Development of IoT-based mhealth framework for various cases of heart disease patients

Albahri, A. S.; Zaidan, A. A.; Albahri, O. S.; Zaidan, B. B.; Shareef, Ali. H.; Alwan, Jwan K.; Hamid, Rula A.; Aljbory, M. T.; Jasim, Ali Najm

doi:10.1007/s12553-021-00579-x

Cited by 37 publications

(11 citation statements)

References 134 publications

(160 reference statements)

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“…In addition, a checklist benchmarking procedure similar to other published studies [ 24 , 25 ], is used to evaluate and compare our study results with the relevant key studies in the field. In such a process, it is important to provide checklist benchmarking that contains comparison points for evaluation of the currently presented results according to various characteristics.…”

Section: Methodsmentioning

confidence: 99%

Physicians’ Perspective of Telemedicine Regulating Guidelines and Ethical Aspects: A Saudi Experience

Kheir

Alnufaili

Aldossari

et al. 2022

International Journal of Telemedicine and Applications

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Background and Objective. The rapid emergence and evolution of digital technology have greatly improved the quality and accessibility of healthcare services worldwide. Nonetheless, the literature is scarce regarding the ethical and legal aspects of telemedicine and social media (SM) use in healthcare. Thus, this paper examines physicians’ perceptions about the use of telemedicine in patient care, their awareness of guidelines for health-related use of telemedicine, and their knowledge, attitude, and practice of the ethical and legal regulations governing the use of telemedicine in the healthcare context. Methods. This was an observational cross-sectional study conducted among physicians working at the College of Medicine, Imam Abdulrahman Bin Faisal University (IAU), and its affiliated academic tertiary hospital, King Fahad Hospital of the University (KFHU), Eastern province-KSA. Data were collected between August 2019 and March 2020 via a structured, pretested, self-administered questionnaire distributed to 220 eligible physicians at KFHU. A final sample of 101 physicians completed our survey. Collected data was coded and analysed using SPSS, and the results presented as frequencies, percentages, and summary statistics. Results. Among our respondents, 62 (61.4%) were males, 46 (45.5%) were in the age group of 35 to 44 years, and 62 (61.3%) were Saudi. Two-thirds of physicians (58 (57.4%)) use smart devices in healthcare delivery, and 51 (50.5%) are satisfied with this use. A minority (21 (20.8%)) knew about telemedicine guidelines, 8 (7.9%) had encountered legal issues related to telemedicine use, and 52 (51.5%) were doubtful about patients’ readiness for virtual care. Regarding physicians’ awareness of the ethical aspects regulating the use of social media and medical apps in patient care, only 44 (45.3%) were aware of the proper reporting system if they found accounts sharing unreliable information. Nevertheless, the majority (91 (92.9%)) agreed it is essential for healthcare providers to report such accounts. Concerning physicians’ awareness of the rules and regulations of online self-promotion, the majority of our respondents were unsure or unaware of such regulations (46 (45.6%) and 18 (17.8%)), respectively. Nonetheless, 67 (66.3%) of the physicians would not pay SM influencers to advertise for them. Conclusion. Two-thirds of our physicians use smart devices in healthcare delivery, with 1 in 13 having encountered related legal issues. Nonetheless, only a minority was aware of telemedicine use regulating guidelines, including physicians’ online self-promotion regulations. These results highlight the necessity of targeted physicians’ training on telemedicine use related guidelines, thereby ensuring the safety of both patients and healthcare professionals and the optimum utilization of online health-related interactions.

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Section: Methodsmentioning

confidence: 99%

Physicians’ Perspective of Telemedicine Regulating Guidelines and Ethical Aspects: A Saudi Experience

Kheir

Alnufaili

Aldossari

et al. 2022

International Journal of Telemedicine and Applications

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“…In terms of application, intelligent teaching and learning activities appeared earlier in some higher education institutions in the United States, such as Carnegie Mellon University Saddleback College, California, Pennsylvania State University, Austin Peay State University, and so on. Students in these universities can use smart terminals to carry out learning activities anytime and anywhere [ 4 ]. In a smart teaching IoT environment, student behavior and data in the smart campus environment are stored in the IoT cloud, and teachers, course managers, or research scholars, for example, can directly or indirectly access the data from the cloud to develop smart, personalized teaching and learning activities for students [ 5 ].…”

Section: Related Workmentioning

confidence: 99%

A New Model of Multiple Intelligence for Teaching English Informatics in the IoT Scenario

Ning¹

2022

Computational Intelligence and Neuroscience

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This paper presents an in-depth study on the new mode of intelligent multidistance teaching of English with the help of virtual scenes of the Internet of Things. The virtual simulation technology is integrated into the traditional IoT teaching, and the professional education of IoT application technology is tapped; from the analysis of the current situation of IoT skills teaching and the feasibility of carrying out virtual simulation teaching, the “four-driven” design principle is proposed, and the teaching design is combined with the virtual simulation technology teaching, and the case design of the skill-based virtual simulation technology teaching of experience, demonstration, interaction, and assessment in the virtual environment is given. This paper presents the case design of virtual simulation teaching in a virtual environment with experience, demonstration, interaction, and assessment, and the multidimensional effect evaluation of IoT skills teaching and researches the application of virtual simulation to IoT skills teaching through the above four aspects. In this paper, a framework for distributed collaborative computing is built using an asynchronous message queue MQ, which enables multiple nodes to serve a task through task splitting. The DeepCluster module can effectively cluster the time series by deep representation learning and obtain the typical variation of time series patterns. In the task offloading module of the framework, a task offloading decision algorithm based on a value-constrained multi 0–1 backpacking model is designed to minimize task processing latency with an optimal offloading solution. The system test results show that the proposed distributed computing framework and offloading decision algorithm can significantly reduce the processing latency of large tasks.

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“…ElSaadany et al [19] presented a diagnostic scheme utilizing IoT with a low energy Bluetooth communication module and multiple sensors that gathered data of heart rates along with body temperature. Other such wearable sensors systems and IoT-based healthcare assistive systems for monitoring cardiac health were also designed in multiple works [20], [21], [22]. Different studies analyzed PCG signals and different AI-based techniques were used to develop some cardiac health screening systems [23], [24], [25].…”

Section: A Related Prior Researchmentioning

confidence: 99%

AI-CardioCare: Artificial Intelligence Based Device for Cardiac Health Monitoring

Joshi

Khan

Pathak

et al. 2022

IEEE Trans. Human-Mach. Syst.

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Cardiac disorders are one of the leading causes of mortality around the globe and early diagnosis of heart diseases can be beneficial for its mitigation. In this article, an artificial intelligence (AI) based device has been proposed, which allows for an automatic and real-time diagnosis of cardiac diseases based on deep learning techniques. The heart sound (phonocardiogram) signal is acquired by a customized designed stethoscope and the signal is processed before analysis using AI methods for the classification of four major cardiac diseases (Aortic Stenosis, Mitral Regurgitation, Mitral Stenosis, and Mitral Valve Prolapse). Two deep learningbased neural networks, one-dimensional (1-D) convolutional neural network (CNN) and spectrogram based 2-D-CNN models from the analysis of these signals has been integrated with a low-cost singleboard processor to make a standalone device. All data processing is done in a single hardware setup and user interface is provided allowing the user to control the data accessibility and visibility to generate the diagnostic report. As a result, the developed device has demonstrated to be a valuable low-cost diagnostic tool for both medical professionals and personal usage at home.

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Development of IoT-based mhealth framework for various cases of heart disease patients

Cited by 37 publications

References 134 publications

Physicians’ Perspective of Telemedicine Regulating Guidelines and Ethical Aspects: A Saudi Experience

Physicians’ Perspective of Telemedicine Regulating Guidelines and Ethical Aspects: A Saudi Experience

A New Model of Multiple Intelligence for Teaching English Informatics in the IoT Scenario

AI-CardioCare: Artificial Intelligence Based Device for Cardiac Health Monitoring

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