IEEE Access | |
Key Wearable Device Technologies Parameters for Innovative Healthcare Delivery in B5G Network: A Review | |
Jae-Min Lee1  Simeon Okechukwu Ajakwe1  Dong-Seong Kim1  Cosmas Ifeanyi Nwakanma2  | |
[1] Department of IT Convergence Engineering, Kumoh National Institute of Technology, Gumi, South Korea;ICT Convergence Research Center, Kumoh National Institute of Technology, Gumi, South Korea; | |
关键词: Artificial intelligence; B5G network; healthcare; wearable; sensing; 5G network; | |
DOI : 10.1109/ACCESS.2022.3173643 | |
来源: DOAJ |
【 摘 要 】
The future of healthcare relies heavily on the connection of humans to intelligent devices via communication networks for rapid medical response. Hence, the evaluation of the performance of smart wearable devices as veritable tools for prompt, pervasive, and proactive healthcare delivery to end-users in response to socio-economic dynamics is imperative especially as 5G unwinds and B5G emerges. Despite the boom in the wearable market and significant improvement in communication technologies, the translation of wearable data from clinical trials to valuable assets for practical medical application is burdened with varying challenges. This review provides an introspective analysis of the performance of unobtrusive wearable devices based on identified key performance indicators (KPIs) in relation to evolving generation networks in achieving innovative health care delivery. A total of 2751 articles pooled from 5 digital libraries were screened and 16 were selected for this review using PRISMA. The identified E-DISC wearable KPIs; energy efficiency, discretization, intelligence, secured network, and customizable standards are currently engrossed with both reliability and real-time issues that undermine its performance, perceptibility, and acceptability by end-users. The transformation of smart wearable devices’ data from clinical trials into intangible resources for medical application is the fulcrum of innovative healthcare actualization. Further insight on how the identified challenges can be streamlined for smooth device alignment and transition to the emerging B5G network and its eco-friendly environment is also discussed. It is hoped that this will serve as a rallying point for research direction in translating prospective wearable solutions into a valuable resource for actualizing p-health.
【 授权许可】
Unknown