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Proceedings Paper

A novel yet effective motion artefact reduction method for continuous physiological monitoring
Author(s): A. Alzahrani; S. Hu; V. Azorin-Peris; R. Kalawsky; X. Zhang; C. Liu
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Paper Abstract

This study presents a non-invasive and wearable optical technique to continuously monitor vital human signs as required for personal healthcare in today’s increasing ageing population. The study has researched an effective way to capture human critical physiological parameters, i.e., oxygen saturation (SaO2%), heart rate, respiration rate, body temperature, heart rate variability by a closely coupled wearable opto-electronic patch sensor (OEPS) together with real-time and secure wireless communication functionalities. The work presents the first step of this research; an automatic noise cancellation method using a 3-axes MEMS accelerometer to recover signals corrupted by body movement which is one of the biggest sources of motion artefacts. The effects of these motion artefacts have been reduced by an enhanced electronic design and development of self-cancellation of noise and stability of the sensor. The signals from the acceleration and the opto-electronic sensor are highly correlated thus leading to the desired pulse waveform with rich bioinformatics signals to be retrieved with reduced motion artefacts. The preliminary results from the bench tests and the laboratory setup demonstrate that the goal of the high performance wearable opto-electronics is viable and feasible.

Paper Details

Date Published: 4 March 2014
PDF: 16 pages
Proc. SPIE 8936, Design and Quality for Biomedical Technologies VII, 89360G (4 March 2014); doi: 10.1117/12.2044640
Show Author Affiliations
A. Alzahrani, Loughborough Univ. (United Kingdom)
S. Hu, Loughborough Univ. (United Kingdom)
V. Azorin-Peris, Loughborough Univ. (United Kingdom)
R. Kalawsky, Loughborough Univ. (United Kingdom)
X. Zhang, Loughborough Univ. (United Kingdom)
C. Liu, Loughborough Univ. (United Kingdom)


Published in SPIE Proceedings Vol. 8936:
Design and Quality for Biomedical Technologies VII
Ramesh Raghavachari; Rongguang Liang, Editor(s)

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