The Integration and Implementation of the Healthcare Internet of Things and Its Comprehensive Analysis

Adilakshmamma .T1,*, Meharunnisa S. P.2, Anusha Sreeram3, Rajat Saini4, Maryanka5, Shikhar Gupta6

 

1Associate Professor, Computer Science, Silicon City College, India

2Associate Professor, Electronics & Instrumentation Engineering, Dayananda Sagar College of Engineering, India

3Assistant Professor, Operations & IT, ICFAI Business School (A Constituent of IFHE University), Hyderabad, India

4Centre of Research Impact and Outcome, Chitkara University, Rajpura- 140417, Punjab, India

5Assistant Professor, Department of Law, Symbiosis Law School, Noida-Symbiosis International (Deemed University), Pune, India

6Chitkara Centre for Research and Development, Chitkara University, Himachal Pradesh-174103, India

 

Emails: adilakshmi.a.t@gmail.com; meharunnisa@dayanandasagar.edu; seeramanusha@gmail.com; rajat.saini.orp@chitkara.edu.in; maryanka@symlaw.edu.in; shikhar.gupta.orp@chitkara.edu.in

Text Box: Abstract The Healthcare Internet of Things (HIoT) is driving a paradigm shift in the healthcare business by providing safe, fast, and networked healthcare solutions. We examined the advantages, disadvantages, and potential future of the Internet of Things (IoT) in the medical industry. Scalability, accuracy, real-time monitoring, data security, and interoperability were among the top priorities. The study employed strict assessment criteria to compare the proposed HIoT technology to existing approaches. This article begins with an overview of the IoT in healthcare. This study compares and contrasts the proposed HIoT strategy with more conventional approaches. We applied both methodologies in this study, each with its own benefits and drawbacks. We evaluated the responses using the F1-score, recall, accuracy, and precision. The inquiry uncovered an interesting story. The proposed HIoT method outperformed traditional techniques in all assessment parameters. In terms of accuracy, the recommended solution outperformed "Block chain Encryption" (8.4) and "Data Validation" (7.9). Additionally, it received an 8.9 for real-time monitoring and an 8.8 for interoperability. Another benefit of the strategy was a reduction in medical errors. The high data accuracy score of 9.1 demonstrates this. The findings illustrate the potential transformation of healthcare delivery through the Internet of Things. According to the study, the proposed strategy might increase healthcare's efficacy, efficiency, and patient-centeredness. The Internet of Things has opened up exciting new opportunities in healthcare. These options may transform medical care and patient outcomes.


 


 


Received: February 22, 2024 Revised: May 01, 2024 Accepted: July 24, 2024

 

Keywords: AI; Data Security; Healthcare; HIoT; Interoperability; Machine Learning; Patient Care; Real-Time Monitoring; Scalability; Technology