The Internet of Things (IoT) is a
technology that is undergoing rapid evolution. The concept of the Internet of Things (IoT) revolves around the interconnection of various computing devices, mechanical and digital machinery, items, animals, and individuals through the utilization of sensors and actuators. This interconnected network facilitates the collection of data, ultimately leading to advancements in areas such as wellness, productivity, and efficiency (Alazzam et al., 2021).
The utilization of Internet of Things (IoT) enabled remote patient health monitoring is a highly promising technological intervention that is currently emerging to address the global health equity gap. The application of the Internet of Things (IoT) has the potential to enhance healthcare and safety measures. The integration of our bodies with the Internet enables access to a wide range of data pertaining to our lifestyle, physical and mental capabilities, and living conditions. Healthcare providers can remotely and continuously check the health of human subjects. The collected data may additionally provide support for evidence-based interventions in the areas of disease, injury, safety prevention, early detection, and treatment (Alazzam et al., 2021).
Machine learning algorithms are utilized to explore vast quantities of health-related data, conduct analysis, and make predictions regarding outcomes for particular patients. These algorithms employ a distinct client identification and aid in facilitating clinical decision-making processes. The primary focus in the transfer and tracking of medical data transactions lies in the significance of security and privacy challenges (Alhameed et al., 2022).
The efficacy of machine learning is seen in its ability to identify diseases and facilitate categorization. The process of categorizing health data facilitates expeditious decision-making for surgeons inside the clinical setting. A machine-learning algorithm has been created to identify dangerous tumors in mammograms. Machine learning has significant applications in the healthcare sector, enabling the analysis of numerous data points to derive conclusions, provide timely risk assessments, allocate resources, and facilitate various other functions (Ashu & Sharma, 2021).
Undoubtedly, telemedicine represents a transformative paradigm shift within the realm of healthcare. However, due to the rapid progress of technology, there has been a substantial increase in the generation of data. The proper deployment of telemedicine is contingent upon the consideration of security as a determining factor. The security issue in question encompasses (AAA) which stands for authorization, authentication, and accounting. The preservation of privacy and the safeguarding of information security are crucial concerns in contemporary society (Ashu & Sharma, 2021).
Telemedicine systems greatly rely on the presence of these components, as they are deemed essential. Additionally, it is imperative that the information is deemed reliable. In telemedicine systems, the acquisition of comprehensive and precise information is crucial. When considering the passage of time, it is crucial to take it into consideration, the ethical issues resulting from the rapid proliferation of internet usage were examined by the researcher. An issue arises at the phase of safeguarding personal privacy. Personal information refers to details about an individual that can be used to identify or distinguish them from others (Ashu & Sharma, 2021).
The data must be securely maintained in a database inaccessible to unauthorized individuals. Cloud computing platforms have demonstrated compatibility with Voice over Internet Protocol (VoIP) protocols, resulting in cost reduction benefits. The Self-Consistency Theory (SCT) offered the connectivity between patients residing in rural areas and medical professionals with specialized expertise. A wearable device designed to monitor and collect physiological data from the human body.
Healthcare data possesses a high level of sensitivity, with privacy and integrity being fundamental characteristics. Therefore, in the field of healthcare, ensuring the security of big data is of utmost importance. In order to optimize service delivery, it is imperative that medical practitioners to possess expedient and reliable means of accessing a patient’s comprehensive medical records.
There exist viable security measures that can enhance the capacity of big data in a meaningful manner. The healthcare sector operates inside a highly regulated framework. The utilization of big data analytics within the healthcare sector. The activities encompass the processes of collecting, storing, retrieving, disseminating, and analyzing the accumulated data. The process of arranging the data after extraction (Ashu & Sharma, 2021).
Alazzam, M. B., Alassery, F., & Almulihi, A. (2021). A Novel Smart Healthcare Monitoring System Using Machine Learning and the Internet of Things. Wireless Communications and Mobile Computing, 2021, 1–7. https://doi.org/10.1155/2021/5078799
Alhameed, M., S. Shanthi, Perumal, U., & Fathe Jeribi. (2022). Remote Patient Monitoring: Data Sharing and Prediction Using Machine Learning. 317–337. https://doi.org/10.1002/9781119841937.ch13
Ashu, A., & Sharma, S. (2021, January 1). Chapter 6 – A novel approach of telemedicine for managing fetal condition based on machine learning technology from IoT-based wearable medical device (K. K. Singh, M. Elhoseny, A. Singh, & A. A. Elngar, Eds.).
File Discussion 11- Machine Learning and the Internet of Medical Things in Healthcare.docx (16.413 KB)
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Please read the following article:
Ashu, A., & Sharma, S. (2021). Chapter 6 – A novel approach of telemedicine for managing fetal condition based on machine learning technology from IoT-based wearable medical devices. Machine Learning and the Internet of Medical Things in Healthcare, 113–134.
Discuss machine learning and how this could be applied to remote patient monitoring for patients in the Kingdom of Saudi Arabia. What challenges might biomedical researchers encounter when using these emerging technologies and analyzing the data gathered from them.
Embed course material concepts, principles, and theories (which require supporting citations) in your initial response along with at least one scholarly, peer-reviewed journal article. Keep in mind that these scholarly references can be found in the Saudi Digital Library by conducting an advanced search specific to scholarly references. Use Saudi Electronic University academic writing standards and APA style guidelines.
The Internet of Things (IoT) is a