Blockchain-based intelligent medical IoT healthcare system
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Published
Oct 7, 2021
Sachikanta Dash
Rabinarayan Panda Sasmita Padhy
https://orcid.org/0000-0002-0807-4624
Rabinarayan Panda Sasmita Padhy
Abstract
It has seen an unavoidable interest in medical services difficulties, as well as faster and more secure patient help. Using new pattern improvements in the healthcare field could provide additional options for dealing with patients' health records while also improving health quality. Researchers are seeking for permanent and simple solutions to remotely monitor patients' records using a patient monitor system. One of these ways is the use of the Internet of Things (IoT), which allows for remote patient monitoring by healthcare providers. However, as the number of IoT devices grows, privacy and security concerns have developed. Another privacy concern is the disclosure of patient information. According to several research, blockchain technology is a trustworthy network that ensures the privacy and security of patient data sent through IoT devices. Following that, this section examines IoT advancement in the healthcare sector as a current exploration and advantageous trend. This research aims to present a new framework that works with the restoration and transfer of medical information utilising blockchain via Django by combining health records with patient monitoring systems that communicate data with various peers via smart contracts.
How to Cite
Dash, S., Panda, R., & Padhy, S. . (2021). Blockchain-based intelligent medical IoT healthcare system. SPAST Abstracts, 1(01). Retrieved from https://spast.org/techrep/article/view/2190
Article Details
Keywords
Blockchain, MIoT, Healthcare, Smart contract
References
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[2] Ehrenstein V, Kharrazi H, Lehmann H, Taylor CO. 2019. Obtaining Data From Electronic Health Records. Tools and Technologies for Registry Interoperability, Registries for Evaluating PatientOutcomes: A User’s Guide. p. 1–92.
https://www.ncbi.nlm.nih.gov/books/NBK551878/
[3] Keshta I, Odeh A. 2020. Security and Privacy of Electronic Health Records: Concerns ` and Challenges.Egypt Informatics J. pp. 1-7.
[4] Engelhardt MA. 2017. Hitching Healthcare to the Chain: An Introduction to Blockchain Technology in the Healthcare Sector. Technol Innov Manag Rev. 7(10):22–34.
[5] Okuonzi SA. 2004. Political Economy of Health with Reference to Primary Health. Heal Policy Dev.2(1):1–5.
[6] Bernstein A, Hing E, Moss A, Allen K, Siller A, Tiggle R. 2003. Health care in America: Trends inUtilization. National Center for Health Statistics.
https://www.cdc.gov/nchs/data/misc/healthcare.pdf.
[7] Kalla A, Prombage P, Liyanage M. 2020 "Introduction to IoT," in IoT Security: Advances in Authentication , Wiley, pp.1-25, doi: 10.1002/9781119527978.ch1.
[8] Patel K, Patel S. 2016. Internet of Things-IoT: Definition, Characteristics, Architecture, Enabling Technologies, Application & Future Challenges. Int J Eng Sci Comput.6(5):6122-6131.
[9] Khan M.A., Algarni F., Quasim M.T. (2020) Decentralised Internet of Things. In: Khan M., Quasim M., Algarni F., Alharthi A. (eds) Decentralised Internet of Things. Studies in Big Data, vol 71. Springer, Cham. https://doi.org/10.1007/978-3-030-38677-1_1
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[11] Roy A, Zalzala AMS, Kumar A. Disruption of things: A model to facilitate adoption of IoT-based innovations by the urban poor. Procedia Engineering. 2016;159:199-209
[12] Sallabi F, Shuaib K. Internet of things network management system architecture for smart healthcare. In: 2016 Sixth International Conference on Digital Information and Communication Technology and its Applications (DICTAP). 2016. pp. 165-170
[13] Khamparia, Aditya & Singh, Prakash & Rani, Poonam & Samanta, Debabrata & Khanna, Ashish & Bhushan, Bharat. (2020). An internet of health things‐driven deep learning framework for detection and classification of skin cancer using transfer learning. Transactions on Emerging Telecommunications Technologies. 32. 10.1002/ett.3963
[14] Ullah K, Shah MA, Zhang S. Effective ways to use internet of things in the field of medical and smart health care. In: 2016 International Conference on Intelligent Systems Engineering (ICISE). Islamabad, Pakistanpp: IEEE; 2016:372-379
[15] Sharma, Nikhil & Kaushik, Ila & Bhushan, Bharat & Gautam, Siddharth & Khamparia, Aditya. (2020). Applicability of WSN and Biometric Models in the Field of Healthcare. 10.4018/978-1-7998-5068-7.ch016
[16] Keh HC et al. Integrating unified communications and internet of M-health things with micro wireless physiological sensors. Journal of Applied Science and Engineering. 2014;17(3):319-328
[17] Santos A, Macedo J, Costa A, Nicolau MJ. Internet of things and smart objects for M-health monitoring and control. Procedia Technology. 2014;16:1351-1360
[18] Bhushan, B., Sahoo, C., Sinha, P. et al. Unification of Blockchain and Internet of Things (BIoT): requirements, working model, challenges and future directions. Wireless Netw 27, 55–90 (2021). https://doi.org/10.1007/s11276-020-02445-6
[19] Kumar, A., Abhishek, K., Bhushan, B. et al. Secure access control for manufacturing sector with application of ethereum blockchain. Peer-to-Peer Netw. Appl. (2021). https://doi.org/10.1007/s12083-021-01108-3
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[21] Sofia B. 2016. Blockchain-Enabled Smart Contracts : Applications and Challenges. arXiv Prepr arXiv181004699v2.1–3.
[22] Luck S. 2017 . Design and Implementation of a Smart Contract Creator Framework for IoT Devices: Study project, CSG@Ifl, University of Zurich, Switzerland, Supervosors: Sina Rafati, Thomas Bocek, Burkhard Stiller. Available from: https://www.csg.uzh.ch/csg/en/.
[23] Dash S., Gantayat P.K., Das R.K. (2021) Blockchain Technology in Healthcare: Opportunities and Challenges. In: Panda S.K., Jena A.K., Swain S.K., Satapathy S.C. (eds) Blockchain Technology: Applications and Challenges. Intelligent Systems Reference Library, vol 203. Springer, Cham. https://doi.org/10.1007/978-3-030-69395-4_6
[24] Griggs KN, Ossipova O, Kohlios CP, Baccarini AN, Howson EA, Hayajneh T. 2018. Healthcare Blockchain System Using Smart Contracts for Secure Automated Remote Patient Monitoring. J Med Syst. 42(7):8.
[25] Dwivedi AD, Srivastava G, Dhar S, Singh R. 2019. A Decentralized Privacy-Preserving Healthcare Blockchain for IoT. Sensors (Switzerland).19(2):1–17.
[26] Azaria A, Ekblaw A, Vieira T, Lippman A. 2016. MedRec: Using Blockchain for Medical Data Access and Permission Management. Proceedings - 2016 2nd International Conference on Open and Big Data, OBD 2016. p. 25–30.
[27] Zorzo AF, Nunes HC, Lunardi RC, Michelin RA, Kanhere SS. 2018. Dependable IoT Using Blockchain-Based Technology. In: Proceedings - 8th Latin-American Symposium on Dependable Computing, LADC. p. 1–19.
[28] Usmana M, Usman Q. 2019. Secure Electronic Medical Records Storage and Sharing Using Blockchain Technology. In: 2019 International Conference on Identification, Information and Knowledge in the Internet of 2019 International Conference on Identification, Information and Knowledge in the Internet of Things (IIKI2019). p. 321--327.
[29] Dorri A, Kanhere SS, Jurdak R. 2016. Blockchain in Internet of Things: Challenges and Solutions. arXiv Prepr arXiv160805187.129–37..
[30] Irving G, Holden J. 2016. How Blockchain-timestamped Protocols Could Improve the Trustworthiness of Medical Science. F1000Research.5(May):1-5.
[31] Malamud N. 2020. nyc-reach-members-1.csv. data.world. Source: https://data.cityofnewyork.us/d/7btz-mnc8
https://data.world/city-of-ny/7btz-mnc8/workspace/file?filename=nyc-reach-members-1.csv
[32] Shi, K., Schellenberger, S., Will, C. et al. A dataset of radar-recorded heart sounds and vital signs including synchronised reference sensor signals. Sci Data 7, 50 (2020). https://doi.org/10.1038/s41597-020-0390-1.
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GE3- Computers & Information Technology