based Wireless Body Sensor”. SENSORS, 2014 IEEE. IEEE, 2014. 490-493.

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