Abstract
Wearable systems with biomedical sensors have diagnostic, as well as monitoring applications. Parameters extracted from physiological measures in everyday situations can provide indicators of health status and can have diagnostic value, especially for cardiology telemedicine. The publication presents the review of reconfigurable, wearable or possible to adapt for wearing, multi-modal vital parameters measurement systems for use especially in cardiology telemedicine. From about 300 commercially available reviewed system, three selected systems have been studied in detail, the results of this comparison are also presented.
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References
Hogetveit, O.J.: Biomedical Sensors. Handbook of Research on Biomedical Engineering Education and Advanced Bioengineering Learning: Interdisciplinary Concepts: Interdisciplinary Concepts, vol. 2, p. 356 (2012)
Ullah, S., Higgins, H., Braem, B., Latre, B., Blondia, C., Moerman, I., Saleem, S., Rahman, Z., Kwak, K.S.: A comprehensive survey of wireless body area networks. J. Med. Syst. 36(3), 1065–1094 (2012)
Baig, M.M., Gholamhosseini, H., Connolly, M.J.: A comprehensive survey of wearable and wireless ECG monitoring systems for older adults. Med. Biol. Eng. Comput. 51(5), 485–495 (2013)
Daubert, J.C., Saxon, L., Adamson, P.B., Auricchio, A., Berger, R.D., Beshai, J.F., Breithard, O., Brignole, M., Cleland, J., DeLurgio, D.B., et al.: 2012 EHRA/HRS expert consensus statement on cardiac resynchronization therapy in heart failure: implant and follow-up recommendations and management. Europace 14(9), 1236–1286 (2012)
Burns, A., Doheny, E.P., Greene, B.R., Foran, T., Leahy, D., O’Donovan, K., McGrath, M.J.: SHIMMER: an extensible platform for physiological signal capture. In: 2010 Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), pp. 3759–3762 (2010)
Gradl, S., Kugler, P., Lohmuller, C., Eskofier, B.: Real-time ECG monitoring and arrhythmia detection using Android-based mobile devices. In: 2012 Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), pp. 2452–2455 (2012)
Mamaghanian, H., Khaled, N., Atienza, D., Vandergheynst, P.: Compressed sensing for real-time energy-efficient ECG compression on wireless body sensor nodes. IEEE Trans. Biomed. Eng. 58(9), 2456–2466 (2011)
Liu, Y., Zhu, S.H., Wang, G.H., Ye, F., Li, P.Z.: Validity and reliability of multiparameter physiological measurements recorded by the equivital LifeMonitor during activities of various intensities. J. Occup. Environ. Hyg. 10(2), 78–85 (2013)
Villar, R., Beltrame, T., Hughson, R.L.: Validation of the Hexoskin wearable vest during lying, sitting, standing, and walking activities. Appl. Physiol. Nutr. Metab. 40(9), 1019–1024 (2015)
Acknowledgements
This work was supported by project “The use of teletransmission of medical data in patients with heart failure for improvement of quality of life and reduction of treatment costs (Monitel-HF)” (STRATEGMED 1/233221/3/NCBR/3/2014) funded by the National Centre for Research and Development under the program STRATEGMED.
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Szczęsna, A., Nowak, A., Grabiec, P., Paszkuta, M., Tajstra, M., Wojciechowska, M. (2017). Survey of Wearable Multi-modal Vital Parameters Measurement Systems. In: Gzik, M., Tkacz, E., Paszenda, Z., Piętka, E. (eds) Innovations in Biomedical Engineering. Advances in Intelligent Systems and Computing, vol 526. Springer, Cham. https://doi.org/10.1007/978-3-319-47154-9_37
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DOI: https://doi.org/10.1007/978-3-319-47154-9_37
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