Wearable Technology Applications In Healthcare A Literature Review – Open Access Policy
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Wearable Technology Applications In Healthcare A Literature Review
Feature documents are the most advanced research with significant potential for high influence in this area. A feature document should be a significant original article that includes various techniques or approaches, is the prospects of future research directions and describes possible research applications.
5g Technology In Healthcare And Wearable Devices: A Review
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Author: Yolanda-María de-La-Fuente-Cleelesyolanda-María de-La-Fuente-Croles Scilints.org Google Scholar 1, Adrán-Jesús Ricoy- Canoadrián 1, *,, Antonio-Pedro Albín-Rodrín-Rodrígu- Rodrín-Rodrígu-rodilitiles Scilits.org Google Scholar 2, José Luis López-Ruizosé Luis López-Ruiz SciProfiles Scite.org Google Scholar 3 and Macarena Espinilla Laz ILS Sciltle Preprints. ORG Google Scholar 3
Application Received: September 20, 2022 / replaced: October 30, 2022 / Accepted: November 4, 2022 / Published: November 8, 2022
Employing Of Machine Learning And Wearable Devices In Healthcare System: Tasks And Challenges
(This article belongs to new trends of a special edition in smart social health systems reinforced by the Internet all things)
Currently, wearing technology is present in several areas that are aimed at meeting our needs in daily life, including improving our health, monitoring the health of patients, ensuring s -Safe people in the workplace or supporting athletes training. The purpose of this bibliometric analysis is to investigate and make scientific progress in wearing healthcare technologies, as well as identifying future challenges in this area and presenting some of the their solutions. In order to achieve this goal, a search was conducted in the last related literature in the Scopus database. Our results show that research can be divided into two periods: before 2013, they focused on the design and development of sensors and systems from an engineering perspective, and since 2013 focused on the -Use this technology for health and well-being-toing monitoring by taking, and in accordance with the goals of sustainable development, wherever possible. Our results show that the United States was a country with the highest publication rates, with 208 articles (34.7%). The University of California, Los Angeles, is an institution with the most research on this subject, 19 (3.1%). Sensors Journal (Switzerland) is a platform with the most research on this subject, 51 (8.5%) and has one of the highest citizens’ indicators, 1461, prioritization of the data collection area through the Wearing sensors, smart clothing and other forms of discrete collection physiological data.
Currently, eHATH HEALTH (EHEHT) is understood as an emerging field of medical computer science, which refers to the organization and provision of health services and information using the Internet and related technologies to improve Healthcare at all [1]. E-health, made up of a set of information and communication technologies (ICT), which are used to prevent, diagnose, treat, monitor and health management, is considered one of the growing health fields Faster, saving costs in healthcare systems as well as improving the effectiveness and effectiveness and efficiency of efficiency [2]. Since 2016, in the EB 142/20 report of the World Health Organization, the WHO Management Board has decided that the use of mobile health (MHALTH) is of fundamental importance-that is, free technologies Public health wires, especially in health monitoring. This report states the usefulness of Mhealth in the scope of increased access to information, services and health skills, and also explains how these tools promote positive changes in health behavior and the Disease Control [3].
Then, in 2018, which expanded the scope of mhealth to use other digital technologies for public health. The WHA71.7 resolution called on Member States to determine the design and use priorities of digital technologies as a mechanism for promoting universal health insurance and sustainable development goals [4, 5] .
Pdf) Survey On Applications Of Wearable Technology For Healthcare
This type of technology is perfectly suited to the goal of Sustainable Development (SDG) 3 (Health and Beer). Currently, there are many wear devices that can measure physiological data, such as heart rate, stages, blood oxygen levels, and even electrocardiograms. All of these data can be used to analyze user health and improve its well-being, allowing synergy with SDG 3.
The growing number of such devices is designed in a balanced manner by promoting repair, repair or recycling, using the cooperation economy, ensuring a second product period or contributing to the Round wear device system. In this case, it is in line with SDG 11 (balanced cities and communities) and SDG 12 (responsible production and consumption).
In this way, it has observed a notice progress in initiatives, such as the Action Plan in the European Commission for 2012-2020. Although it has already included a special approach to MHealth, this plan was more focused on offering patients and healthcare professionals for better access to the latest initiatives mentioned above [6] in connection with types other technologies and information (ehealth) technologies in the healthcare system-
This development appears against the backdrop of population aging, which can be described as a global phenomenon. Every country in the world experiences an exponential increase in the percentage of the elderly. While in 2019, the numbers indicate that there were around 703 million people aged 65 or older in the world, it is expected that by 2050 the number of older people will double, reaching 1500 million [7 ]. Wearing technologies (WT) are a set of devices that are an integral part of ensuring healthcare solutions for the world population characterized by significant demographic aging [8].
Hybrid Integration Of Wearable Devices For Physiological Monitoring
Recently, research trends have expanded and many studies have been conducted to assess the impact of WT in various populations and with many goals. Thus, depending on their role, we can find WT tests on the prevention of diseases and injuries [9, 10, 11, 12, 13]; Diagnostic support systems [14, 15, 16, 17]; Rehabilitation [18, 19, 20, 21, 22]; and mainly for health supervision and monitoring [23, 24].
Currently, the importance of precise control of physiological measurements, such as the variability of the heart rate and the beaten heart every minute, has become clear. Incorrect changes in these indicators can be an early sign of respiratory infections, such as those caused by the SARS-COV-2 virus (COVID-19) [25]. This information can be easily collected using biometric devices and smartphones for wrist to wear [26].
Similarly, more and more research on the use of wearable devices as supporting systems in the detection, diagnosis, procurement and processing of data related to disorders and chronic diseases in populations of various areas Age [27, 28, 29, 30].
Similarly, electrochemical and biological sensors are becoming increasingly important in the field of non-invasive or minimally invasive health monitoring. This can be mainly caused by certain specific characteristics, such as their performance, inseparable miniaturization, low costs and wide application [31]. In particular, to wear chemical sensors offer the possibility of monitoring chemical parameters (BIO) from the body’s bioflid. Another advantage of these systems is the possibility of directly transforming chemical information (BIO) into a digital field, which facilitates data interpretation by professionals from various fields [32]. Biological fluids provide clinically useful information about people’s health. In these non-invasive or minimally invasive samples, political fluids such as saliva, sweat, blood or urine were used [33, 34].
Wearable Technology And Visual Reality Application For Healthcare Systems
These biochemical activity data, collected from discrete and long-term monitoring, will be needed to control many chronic diseases such as diabetes, gout or Parkinson’s disease [35].
Due to this significant increase in scientific production in the field of apparel technology (WTH), it seems significantly a bibliometric study in order to describe the intellectual evolution of the structure of this area of knowledge Over time. Our goal is to analyze and draw scientific progress at WTH, identify future challenges in this area and present some of their solutions. More precisely, this article is trying to answer the following research questions:
Among the innovations to conduct this bibliometric study are: (1) they offer accurate bibliometric information that allows scientists to make conscious decisions regarding their research, such as: what work, in which magazines should publish and identify authors and identify identify authors or authors who identify
