Estado de la Implementación de las Tecnologías Emergentes Aplicadas a la Salud y los Hospitales Inteligentes: Una Revisión De Literatura

Capacho Alfonso, Víctor Hugo; Soto Durán, Darío Enrique; Jiménez Builes, Jovani Alberto

dc.contributor.author	Capacho Alfonso, Víctor Hugo
dc.contributor.author	Soto Durán, Darío Enrique
dc.contributor.author	Jiménez Builes, Jovani Alberto
dc.date.accessioned	2023-09-19T02:47:12Z
dc.date.available	2023-09-19T02:47:12Z
dc.date.issued	2023
dc.identifier.issn	1646-9895	spa
dc.identifier.uri	https://dspace.tdea.edu.co/handle/tdea/3864
dc.description.abstract	El crecimiento de las tecnologías inteligentes en diversas áreas representadas en hardware, software y sistemas de comunicación, han agilizado los procesos administrativos y operativos de las empresas que se apoyan en éstas para su toma de decisiones. La salud no es ajena a esta incorporación de tecnología en sus procesos, es por esto que este trabajo se enfoca en identificar el estado de las implementaciones de tecnologías emergentes aplicadas a los campos de la salud y hospitales inteligentes a través de una revisión sistemática de literatura con el propósito de establecer las áreas de aplicación, tipos y gestión de tecnologías. Se utilizó el protocolo de revisión de literatura que describe tres momentos: planificación, ejecución y resultados. Los resultados permiten establecer tendencias y necesidades predominantes identificando nichos importantes que requieren investigación y profundización que contribuyan al mejoramiento en la adopción y ampliación de infraestructura tecnológica en empresas del área de la salud como hospitales inteligentes. Palabras-clave: Salud 4.0; hospital inteligente; salud inteligente; hospital 4.o; dispositivos inteligentes.
dc.description.abstract	The growth of intelligent technologies in various areas represented in hardware, software and communication systems, have streamlined the administrative and operational processes of companies that rely on them for their decision making. Health is no stranger to this incorporation of technology in its processes, which is why this work focuses on identifying the state of implementations of emerging technologies applied to the fields of health and smart hospitals through a systematic review of literature with the purpose of establishing the areas of application, types and management of technologies. We used the literature review protocol that describes three moments: planning, execution and results. The results allow to establish trends and predominant needs identifying important niches that require research and deepening that contribute to the improvement in the adoption and expansion of technological infrastructure in companies in the health area such as smart hospitals. Keywords: Health 4.0; smart hospital; smart health; hospital 4.0; smart device.
dc.format.extent	15 páginas	spa
dc.format.mimetype	application/pdf	spa
dc.language.iso	spa	spa
dc.publisher	Universidade de Coimbra	spa
dc.rights.uri	https://creativecommons.org/licenses/by-nc-nd/4.0/	spa
dc.source	https://www.proquest.com/docview/2839518911/DFCC2C93BDC84AF9PQ/1	spa
dc.title	Estado de la Implementación de las Tecnologías Emergentes Aplicadas a la Salud y los Hospitales Inteligentes: Una Revisión De Literatura
dc.type	Artículo de revista	spa
dc.rights.license	Atribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0)	spa
dc.identifier.eissn	2183-0126	spa
dc.publisher.place	Portugal	spa
dc.relation.citationendpage	386	spa
dc.relation.citationissue	E58	spa
dc.relation.citationstartpage	372	spa
dc.relation.ispartofjournal	RISTI	spa
dc.relation.references	Abdellatif, A., Mohamed, A., Chiasserini, C., and Tlili, M., and Erbad, A (2019). Edge Computing for Smart Health: Context-Aware Approaches,Opportunities, and Challenges. IEEE NETWORK, 33,196-203.	spa
dc.relation.references	Abdulkareem, K., Mohammed, M., Salim, A., Arif, M., Geman, O., Gupta, D., and Khanna, A. (2021). Realizing an Effective COVID-19 Diagnosis System Based on Machine Learning and IoT in Smart Hospital Environment. IEEE Internet Of Things Journal, 8 (21)15919-15928.	spa
dc.relation.references	Adame, T., Bel, A., Carreras, A., Melia-Seguí, J., Oliver, M. and Pous, R. (2018). CUIDATS: An RFID-WSN hybrid monitoring system for smart health care environments. Future Generation Computer Systems,78, 602-615.	spa
dc.relation.references	Ahad, A., Tahir, M., Sheikh, M., Ahmed, K., Mughees A., and Numani, A. (2020). Technologies Trend towards 5G Network for Smart Health-Care Using IoT: A Review. Sensors, 20 (14), 1-22.	spa
dc.relation.references	Al-Azzam, M.K. and Alazzam, M.B. (2019). Smart city and Smart-Health framework, challenges and opportunities. International Journal of Advanced Computer Science and Applications, 10(2),171-176.	spa
dc.relation.references	Al-Jaroodi, J., Mohamed, N. and Abukhousa, E (2020). Health 4.0: On the Way to Realizing the Healthcare of the Future. IEEE Access.8, 211189-211210.	spa
dc.relation.references	Al-khafajiy, M., Kolivand, H., Baker, T, Tully, D. and Waraich, A. (2019). Smart hospital emergency system: Via mobile-based requesting services. Multimedia Tools and Applications, 78 (14), 200887-20111.	spa
dc.relation.references	Alsisi, E.A. and Al-Ashaab, A. and Abualfaraa, W.A. (2020). The Development of a Smart Health Awareness Message Framework Based onthe Use of Social Media: Quantitative Study. Journal of Medical Internet Research,22 (7).	spa
dc.relation.references	Angrisani, L., Arpaia, P., Esposito, A., Gargiulo, L., Natalizio, A., Mastrati, G., Moccaldi, N., Parvis, M., Arpaia, P., Esposito, A., Gargiulo, L., Natalizio, A., Mastrati, G., Moccaldi, N. and Parvis, M. (2021) Passive and active brain-computer interfaces for rehabilitation in health 4.0. Measurement: Sensors,18.	spa
dc.relation.references	Apparao Naidu, G., Kodati, S. and Jeeva, S. (2019). A smart health care applications and benefits using IoT. International Journal of Recent Technology and Engineering, 8(3), 7120-7123.	spa
dc.relation.references	Arca, S. and Hewett, R. (2021). Analytics on Anonymity for Privacy Retention in Smart Health Data. Future Internet, 13(274), 1-20.	spa
dc.relation.references	Atta, R. (2022). Cost-effective vital signs monitoring system for COVID-19 patients in smart hospital. Health and technology. 12(1)239-253.	spa
dc.relation.references	Bellandi, V., Ceravolo, P., Cristiano, A., Damiani, E., Sanna, A., and Trojaniello, D. (2021). A design methodology for matching smart health requirements. Concurrency and computation-practice and experience, 2021(33),1-16.	spa
dc.relation.references	Ben, I., Balti, M., Chaabane, S and Jemai, A (2021). Adaptative vital signs monitoring system based on the early warningscore approach in smart hospital context. IET Smart Cities, 3 (1) 16-28.	spa
dc.relation.references	Chang, C. and Hung, W. (2021). Strengthening Existing Internet of Things System Security: Case Study of Improved Security Structure in Smart Health. Sensors and materials. 33(42)4257-1272.	spa
dc.relation.references	Chen, F., Tang Y., Wang, C., Huang, J., Huang, C. Xie, D., Wnag T. and Zhao C.(2021). Medical Cyber-Physical Systems: A Solution to Smart Health and the Stateof the Art. IEEE Transactions On Computational Social Systems.	spa
dc.relation.references	Colegio Oficial de Ingenieros de Madrid (2020). Libro Blanco del Smart Hospital. Madrid: COIM y AIIM; 2020, España.	spa
dc.relation.references	Cristiano, A., Musteata, S., De Silvestri, S., Bellandi, V.,Ceravolo, P., Cesari, M.,Azzolino, D. Sanna, A. and Trojaniello, D. (2022). Older Adults' and Clinicians' Perspectives on a Smart Health Platformfor the Aging Population: Design and Evaluation Study. Jmir Aging, 5(1).1-17.	spa
dc.relation.references	Jang, Y., Ryoo, I., and Kim, S (2021). Smart Hospital Sensor Network Deployment for Mobile and Remote Healthcare System. Sensors, 2i(i6),i-i9.	spa
dc.relation.references	Jeng, M., Pai, F. and Yeh, T. (2022). Antecedents for Older Adults' Intention to Use Smart Health Wearable Devices-Technology Anxiety as a Moderator. Behavioral sciences. 12(4), 1-16.	spa
dc.relation.references	Khan, M.M. and Mehnaz, S. and Shaha, A. and Nayem, M. and Bourouis, S. (2022) IoT-Based Smart Health Monitoring System for COVID-19 Patients. Wireless communications & mobile computing. 2021, Article ID8591036, 11 pages.	spa
dc.relation.references	Kim, J.H., Um, R., Liu, J., Patel, J., Curry, E., Aghabaglou, F., Mahapatra, S., Ainechi, A., Tsehay, Y., Ehresman, J., Hwang, B., Tyler, B., Iyer, R., Theodore, N. and Manbachi, A. (2021). Development of a Smart Hospital Assistant: Integrating artificial intelligence and a voice-user interface for improved surgical outcomes. Progress in Biomedical Optics and Imaging - Proceedings of SPIE. 116010U (15 February 2021).	spa
dc.relation.references	Kitchenham, A. (2007). Guidelines for performing systematic literature reviews in software engineering. Keele, S. In Technical report, Ver. 2.3 EBSE Technical Report. EBSE. Sn	spa
dc.relation.references	Kumavat and Kumar (2019). Health monitoring using edge cognitive computing based smart health care. International Journal of Innovative Technology and Exploring Engineering,9, Issue-1, 5356-5361.	spa
dc.relation.references	Kwon H, An S, H Lee, Chul W, Kim S, Cho M, Kong H (2022) Review of Smart Hospital Service in Real Healthcare Enviroments. Helthcare Informatics Research, 10.4258/ hir2022.28.1.3.	spa
dc.relation.references	Lestari, V.N.S., Rahim, R., Nguyen, P.T., Hashim, W. and Maseleno, A. (2019). Smart health records. International Journal of Engineering and Advanced Technology,8 (682),986-989.	spa
dc.relation.references	Li, J (2021). An Empirical Study of Green Marketing on Perceived Value based on BrandImage in Smart Health Care Industry. Revista De Cercetare Si Interventie Sociala, 72, 149-161	spa
dc.relation.references	Lin, Chih-Lung and Chen, James K. C. and Ho, Han-Hsi (2021). BIMfor Smart Hospital Management during COVID-19 Using MCDM. Sustainability,13(11),1-18.	spa
dc.relation.references	Mishra, A., Mcdonnell, W., Wang, J. and Rodriguez (2019). Intermodulation-Based Nonlinear Smart Health Sensing of Human Vital Signs and Location. IEEE Access,7,158284-158295.	spa
dc.relation.references	Mohammed, A.H. and Hussein, R.M.A. (2022). Security services for internet of thing smart health care solutions based blockchain technology. Telkomnika (Telecommunication Computing Electronics and Control), 20(43,772-779.	spa
dc.relation.references	Nguyen, P.T., Ilayaraja, M., Shankar, K., Hashim, W. and Maseleno, A. (2019). Smart health informatics system. International Journal of Engineering and Advanced Technology, 8(682), 4651-4655.	spa
dc.relation.references	Pravinth, R., S., Kavitha, N.S., Sheeba Rache, S. and Suganthi, P. (2019). Smart hospitals E-medico management system. International Journal of Recent Technology and Engineering,8(3)4651-4655.	spa
dc.relation.references	Rico D, Maestre G (2020) Caracterización de la situación actual de las tecnologías inteligentes para una Universidad inteligente en Colombia/latinoamerica. RISTI Revista Ibérica de Sistemas y Tecnologías de Información, E27,03/2020, 484-501.	spa
dc.relation.references	Rodrigues, L., Gonçalves, I, Fé, I., Endo, P.T. and Silva, F.A. (2021). Performance and availability evaluation of an smart hospital architecture. Computing,103(10),2401-2435.	spa
dc.relation.references	Rao, S.S (2019). Smart health care system using sensors, IoT device and web portal. Journal of mechanics of continua and mathematical sciences, 14(6), 1-11.	spa
dc.relation.references	Said, A.M., Yahyaoui, A. and Abdellatif, T. (2021). Efficient Anomaly Detection for Smart Hospital IoT Systems. Sensors (Switzerland), 21(24), 1-24.	spa
dc.relation.references	Selvaprabhu, P., Chinnadurai, S., Tamilarasan, I., Venkatesan, R. and Kumaravelu, V.B. (2022). Priority-Based Resource Allocation and Energy Harvesting for WBAN Smart Health. Wireless Communications and Mobile Computing, 2022, Article ID 8294149, 11 pages.	spa
dc.relation.references	Singh, P. and Kaur, R. (2020). An integrated fog and Artificial Intelligence smart health framework to predict and prevent COVID-19. Global Transition, 2020,283-292	spa
dc.relation.references	Sorte, P. and Golande, A. and Yermalkar, A. and Suryawanshi, V. and Wanjare, U. and Satpute, S. (2019). Smart hospital for heart disease prediction using IoT. International Journal of Innovative Technology and Exploring Engineering, 8(9), 321-326.	spa
dc.relation.references	Sun, J., Xiong, H., Liu, X., Zhang, Y., Nie, X and Deng, R. (2020). Light weight and Privacy-Aware Fine-Grained Access Control for IoT-Oriented Smart Health. IEEE Internet Of Things Journal, 7(7)566-6575.	spa
dc.relation.references	Uslu, B.Ç., Okay, E. Dursun, E.(2020). Analysis of factors affecting IoT-based smart hospital design. Journal of Cloud Computing, 9(67), 1 -23.	spa
dc.relation.references	Vijayalakshmi, A. and Ebenezer Abishek, B. and Arul Stephen, C. (2019). IoT based sensor fusion algorithm for online smart health monitoring. International Journal of Recent Technology and Engineering.8(2).6040-6046.	spa
dc.relation.references	Wibamanto, W., Das, D. and Chelliah, S.A. (2020). Smart health prediction system with data mining. International Journal of Current Research and Review, International Journal of Current Research and Review, 12,14-19.	spa
dc.relation.references	Yusuf, N.,Hamza, A., Muhammad, R., Suleiman M and Abubakar Z (2020). Smart Health Internet of Thing for Continuous Glucose Monitoring: A Survey. International journal of integrated engineering, 12(7), 54-61.	spa
dc.rights.accessrights	info:eu-repo/semantics/openAccess	spa
dc.subject.decs	Tecnologías
dc.subject.decs	Technology
dc.subject.decs	Technologie
dc.subject.proposal	Salud 4.0
dc.subject.proposal	Health 4.0
dc.subject.proposal	Hospital inteligente
dc.subject.proposal	Smart hospital
dc.subject.proposal	Salud inteligente
dc.subject.proposal	Smart health
dc.subject.proposal	Hospital 4.o
dc.subject.proposal	Dispositivos inteligentes
dc.subject.proposal	Smart device
dc.title.translated	Status of the Implementation of Emerging Technologies Applied to Health and Smart Hospitals: A Literature Review
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dc.type.content	Text	spa
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