Unilateral Vital Signs Monitoring Systems on IoT

Full Text (PDF, 590KB), PP.53-62

Views: 0 Downloads: 0

Author(s)

Vinod Kumar P 1 U.B. Mahadevaswamy 2

1. ATME College of Engineering, Mysuru-570018, India

2. Sri Jayachamarajendra College of Engineering, Mysuru-08,India

* Corresponding author.

DOI: https://doi.org/10.5815/ijem.2018.01.05

Received: 26 May 2017 / Revised: 20 Jul. 2017 / Accepted: 11 Sep. 2017 / Published: 8 Jan. 2018

Index Terms

Internet of Things, GSM- Global Standard Mobile Communication

Abstract

With the consistent development of remote sensor systems and Internet of Things (IoT) different parts of life will benefit. IoT based pervasive human services framework can possibly give blunder free restorative information and alarming system in basic conditions with constant checking. The device will minimize the need of devoted medicinal staff for patient checking and help the ailing to lead an ordinary life other than furnishing them with great restorative medical aid. This paper presents the working model which fuses sensors to gauge parameters like body temperature, blood pressure level & pulse. A microcontroller board is utilized for examining the inputs from the patient. Additionally all the procedure parameters inside of an interim selectable by the patient are monitored. This is extremely valuable for future examination and survey of feeble wellbeing condition. For more flexible restorative applications, this venture can be extemporized, by consolidating continuous parameter observing parameters respiratory thoracic extension belt sensors and annunciation frameworks, in this manner making it valuable in clinics as an exceptionally effective and committed aid consideration unit.

Cite This Paper

Vinod Kumar P, U.B. Mahadevaswamy,"Unilateral Vital Signs Monitoring Systems on IoT", International Journal of Engineering and Manufacturing(IJEM), Vol.8, No.1, pp.53-62, 2018. DOI: 10.5815/ijem.2018.01.05

Reference

[1] “Internet of Things Global Standards Initiative”. ITU. Retrieved 26 June 2015.

[2] https://hbr.org/resources/pdfs/comm/verizon/18980_HBR_Verizon_IoT_Nov_14.pdf.

[3] http://www.internet-of-things research.eu/pdf/Converging Technologies for Smart Environments and Integrated Ecosystems IERC Book Open Access 2013.pdf

[4] Dave Evans (April 2011). "The Internet of Things: How the Next Evolution of the Internet Is Changing Everything" (PDF). Cisco. Retrieved 4 September 2015.

[5] Gartner, IT Glossary, Internet of Things - http://www.gartner.com/it-glossary/internet-of-things/.

[6] A. Gluhak, S. Krco, M. Nati, D. Pfisterer, N. Mitton, T. Razafindralambo, A survey on facilities for experimental Internet of Things research, IEEE Communications Magazine 49 (2011) 58–67.

[7] David Niewolny. 18 Oct 2013. How the Internet of Things Is Revolutionizing Healthcare, Freescale Semiconductors.

[8] Mikhail Simonov, Riccardo Zich, Flavia Mazzitelli. Personalised healthcare communication in Internet of Things.

[9] Jara, A. J., Zamora, M. A., Skarmeta, A. F. & G. 2011. An internet of things-based personal device for diabetes therapy management in ambient assisted living (AAL). Personal and Ubiquitous Computing, 15(4), 431-440.

[10] Murray C, Lopez A. Mortality by cause for eight regions of the world: Global Burden of Disease Study. The Lancet, 1997. 349(9061): p. 1269-1276.

[11] Goldman L, Ausiello D. Cecil Medicine. Saunders Elsevier Philadelphia, PA, 2008.

[12] Daar A, Singer P, Persad D, Pramming S, Matthews D, Beaglehole R, Bernstein A, Borysiewicz L, Colagiuri S, Ganguly N, Glass R, Finegood D, Koplan J, Elizabeth G, Nabel E, Sarna G, Sarrafzadegan N, Smith R, Yach D, Bell J. Grand challenges in chronic non-communicable diseases. Nature, 2007. 450(7169): p. 494-496.

[13] Beevers, Gareth, Gregory Y H Lip, and Eoin O’Brien. "Blood Pressure Measurement." British Medical Journal 322(7292) (2001): pp.: 981 - 985.

[14] Jiri Jilek. Electronic Sphygmomanometers: The Problems and Some Suggestions. Biomedical Instrumentation & Technology: July 2003, Vol. 37, No. 4, pp. 231-233.

[15] Chris Riha. Protecting and Securing Networked Medical Devices. Biomedical Instrumentation & Technology: September 2004, Vol. 38, No. 5, pp. 392-396.

[16] B. A. Zneid , M. Al-zidi; T. Al-kharazi “Non-invasive blood pressure remote monitoring instrument based microcontroller”, IEEE Region 10 Symposium,14-16 April,2014.

[17] Shivaraman Ilango1, Pooja Sridhar2, “A Non-Invasive Blood Pressure Measurement using Android Smart Phones”, IOSR Journal of Dental and Medical Sciences (IOSR-JDMS) e-ISSN: 2279-0853, p-ISSN: 2279-0861. Volume 13, Issue 1 Ver. IV (Jan. 2014), pp.: 28-31.

[18] 1D.Chandana, 2B.Hema Latha, “A Tele-medicine System for Measuring Heart Rate, Blood pressure, And Drug Level Detection”, IJEDR | Volume 2, Issue 1 | ISSN: 2321-9939, 2014.

[19] Townsend, Neil. “Pulse Oximetry.” Medical Electronics, Michaelmas Term 2001. .

[20] Robert Croce and Jenna M. Sullivan, “Accessible Home Vital Signs Monitoring System” Rehabilitation Engineering Research Center on Accessible Medical Instrumentation.

[21] G. Di, X. Tang, and W. Liu, ‘‘A reflectance pulse oximeter design using the MSP430F149,’’ in Proc. IEEE/ICME Int. Conf. Complex Med. Eng., May 2007, pp. 1081–1084.

[22] Alexandra Fontaine, Arben Koshi, Danielle Morabito, Nicolas Rodriguez, “Reflectance based Pulse Oximeter for the chest and wrist” thesis report, WORCESTER POLYTECHNIC INSTITUTE.

[23] Jianchu Yao, M.S. and Steve Warren, “Stimulating Student Learning with a Novel “In-House” Pulse Oximeter Design”, Department of Electrical & Computer Engineering, Kansas State University Manhattan, KS 66506, USA.

[24] F. Adochiei C. Rotariu ; R. Ciobotariu; H. Costin, “A wireless low-power pulse oximetry system for patient telemonitoring”, 7th International Symposium on Advanced Topics in Electrical Engineering (ATEE), 12-14 May 2011.

[25] Body temperature measurement using PIC 16f877a microcontroller http://kitsnspares.com/admin/pdffiles/temp.pdf.

[26] H. Mansor, M. H. A. Shukor; S. S. Meskam; N. Q. A. M. Rusli ; N. S. Zamery. “Body temperature measurement for remote health monitoring system”, IEEE International Conference on Smart Instrumentation, Measurement and Applications (ICSIMA), 25-27 Nov. 2013.

[27] Suresh Sankaranarayanan, Au Thien Wan, Aida Harayani Pusa,"Smart Home Monitoring using Android and Wireless Sensors", IJEM, vol.4, no.2, pp.12-30, 2014.

[28] Kadhim M.Hashem, Fatima Ghali,"Human Identification Using Foot Features", International Journal of Engineering and Manufacturing(IJEM), Vol.6, No.4, pp.22-31, 2016.

[29] Haleema Inam, Asma Malik, Marina Hayat, Aliya Ashraf, “A Survey on Facial Expression Recongnition Technology and Its Use in Virtual System”, International Journal of Engineering and Manufacturing(IJEM), Vol.4, No.2, pp.11-18, 2015.