Page 23 - IJEEE-2022-Vol18-ISSUE-1
P. 23
Issa & Thabit | 19
[13] L. M. Dang, M. J. Piran, D. Han, K. Min, and H. Moon, Access, vol. 6, pp. 10483–10496, 2018, doi:
“A survey on internet of things and cloud computing for
healthcare,” Electronics, vol. 8, no. 7, p. 768, 2019. 10.1109/ACCESS.2018.2808472.
[27] S. B. Baker, W. Xiang, and I. Atkinson, “Internet of
[14] B. Oryema, “Design and implementation of an
Things for Smart Healthcare: Technologies, Challenges,
interoperable messaging system for IoT healthcare and Opportunities,” IEEE Access, vol. 5, pp. 26521–
services,” in Proceedings of the 2017 14th IEEE Annual
26544, 2017, doi: 10.1109/ACCESS.2017.2775180.
Consumer Communications & Networking Conference
(CCNC), pp. 45–52, Las Vegas, NV, USA, January 2017. [28] G. Manogaran, R. Varatharajan, D. Lopez, P. M.
[15] A. Ahad, M. Tahir, and K.-L. A. Yau, “5G-based smart Kumar, R. Sundarasekar, and C. Thota, “A new
healthcare network: architecture, taxonomy, challenges architecture of Internet of Things and big data ecosystem
and future research directions,” IEEE Access, vol. 7, pp.
100747–100762, 2019. for secured smart healthcare monitoring and alerting
[16] M. N. Birje and S. S. Hanji, “Internet of things based system,” Future. Genre. computer. Syst., vol. 82, pp. 375–
distributed healthcare systems: a review,” Journal of Data,
387, 2018, doi: 10.1016/j.future.2017.10.045.
Information and Management, vol. 2, 2020.
[17] K. T. Kadhim, “An overview of patient’s health status [29] R. M. Stuppia L., Ferone E., Manzoli L., Pitasi A,
“Innovative Healthcare Systems for the 21st Century,”
monitoring system based on internet of things (IoT),” Innov. Healthc. Syst. 21st Century, pp. 15–70, 2017, doi:
Wireless Personal Communications, vol. 114, pp. 1–28,
10.1007/978-3- 319-55774-8.
2020.
[18] Y. Yuehong, “The internet of things in healthcare: an [30] L. Minh Dang, M. J. Piran, D. Han, K. Min, and H.
Moon, “A survey on internet of things and cloud
overview,” Journal of Industrial Information Integration, computing for healthcare,” Electron., vol. 8, no. 7, pp. 1–
vol. 1, pp. 3–13, 2016.
[19] G. Shanmugasundaram and G. Sankarikaarguzhali, “An 49, 2019, doi: 10.3390/electronics8070768.
investigation on IoT healthcare analytics,” International
[31] P. Sundaravadivel, E. Kougianos, S. P. Mohanty, and
Journal of Information Engineering and Electronic M. K. Ganapathiraju, “Everything You Wanted to Know
Business, vol. 9, no. 2, p. 11, 2017. about Smart Health Care: Evaluating the Different
[20] J.-Y. Lee and R. A. Scholtz, “Ranging in a dense
Technologies and Components of the Internet of Things
multipath environment using an UWB radio link,” IEEE for Better Health,” IEEE Consume. Electron. Mag., vol. 7,
no. 1, pp. 18–28, 2018, doi: 10.1109/MCE.2017.2755378.
Journal on Selected Areas in Communications, vol. 20, pp. [32] F. Firouzi et al., “Internet-of-Things and big data for
1677–1683, 2002.
smarter healthcare: From device to architecture,
[21] H. Aftab, K. Gilani, J. Lee, L. Nkenyereye, S. Jeong, applications and analytics,” Future. Genre. Comput. Syst.,
and J. Song, “Analysis of identifiers in IoT platforms,” vol. 78, pp. 583–586, 2018, doi:
Digital Communications and Networks, vol. 6, no. 3, pp. 10.1016/j.future.2017.09.016.
[33] Y. E. Gelogo and H. K. Kim, “Integration of wearable
333-340, 2020.
[22] G. Cerruela Garc´ia, I. Luque Ruiz, and M. G´omez- monitoring device and android smartphone apps for u-
healthcare monitoring system,” International Journal of
Nieto, “State of the art, trends and future of Bluetooth low
Software Engineering and Its Applications, vol. 9, no. 4,
energy, A. D. Dwivedi, L. Malina, P. Dzurenda, and G. pp. 195–202, 2015.
Srivastava, “Optimized blockchain model for internet of
things-based healthcare applications,” 2019 42nd Int. [34] O. Banos, C. Villalonga, M. Damas, P. Gloesekoetter,
Conf. Telecommun. Signal Process. TSP 2019, pp. 135– H. Pomares, and I. Rojas, “Physio droid: Combining
139, 2019, doi: 10.1109/TSP.2019.8769060. wearable health sensors and mobile devices for a
[23] M. S. Hossain and G. Muhammad, “Cloud-assisted ubiquitous, continuous, and personal monitoring,” The
Industrial Internet of Things (IIOT) -Enabled framework Scientific World Journal, 2014.
for health monitoring,” Comput. Networks, vol. 101, pp. [35] C. Thuemmler and C. Bai, “Health 4.0: application of
192–202, 2016, doi: 10.1016/j.comnet.2016.01.009.
industry 4.0 design principles in future Asthma
[24] A. Darwish, A. E. Hassanien, M. Elhoseny, A. K. management,” Springer International Publishing, pp. 23–
Sangaiah, and K. Muhammad, “The impact of the hybrid
37, 2017.
platform of internet of things and cloud computing on [36] H. Adeli, S. Ghosh-Dastidar, and N. Dadmehr, “A
healthcare systems: opportunities, challenges, and open wavelet-chaos methodology for analysis of EEGs and
problems,” J. Ambient Intell. Humaniz. Comput., vol. 10, EEG subbands to detect seizure and epilepsy,” IEEE
no. 10, pp. 4151–4166, 2019, doi: 10.1007/s12652-017-
Transactions on Biomedical Engineering, vol. 54, NO. 2,
0659-1.
Feb. 2007.
[25] H. Ahmadi, G. Arji, L. Shahmoradi, R. Safdari, M. [37] Y. Chae, J. Jeong, and S. Jo, “Toward brain-actuated
Nilashi, and M. Alizadeh, The application of internet of humanoid robots: Asynchronous direct control using an
eeg-based bci,” IEEE Transactions on Robotics, vol. 28,
things in healthcare: a systematic literature review and no. 5, pp. 1131–1144, Oct 2012.
[38] F. Duan, D. Lin, W. Li, and Z. Zhang, “Design of a
classification, vol. 18, no. 4. Springer Berlin Heidelberg,
multimodal egg-based hybrid bci system with visual servo
2019. module,” IEEE Transactions on Autonomous Mental
Development, vol. 7, no. 4, pp. 332–341, Dec 2015.
[26] D. Pal, S. Funilkul, N. Charoenkitkarn, and P.
Kanthamanon, “Internet-of-Things and Smart Homes for [39] A. J. C. Trappey, C. V. Trappey, U. H. Govindarajan, J.
Elderly Healthcare: An End User Perspective,” IEEE J. Sun, and A. C. Chuang, “A review of technology
