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Wireless Networks
Erschienen in: Wireless Networks 6/2021

02.01.2019

Smart integrated IoT healthcare system for cancer care

verfasst von: Adeniyi Onasanya, Maher Elshakankiri

Erschienen in: Wireless Networks | Ausgabe 6/2021

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Abstract

The emergence of the internet of things (IoT) has drastically influenced and shaped the world of technology in the contexts of connectivity, interconnectivity, and interoperability with smart connected sensors, objects, devices, data, and applications. In fact, IoT has brought notable impacts on the global economy and human experience that span from industry to industry in a variety of application domains, including healthcare. With IoT, it is expected to facilitate a seamless interaction and communication of objects (devices) with humans in the environment. Therefore, it is imperative to embrace the potentials and benefits of IoT technology in healthcare delivery to ensure saving lives and to improve the quality of life using smart connected devices. In this paper, we focus on the IoT based healthcare system for cancer care services and business analytics/cloud services and also propose the adoption and implementation of IoT/WSN technology to augment the existing treatment options to deliver healthcare solution. Here, the business analytics/cloud services constitute the enablers for actionable insights, decision making, data transmission and reporting for enhancing cancer treatments. Furthermore, we propose a variety of frameworks and architectures to illustrate and support the functional IoT-based solution that is being considered or utilized in our proposed smart healthcare solution for cancer care services. Finally, it will be important to understand and discuss some security issues and operational challenges that have characterized the IoT-enabled healthcare system.
Vorheriger Artikel Internet of Things for smart living
Nächster Artikel Using IoT and smart monitoring devices to optimize the efficiency of large-scale distributed solar farms

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Literatur
1.
2.
3.
Baena-Canada, J. M., Estalella-Mendoza, S., Rosado-Varela, P., Exposito-Alvarez, I., Gonzalez-Guerrero, M., Diaz-Blanco, M. C., et al. (2012). Use of health-care services during chemotherapy for breast cancer. European Journal of Cancer, 48, 3328–3334.CrossRef
4.
Cancer Research Investment in Canada. (2015). Canadian Cancer research alliance, December 2017.
5.
Dimitrov, D. V. (2016). Medical internet of things and big data in healthcare. Healthcare Informatics Research, 22(3), 156–163.CrossRef
6.
Dineshkumar, P., SenthilKumar, R., Sujatha, K., Ponmagal, R. S., & Rajavarman, V. N. (2016). Big Data analytics of IoT based health care monitoring system. In IEEE Uttar Pradesh section international conference on electrical, computer & electronics engineering (UPCON) (pp. 55–60)
7.
Fan, Y. J., Yin, Y. H., Xu, L. D., Zeng, Y., & Wu, F. (2014). IoT-based smart rehabilitation system. IEEE Transactions on Industrial Informatics, 10(2), 1568–1577.CrossRef
8.
Hanes, D., Salgueiro, G., Grossetete, P., Barton, R., & Henry, J. (2017). IoT fundamentals: Networking technologies, protocols, and use cases for the internet of things. Indianapolis, USA: Cisco Press.
9.
10.
Kaplan, W. (2004). Priority medicines for Europe and the world “A Public Health Approach to Innovation”. Background paper 6.5 of cancer and cancer therapeutics.
11.
Lakkis, S., & Elshakankiri, M. (2017). IoT based emergency and operational services in medical care systems. In 13th CTTE/CMI conference on internet of things—business models, users, & networks, Denmark
12.
Lewis, W. (2009). LAN switching and wireless. CCNA exploration companion guide. Indianapolis, Indiana, USA: Cisco Press.
13.
Liu, W. (2016). Robustness quantification and worst-case robust optimization in intensity-modulated proton therapy. In A. K. Rath & N. Sahoo (Eds.), Particle radiotherapy: Emerging technology for treatment of cancer (pp. 139–155). New Delhi: Springer.
14.
Lu, D., & Liu, T. (2011). The application of IoT in medical system. In IEEE International Symposium on IT in Medicine and Education (No. 1, pp. 272–275)
15.
16.
17.
Odeh, B., Kayyali, R., Nabhani-Gebara, S., & Philip, N. (2015). Optimizing cancer care through mobile health. Support Care Cancer, 23, 2183–2188.CrossRef
18.
Onasanya, A., & Elshakankiri, M. (2017). IoT implementation for cancer care & business analytics/cloud services. In Proceedings of the 10th IEEE/ACM international conference on utility & cloud computing (UCC 2017) (pp. 205–206)
19.
Onasanya, A., & Elshakankiri, M. (2018). Secured cancer care and cloud services in IoT/WSN based medical systems. In A. K. Pathan, Z. M. Fadlullah, & G. Mohamed (Eds.), Proceedings of second EAI international conference on smart grid and internet of things (SgIoT 2018). Lecture notes of the institute for computer sciences, social informatics and telecommunications engineering (LNICST) (Vol. 256, pp. 23–35). Springer Nature.
20.
Patel, S., Park, H., Bonato, P., Chan, L., & Rodgers, M. (2012). A review of wearable sensors and systems with application in rehabilitation. Journal of NeuroEngineering and Rehabilitation, 9, 21.CrossRef
21.
Pawar, A. B., & Ghumbre, S. (2016). A survey on IoT applications, security challenges and counter measures. In International conference on computing, analytics and security trends (CAST) (pp. 294–299)
22.
Rahmani, A., Thanigaivelan, N. K., Gia, T. N., Granados, J., Negash, B., Liljeberg, P., & Tenhunen, H. (2015). Smart e-health gateway: Bringing intelligence to Internet-of-Things based ubiquitous healthcare systems. In 12th annual IEEE consumer communications and networking conference (CCNC) (pp. 826–834)
23.
Riazul Islam, S. M., Kwak, D., Kabir, H., Hossain, M., & Kwak, K. S. (2015). The IoT for health care: A comprehensive survey. IEEE Access, 3, 678–708.CrossRef
24.
Satija, U., Ramkumar, B., & Sabarimalai Manikandan, M. (2017). Real-time signal quality-aware ECG telemetry system for IoT-based health care monitoring. IEEE Internet of Things Journal, 4(3), 815–823.CrossRef
25.
Sell, S. (2004). Stem cell origin of cancer and differentiation therapy. Critical Reviews in Oncology Hematology, 51(1), 1–28.CrossRef
26.
Sohn, S. Y., Bae, M., Lee, D. K. R., & Kim, H. (2015). Alarm system for elder patients medication with IoT-enabled pill bottle. In International conference on information and communication technology convergence (ICTC) (pp. 59–61)
27.
Sohraby, K., Minoli, D., & Znati, T. (2007). Wireless sensor networks: Technology, protocols, & applications. Hoboken, NJ: Wiley.CrossRef
28.
Stackowiak, R., Licht, A., Mantha, V., & Nagode, L. (2015). Big data and the IoT. Enterprise information architecture for a new age. Ontario: Apress.
29.
30.
Yao, J. T., & Onasanya, A. (2017). Recent development of rough computing: A scientometrics view. In G. Wang, et al. (Eds.), Thriving rough sets, studies in computational intelligence (Vol. 708, pp. 21–45). Switzerland: Springer Nature.CrossRef
Metadaten
Titel
Smart integrated IoT healthcare system for cancer care
verfasst von
Adeniyi Onasanya
Maher Elshakankiri
Publikationsdatum
02.01.2019
Verlag
Springer US
Erschienen in
Wireless Networks / Ausgabe 6/2021
Print ISSN: 1022-0038
Elektronische ISSN: 1572-8196
DOI
https://doi.org/10.1007/s11276-018-01932-1

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