An IoT Based Healthcare System for Remote Patient Monitoring towards Real Time Treatment

Authors

  • Shivani Yadao, Nandita Manvar, Masarath Saba, D. Shravani

Keywords:

Internet of Things, Machine Learning, Remote Patient Monitoring, Healthcare, Artificial Intelligence

Abstract

There is a chance for extremely intelligent and clever IoT-based use cases in the modern period thanks to developments in ICTs like Cyber-Physical Systems (CPS), 5G cellular technology, and the Internet of Things (IoT). As IoT enables Ambient Assisted Living (AAL), Mobile Health (mHealth), and Electronic Health (eHealth), one such use case with a significant social impact is healthcare. People devote a large portion of their income to their health. In addition to resulting in patient deaths, traditional healthcare services are prone to delays, waste of time, and financial loss. When used in conjunction with the IoT's intelligence and prediction capabilities, regular Remote Patient Monitoring (RPM) at home, work, or at a hospital can help individuals who specifically require it overcome obstacles presented by traditional healthcare facilities. Wearable technology, sensor networks, and other digital infrastructure are used in IoT-based RPM can serve as a precursory warning system for approaching situations that, if ignored or care is postponed, could result in serious health problems or even patient death. Doctors can receive real-time patient vital signs through wearable devices (biosensors) with IoT integration. That way, medical professionals can start treating patients right away. The term "RPM" refers to this occurrence, which has the potential to reduce wait times, save healthcare expenses, and enhance patient comfort and service quality. In order to implement a Remote Patient Monitoring System (RPMS) with data analytics capabilities, this paper aims to IoT and Artificial Intelligence (AI) enabled framework. We implemented RPM for data collection and proposed an algorithm for disease diagnosis. Our experimental results revealed that our method outperforms existing methods.

Downloads

Download data is not yet available.

References

Omar Cheikhrouhou, Khaleel Mershad, Faisal Jamil, Redowan Mahmud, Anis Koubaa and Sanaz Rahimi Moosavi. (2023). A lightweight blockchain and fog-enabled secure remote patient monitoring system. Elsevier., pp.1-32. https://doi.org/10.1016/j.iot.2023.100691

Sangeen Khan, Sehat Ullah, Habib Ullah Khan and Inam Ur Rehman. (2023). Digital-Twins-Based Internet of Robotic Things for Remote Health Monitoring of COVID-19 Patients. IEEE. 10(8), pp.16087 - 16098. http://DOI:10.1109/JIOT.2023.3267171

AkkaÅ, M. Alper; SOKULLU, Radosveta and Ertürk Ãetin, Hüseyin (2020). Healthcare and Patient Monitoring Using IoT. Internet of Things, 100173–. http://doi:10.1016/j.iot.2020.100173

Nada Y. Philip; Joel J. P. C. Rodrigues; Honggang Wang; Simon James Fong and Jia Chen; (2021). Internet of Things for In-Home Health Monitoring Systems: Current Advances, Challenges and Future Directions . IEEE Journal on Selected Areas in Communications. http://doi:10.1109/jsac.2020.3042421

Taiwo, Olutosin and Ezugwu, Absalom E. (2020). Smart healthcare support for remote patient monitoring during covid-19 quarantine. Informatics in Medicine Unlocked, 20, 100428–. http://doi:10.1016/j.imu.2020.100428

Griggs, Kristen N.; Ossipova, Olya; Kohlios, Christopher P.; Baccarini, Alessandro N.; Howson, Emily A. and Hayajneh, Thaier (2018). Healthcare Blockchain System Using Smart Contracts for Secure Automated Remote Patient Monitoring. Journal of Medical Systems, 42(7), 130–. http://doi:10.1007/s10916-018-0982-x

Kaur, Pavleen; Kumar, Ravinder and Kumar, Munish (2019). A healthcare monitoring system using random forest and internet of things (IoT). Multimedia Tools and Applications. http://doi:10.1007/s11042-019-7327-8

Kadhim, Kadhim Takleef; Alsahlany, Ali M.; Wadi, Salim Muhsin and Kadhum, Hussein T. (2020). An Overview of Patientâs Health Status Monitoring System Based on Internet of Things (IoT). Wireless Personal Communications. http://doi:10.1007/s11277-020-07474-0

Dhanvijay, Mrinai M. and Patil, Shailaja C. (2019). Internet of Things: A Survey of Enabling Technologies in Healthcare and its Applications. Computer Networks, S1389128619302695–. http://doi:10.1016/j.comnet.2019.03.006

Al-khafajiy, Mohammed; Baker, Thar; Chalmers, Carl; Asim, Muhammad; Kolivand, Hoshang; Fahim, Muhammad and Waraich, Atif (2019). Remote health monitoring of elderly through wearable sensors. Multimedia Tools and Applications. http://doi:10.1007/s11042-018-7134-7

Souri, Alireza; Ghafour, Marwan Yassin; Ahmed, Aram Mahmood; Safara, Fatemeh; Yamini, Ali and Hoseyninezhad, Mahdi (2020). A new machine learning-based healthcare monitoring model for studentâs condition diagnosis in Internet of Things environment. Soft Computing. http://doi:10.1007/s00500-020-05003-6

Din, Ikram Ud; Guizani, Mohsen; Rodrigues, Joel J.P.C.; Hassan, Suhaidi and Korotaev, Valery V. (2019). Machine learning in the Internet of Things: Designed techniques for smart cities. Future Generation Computer Systems, S0167739X19304030–. http://doi:10.1016/j.future.2019.04.017

Al-Dhief, Fahad Taha; Latiff, Nurul MurAzzah Abdul; Malik, Nik Noordini Nik Abd; Sabri, Naseer; Baki, Marina Mat; Albadr, Musatafa Abbas Abbood and Mohammed, Mazin Abed (2020). A Survey of Voice Pathology Surveillance Systems Based on Internet of Things and Machine Learning Algorithms. IEEE Access, 1–1. http://doi:10.1109/ACCESS.2020.2984925

Nada Y. Philip; Joel J. P. C. Rodrigues; Honggang Wang; Simon James Fong and Jia Chen; (2021). Internet of Things for In-Home Health Monitoring Systems: Current Advances, Challenges and Future Directions . IEEE Journal on Selected Areas in Communications. http://doi:10.1109/jsac.2020.3042421

Klaib, Ahmad F.; Alsrehin, Nawaf O.; Melhem, Wasen Y.; Bashtawi, Haneen O. and Magableh, Aws A. (2020). Eye Tracking Algorithms, Techniques, Tools, and Applications with an Emphasis on Machine Learning and Internet of Things Technologies. Expert Systems with Applications, 114037–. http://doi:10.1016/j.eswa.2020.114037

Restuccia, Francesco; DrOro, Salvatore and Melodia, Tommaso (2018). Securing the Internet of Things in the Age of Machine Learning and Software-defined Networking. IEEE Internet of Things Journal, 1–1. http://doi:10.1109/JIOT.2018.2846040

Swayamsiddha, Swati and Mohanty, Chandana (2020). Application of cognitive Internet of Medical Things for COVID-19 pandemic. Diabetes & Metabolic Syndrome: Clinical Research & Reviews, S1871402120301831–. http://doi:10.1016/j.dsx.2020.06.014

Zeadally, Sherali and Bello, Oladayo (2019). Harnessing the Power of Internet of Things based Connectivity to Improve Healthcare. Internet of Things, 100074–. http://doi:10.1016/j.iot.2019.100074

Petrakis, Euripides G.M.; Sotiriadis, Stelios; Soultanopoulos, Theodoros; Renta, Pelagia Tsiachri; Buyya, Rajkumar and Bessis, Nik (2018). Internet of Things as a Service (iTaaS): Challenges and Solutions for Management of Sensor Data on the Cloud and the Fog. Internet of Things, S2542660518300350–. http://doi:10.1016/j.iot.2018.09.009

Dr. Saahirabanu Ahamed, Pankaj Bhatt, Dr. Sultanuddin SJ, Ranjan Walia, M.Akiful Haque and InayathAhamed S B. (2022). An Intelligent IoT enabled Health Care Surveillance using Machine Learning. IEEE., pp.1-5. http://DOI:10.1109/ACCAI53970.2022.9752648

Zhang, Tianle; Sodhro, Ali Hassan; Luo, Zongwei; Zahid, Noman; Nawaz, Muhammad Wasim; Pirbhulal, Sandeep and Muzammal, Muhammad (2020). A Joint Deep Learning and Internet of Medical Things Driven Framework for Elderly Patients. IEEE Access, 8, 75822–75832. http://doi:10.1109/ACCESS.2020.2989143

Nonita Sharma; Monika Mangla; Sachi Nandan Mohanty; Deepak Gupta; Prayag Tiwari; Mohammad Shorfuzzaman and Majdi Rawashdeh; (2021). A smart ontology-based IoT framework for remote patient monitoring . Biomedical Signal Processing and Control. http://doi:10.1016/j.bspc.2021.102717

Syed Umar Amin and M. Shamim Hossain; (2021). Edge Intelligence and Internet of Things in Healthcare: A Survey . IEEE Access. http://doi:10.1109/access.2020.3045115

Senthil Murugan Nagarajan; Ganesh Gopal Deverajan; Puspita Chatterjee; Waleed Alnumay and Uttam Ghosh; (2021). Effective task scheduling algorithm with deep learning for Internet of Health Things (IoHT) in sustainable smart cities . Sustainable Cities and Society. http://doi:10.1016/j.scs.2021.102945

Akhbarifar, Samira; Javadi, Hamid Haj Seyyed; Rahmani, Amir Masoud and Hosseinzadeh, Mehdi (2020). A secure remote health monitoring model for early disease diagnosis in cloud-based IoT environment. Personal and Ubiquitous Computing. http://doi:10.1007/s00779-020-01475-3

Hassan, Mohammed K.; El Desouky, Ali I.; Elghamrawy, Sally M. and Sarhan, Amany M. (2018). Intelligent hybrid remote patient-monitoring model with cloud-based framework for knowledge discovery. Computers & Electrical Engineering, S0045790617327222–. http://doi:10.1016/j.compeleceng.2018.02.032

Messaoud, Seifeddine; Bradai, Abbas; Bukhari, Syed Hashim Raza; Qung, Pham Tran Anh; Ahmed, Olfa Ben and Atri, Mohamed (2020). A Survey on Machine Learning in Internet of Things: Algorithms, Strategies, and Applications. Internet of Things, 100314–. http://doi:10.1016/j.iot.2020.100314

Ahmed Barnawi; Prateek Chhikara; Rajkumar Tekchandani; Neeraj Kumar and Bander Alzahrani; (2021). Artificial intelligence-enabled Internet of Things-based system for COVID-19 screening using aerial thermal imaging . Future Generation Computer Systems. http://doi:10.1016/j.future.2021.05.019

Pathinarupothi, Rahul Krishnan; Durga, P and Rangan, Ekanath Srihari (2018). IoT Based Smart Edge for Global Health: Remote Monitoring with Severity Detection and Alerts Transmission. IEEE Internet of Things Journal, 1–1. http://doi:10.1109/JIOT.2018.2870068

Sheng, Teoh Ji; Islam, Mohammad Shahidul; Misran, Norbahiah; Baharuddin, Mohd Hafiz; Arshad, Haslina; Islam, Md. Rashedul; Chowdhury, Muhammad E. H.; Rmili, Hatem and Islam, Mohammad Tariqul (2020). An Internet of Things Based Smart Waste Management System Using LoRa and Tensorflow Deep Learning Model. IEEE Access, 8, 148793–148811. Http://doi:10.1109/ACCESS.2020.3016255

Porambage, P., Okwuibe, J., Liyanage, M., Ylianttila, M., &Taleb, T. (2018). Survey on Multi-Access Edge Computing for Internet of Things Realization. IEEE Communications Surveys & Tutorials, p1–32.

Popli, S., Jha, R. K., & Jain, S. (2018). A Survey on Energy Efficient Narrowband Internet of things (NBIoT): Architecture, Application and Challenges. IEEE Access, p1–36.

Khan, M. A. (2020). An IoT Framework for Heart Disease Prediction based on MDCNN Classifier. IEEE Access, 8, p34717–34727.

Shafique, K., Khawaja, B. A., Sabir, F., Qazi, S., &Mustaqim, M. (2020). Internet of Things (IoT) For Next-Generation Smart Systems: A Review of Current Challenges, Future Trends and Prospects for Emerging 5G-IoT Scenarios. IEEE Access, 8, p23022–23040.

Rodrigues, J. J. P. C., De Rezende Segundo, D. B., Junqueira, H. A., Sabino, M. H., Prince, R. M., Al-Muhtadi, J., & De Albuquerque, V. H. C. (2018). Enabling Technologies for the Internet of Health Things. IEEE Access, 6, p13129–13141.

S.K., L., Mohanty, S. N., S., S. R., Krishnamoorthy, S., J., U., & Shankar, K. (2019). Online clinical decision support system using optimal deep neural networks. Applied Soft Computing, 81, p1-10.

Amin, S. U., Hossain, M. S., Muhammad, G., Alhussein, M., & Rahman, M. A. (2019). Cognitive Smart Healthcare for Pathology Detection and Monitoring. IEEE Access, p1–12.

Wen, Z., Yang, R., Garraghan, P., Lin, T., Xu, J., &Rovatsos, M. (2017). Fog Orchestration for Internet of Things Services. IEEE Internet Computing, 21(2), p16–24.

Heart disease dataset. Collected from https://archive.ics.uci.edu/ml/datasets/Heart+Disease

Maldorad S, Weber R (2009) A wrapper method for feature selection using support vector. machines. Information Sciences 179:2208–2217.

Rice JA (2006) Mathematical Statistics and Data Analysis. Third Edition.

Kullback, S.; Leibler, R.A. (1951). "On Information and Sufficiency". Annals of Mathematical Statistics 22 (1): 79–86.

Downloads

Published

12.06.2024

How to Cite

Shivani Yadao. (2024). An IoT Based Healthcare System for Remote Patient Monitoring towards Real Time Treatment. International Journal of Intelligent Systems and Applications in Engineering, 12(4), 2974 –. Retrieved from https://www.ijisae.org/index.php/IJISAE/article/view/6783

Issue

Vol. 12 No. 4 (2024)

Section

Research Article

License

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

All papers should be submitted electronically. All submitted manuscripts must be original work that is not under submission at another journal or under consideration for publication in another form, such as a monograph or chapter of a book. Authors of submitted papers are obligated not to submit their paper for publication elsewhere until an editorial decision is rendered on their submission. Further, authors of accepted papers are prohibited from publishing the results in other publications that appear before the paper is published in the Journal unless they receive approval for doing so from the Editor-In-Chief.

IJISAE open access articles are licensed under a Creative Commons Attribution-ShareAlike 4.0 International License. This license lets the audience to give appropriate credit, provide a link to the license, and indicate if changes were made and if they remix, transform, or build upon the material, they must distribute contributions under the same license as the original.