Paper Titles

Design of Bionic Prototype for Autonomous Mobile Robot Visual System Cleaning Apparatus
p.1

Effects of Different Soccer Boots on Biomechanical Characteristics of Cutting Movement on Artificial Turf
p.24

Synthesis and Characterization of Composite Poly(1.8 Octanediol-co-Citrate) (POC)/Nano-Hydroxyapatite as Candidate Biodegradable Bone Screw
p.36

Review on Photo-Responsive Polymeric Interfaces in Biomedical Applications
p.44

Measurement of Threshold Image Intensities on Difference of Vascular Model: Effect on Computational Fluid Dynamics for Patient-Specific Cerebral Aneurysm
p.55

Numerical Modelling of AISI 316L Cardiovascular Stent Behaviour under Blood Pressure and Restenosis Loadings
p.60

Electroencephalogram-Artifact Extraction Enhancement Based on Artificial Intelligence Technique
p.77

Low Cost System Design to Measure and Analyze of Temperature Rise Caused by 2450 MHz RF Energy in Human Phantom Model
p.92

Emerging Biomedical Health Care System by Using Internet of Things
p.103

HomeJournal of Biomimetics, Biomaterials and...Journal of Biomimetics, Biomaterials and...Emerging Biomedical Health Care System by Using...

Emerging Biomedical Health Care System by Using Internet of Things

Article Preview

Abstract:

Internet of Things and Big Data are critical passion to applying medical field. But both field interaction necessary for Bio Medical fields to improve the Doctor efficiency and it helps to serve patients in better way. In this paper mention that what are the important of the Bio Medical field linking with most recent Technology. Scientific relations to delaying with unstructured data analysis. Digital Device integration requirements for patients. Digital way user friendly communication with Doctor to patient. It helpful for finding disease and counseling patient complications reduce. Finally we achieved a better virtual environment creating with Doctor to patients for improving service.

You might also be interested in these eBooks

Journal of Biomimetics, Biomaterials and Biomedical Engineering Vol. 27

Info:

Periodical:

Journal of Biomimetics, Biomaterials and Biomedical Engineering (Volume 27)

Pages:

103-112

DOI:

https://doi.org/10.4028/www.scientific.net/JBBBE.27.103

Citation:

Cite this paper

Online since:

May 2016

Authors:

Kallam Suresh*, M. Rajasekhara Babu

Keywords:

Big Data, Biomedical, Internet of Things, Real-Time Data Analysis

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

* - Corresponding Author

[1] S. Chow and Y. Kong, On Big-Data Analytics in Biomedical Research, biometrics Biostat., vol. 6, no. 3, (2015).

[2] E. Benkhelifa, M. Abdel-Maguid, S. Ewenike, and D. Heatley, The Internet of Things: The eco-system for sustainable growth, Computer Systems and Applications (AICCSA), 2014 IEEE/ACS 11th International Conference on. p.836–842, (2014).

DOI: 10.1109/aiccsa.2014.7073288

[3] D. Niewolny, How the Internet of Things Is Revolutionizing Healthcare, (2014).

[4] E. W. T. Ngai, Internet of Things in healthcare : the case of RFID-enabled asset management Samuel Fosso Wamba *, vol. 11, no. 3, p.318–335, (2013).

DOI: 10.1504/ijbet.2013.055379

[5] S. Amendola, R. Lodato, S. Manzari, C. Occhiuzzi, and G. Marrocco, RFID Technology for IoT-Based Personal Healthcare in Smart Spaces, vol. 1, no. 2, p.144–152, (2014).

DOI: 10.1109/jiot.2014.2313981

[6] A. Saleh, M. Mosa, I. Yoo, and L. Sheets, A Systematic Review of Healthcare Applications for Smartphones, BMC Med. Inform. Decis. Mak., vol. 12, no. 1, p.1, (2012).

DOI: 10.1186/1472-6947-12-67

[7] X. Liu, N. Iftikhar, and X. Xie, Survey of real-time processing systems for big data, " Proc. 18th Int. Database Eng. Appl. Symp. - IDEAS , 14, no. October 2015, p.356–361, (2014).

DOI: 10.1145/2628194.2628251

[8] U. C. Berkeley, Snapshots in Hadoop Distributed File System, Csberkeleyedu, (2011).

[9] A. Holzinger, Biomedical Informatics. (2014).

[10] oskar fallman Karllon, Innovation in healthcare design, (1995).

[11] F. Nasri and N. Moussa, Internet of Things : Intelligent system for healthcare Based on WSN and Android, (2014).

[12] No TitHealth, Demographic Change and Wellbeing, European Comission. [Online]. Available: http: /ec. europa. eu/programmes/horizon2020/en/h2020- section/health-demographic-change-and-wellbeing. [Accessed: 03-Mar-2016].

[13] S. Canale, The Bravehealth Software Architecture for the Monitoring of Patients Affected by CVD, 5th Telemed, p.29–34, (2013).

[14] F. M. Gerdes, Smaradottir, B., End to End Infraestructure for Usability Evaluation of eHealth Applications and Services, in Scandinavian Conference on Health Informatics, 2014, p.21–22.

[15] P. S. Youm S1, How the Awareness of u-Healthcare Service and Health Conditions Affect Healthy Lifestyle: An Empirical Analysis Based on a u-Healthcare Service Experience, Telemed. J. E Heal., vol. 4, no. 21, p.286–295.

DOI: 10.1089/tmj.2014.0092

[16] J. Woodbridge, B. Mortazavi, and A. A. T. Bui, Improving biomedical signal search results in big data case-based reasoning environments, Pervasive Mob. Comput., (2015).

DOI: 10.1016/j.pmcj.2015.09.006

[17] M. P. Brittes, B. S. Junior, C. Utfpr, U. Tecnológica, C. Utfpr, and U. Tecnológica, A COLLABORATIVE APPROACH TO MANAGE AND SHARE ELDERLY BIOMEDICAL INFORMATION, p.1454–1458, (2014).

[18] Interference Aware Scheduling of Sensors in IoT Enabled Health-Care Monitoring System Interference Aware Scheduling of Sensors in IoT Enabled Health-care Monitoring System, in 2014 Fourth international conferance of emerging Applications of Information Technolgy, 2016, no. December 2014, p.152.

DOI: 10.1109/eait.2014.50

[19] D. Cheelu, M. R. Babu, and P. Venkatakrishna, A fuzzy-based intelligent vertical handoff decision strategy with maximised user satisfaction for next generation communication networks, Int. J. Process Manag. Benchmarking, Dec. (2013).

DOI: 10.1504/ijpmb.2013.058268

[20] M. R. B. and A. J. B. Alok N. Bhatt, Automation Testing Software that Aid in Efficiency Increase of Regression Process, Recent Patents Comput. Sci., vol. 6, no. 2, p.107–114, (2013).

DOI: 10.2174/22132759113069990008

[21] M. Hassanalieragh, A. Page, T. Soyata, G. Sharma, M. Aktas, and G. Mateos, Health Monitoring and Management Using Internet-of-Things ( IoT ) Sensing with Cloud-based Processing : Opportunities and Challenges, (2015).

DOI: 10.1109/scc.2015.47

[22] C. Paper, Futures Business Models for an IoT enabled Health Care sector from a causal layered perspective Futures Business Models for an IoT enabled Health Care, no. AUGUST, (2015).