The Experts below are selected from a list of 88710 Experts worldwide ranked by ideXlab platform
Martinez Castellanos Natalia - One of the best experts on this subject based on the ideXlab platform.
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Implementación de un protocolo de capacitación Virtual de tecnología Biomédica para el personal asistencial del servicio de urgencias del hospital universitario Mayor - Mederi
'Escuela Colombiana de Ingenieria Julio Garavito', 2020Co-Authors: Mendez Garay Andrea Katherine, Martinez Castellanos NataliaAbstract:For healthcare providers, the acquisition of biomedical technologies is a complex process focused on improving the quality and efficiency of service delivery. These processes include technical and clinical evaluation, maintenance and training, in order to maintain cost-effective quality, the correct condition and operation of the equipment, as well as the appropriation and extensive knowledge of the technology. In the University Hospital Mayor, Mederi, biomedical technology is considered a fundamental axis for health care, for this reason the objective of this project is based on designing a Virtual training protocol in the correct use of biomedical technology, this is done by through the evaluation of the emergency department medical teams, the roles of healthcare personnel, the application of surveys on the management of biomedical technology, and the production of Virtual Access material such as videos and quick guides, in order to contribute a training tool that provides a solution to the knowledge needs of the institution's staff, providing greater coverage, guaranteeing that all employees are trained in the use of equipment. To do this, it is necessary to take into account the schedules and the Virtual environment, creating an ideal environment for the development of the main objective of the training.Para las entidades prestadoras de salud la adquisición de tecnologías biomédicas es un proceso complejo enfocado en el mejoramiento de la calidad y la eficiencia en la prestación de los servicios. Dentro de dichos procesos se destacan la evaluación técnica y clínica, los mantenimientos y las capacitaciones, con el fin de mantener una calidad costo efectiva, garantizar el correcto estado y funcionamiento de los equipos, además de la apropiación y amplio conocimiento de la tecnología. En el Hospital Universitario Mayor Mederi la tecnología biomédica se considera un eje fundamental para la atención en salud, por tal motivo el objetivo de este proyecto se fundamenta en diseñar un protocolo de capacitación Virtual en el correcto uso de la tecnología biomédica, esto se realizó por medio de la evaluación de los equipos médicos del servicio de urgencias, los roles del personal asistencial, aplicando encuestas sobre el manejo de la tecnología biomédica, y realizando material de acceso Virtual como videos y guías rápidas, con el fin de aportar una herramienta de capacitación que dé solución a las necesidades de conocimiento del personal de la institución, brindando mayor cobertura garantizando que el total de los empleados están capacitados en el uso de los equipos. Para ello, se tendrán en cuenta los horarios y el entorno Virtual, generando un ambiente ideal para el desarrollo del objetivo principal de la capacitación
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Implementación de un protocolo de capacitación Virtual de tecnología Biomédica para el personal asistencial del servicio de urgencias del hospital universitario Mayor - Mederi
'Revista Mexicana de Ingenieria Biomedica', 2020Co-Authors: Mendez Garay Andrea Katherine, Martinez Castellanos NataliaAbstract:Para las entidades prestadoras de salud la adquisición de tecnologías biomédicas es un proceso complejo enfocado en el mejoramiento de la calidad y la eficiencia en la prestación de los servicios. Dentro de dichos procesos se destacan la evaluación técnica y clínica, los mantenimientos y las capacitaciones, con el fin de mantener una calidad costo efectiva, garantizar el correcto estado y funcionamiento de los equipos, además de la apropiación y amplio conocimiento de la tecnología. En el Hospital Universitario Mayor Mederi la tecnología biomédica se considera un eje fundamental para la atención en salud, por tal motivo el objetivo de este proyecto se fundamenta en diseñar un protocolo de capacitación Virtual en el correcto uso de la tecnología biomédica, esto se realizó por medio de la evaluación de los equipos médicos del servicio de urgencias, los roles del personal asistencial, aplicando encuestas sobre el manejo de la tecnología biomédica, y realizando material de acceso Virtual como videos y guías rápidas, con el fin de aportar una herramienta de capacitación que dé solución a las necesidades de conocimiento del personal de la institución, brindando mayor cobertura garantizando que el total de los empleados están capacitados en el uso de los equipos. Para ello, se tendrán en cuenta los horarios y el entorno Virtual, generando un ambiente ideal para el desarrollo del objetivo principal de la capacitación.For healthcare providers, the acquisition of biomedical technologies is a complex process focused on improving the quality and efficiency of service delivery. These processes include technical and clinical evaluation, maintenance and training, in order to maintain cost-effective quality, the correct condition and operation of the equipment, as well as the appropriation and extensive knowledge of the technology. In the University Hospital Mayor, Mederi, biomedical technology is considered a fundamental axis for health care, for this reason the objective of this project is based on designing a Virtual training protocol in the correct use of biomedical technology, this is done by through the evaluation of the emergency department medical teams, the roles of healthcare personnel, the application of surveys on the management of biomedical technology, and the production of Virtual Access material such as videos and quick guides, in order to contribute a training tool that provides a solution to the knowledge needs of the institution's staff, providing greater coverage, guaranteeing that all employees are trained in the use of equipment. To do this, it is necessary to take into account the schedules and the Virtual environment, creating an ideal environment for the development of the main objective of the training.PregradoIngeniero(a) Biomédico(a
Don Middleton - One of the best experts on this subject based on the ideXlab platform.
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ontology supported scientific data frameworks the Virtual solar terrestrial observatory experience
Computers & Geosciences, 2009Co-Authors: Peter Fox, Deborah L Mcguinness, Luca Cinquini, Patrick West, Jose M Garcia, J Benedict, Don MiddletonAbstract:We have developed a semantic data framework that supports interdisciplinary Virtual observatory projects across the fields of solar physics, space physics and solar-terrestrial physics. This work required a formal, machine understandable representation for concepts, relations and attributes of physical quantities in the domains of interest as well as their underlying data representations. To fulfill this need, we developed a set of solar-terrestrial ontologies as formal encodings of the knowledge in the Ontology Web Language-Description Logic (OWL-DL) format. We present our knowledge representation and reasoning needs motivated by the context of Virtual Observatories, from fields spanning upper atmospheric terrestrial physics to solar physics, whose intent is to provide Access to observational datasets. The resulting data framework is built upon semantic web methodologies and technologies and provides Virtual Access to distributed and heterogeneous sets of data as if all resources appear to be organized, stored and retrieved from a local environment. Our conclusion is that the combination of use case-driven, small and modular ontology development, coupled with free and open-source software tools and languages provides sufficient expressiveness and capabilities for an initial production implementation and sets the stage for a more complete semantic-enablement of future frameworks.
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the Virtual solar terrestrial observatory a deployed semantic web application case study for scientific research
Innovative Applications of Artificial Intelligence, 2007Co-Authors: Deborah L Mcguinness, Luca Cinquini, Patrick West, Jose M Garcia, James L Benedict, Don MiddletonAbstract:The Virtual Solar-Terrestrial Observatory is a production semantic web data framework providing Access to observational datasets from fields spanning upper atmospheric terrestrial physics to solar physics. The observatory allows Virtual Access to a highly distributed and heterogeneous set of data that appears as if all resources are organized, stored and retrieved/used in a common way. The end-user community comprises scientists, students, data providers numbering over 600 out of an estimated community of 800. We present details on the case study, our technological approach including the semantic web languages, tools and infrastructure deployed, benefits of AI technology to the application, and our present evaluation after the initial nine months of use.
Mendez Garay Andrea Katherine - One of the best experts on this subject based on the ideXlab platform.
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Implementación de un protocolo de capacitación Virtual de tecnología Biomédica para el personal asistencial del servicio de urgencias del hospital universitario Mayor - Mederi
'Escuela Colombiana de Ingenieria Julio Garavito', 2020Co-Authors: Mendez Garay Andrea Katherine, Martinez Castellanos NataliaAbstract:For healthcare providers, the acquisition of biomedical technologies is a complex process focused on improving the quality and efficiency of service delivery. These processes include technical and clinical evaluation, maintenance and training, in order to maintain cost-effective quality, the correct condition and operation of the equipment, as well as the appropriation and extensive knowledge of the technology. In the University Hospital Mayor, Mederi, biomedical technology is considered a fundamental axis for health care, for this reason the objective of this project is based on designing a Virtual training protocol in the correct use of biomedical technology, this is done by through the evaluation of the emergency department medical teams, the roles of healthcare personnel, the application of surveys on the management of biomedical technology, and the production of Virtual Access material such as videos and quick guides, in order to contribute a training tool that provides a solution to the knowledge needs of the institution's staff, providing greater coverage, guaranteeing that all employees are trained in the use of equipment. To do this, it is necessary to take into account the schedules and the Virtual environment, creating an ideal environment for the development of the main objective of the training.Para las entidades prestadoras de salud la adquisición de tecnologías biomédicas es un proceso complejo enfocado en el mejoramiento de la calidad y la eficiencia en la prestación de los servicios. Dentro de dichos procesos se destacan la evaluación técnica y clínica, los mantenimientos y las capacitaciones, con el fin de mantener una calidad costo efectiva, garantizar el correcto estado y funcionamiento de los equipos, además de la apropiación y amplio conocimiento de la tecnología. En el Hospital Universitario Mayor Mederi la tecnología biomédica se considera un eje fundamental para la atención en salud, por tal motivo el objetivo de este proyecto se fundamenta en diseñar un protocolo de capacitación Virtual en el correcto uso de la tecnología biomédica, esto se realizó por medio de la evaluación de los equipos médicos del servicio de urgencias, los roles del personal asistencial, aplicando encuestas sobre el manejo de la tecnología biomédica, y realizando material de acceso Virtual como videos y guías rápidas, con el fin de aportar una herramienta de capacitación que dé solución a las necesidades de conocimiento del personal de la institución, brindando mayor cobertura garantizando que el total de los empleados están capacitados en el uso de los equipos. Para ello, se tendrán en cuenta los horarios y el entorno Virtual, generando un ambiente ideal para el desarrollo del objetivo principal de la capacitación
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Implementación de un protocolo de capacitación Virtual de tecnología Biomédica para el personal asistencial del servicio de urgencias del hospital universitario Mayor - Mederi
'Revista Mexicana de Ingenieria Biomedica', 2020Co-Authors: Mendez Garay Andrea Katherine, Martinez Castellanos NataliaAbstract:Para las entidades prestadoras de salud la adquisición de tecnologías biomédicas es un proceso complejo enfocado en el mejoramiento de la calidad y la eficiencia en la prestación de los servicios. Dentro de dichos procesos se destacan la evaluación técnica y clínica, los mantenimientos y las capacitaciones, con el fin de mantener una calidad costo efectiva, garantizar el correcto estado y funcionamiento de los equipos, además de la apropiación y amplio conocimiento de la tecnología. En el Hospital Universitario Mayor Mederi la tecnología biomédica se considera un eje fundamental para la atención en salud, por tal motivo el objetivo de este proyecto se fundamenta en diseñar un protocolo de capacitación Virtual en el correcto uso de la tecnología biomédica, esto se realizó por medio de la evaluación de los equipos médicos del servicio de urgencias, los roles del personal asistencial, aplicando encuestas sobre el manejo de la tecnología biomédica, y realizando material de acceso Virtual como videos y guías rápidas, con el fin de aportar una herramienta de capacitación que dé solución a las necesidades de conocimiento del personal de la institución, brindando mayor cobertura garantizando que el total de los empleados están capacitados en el uso de los equipos. Para ello, se tendrán en cuenta los horarios y el entorno Virtual, generando un ambiente ideal para el desarrollo del objetivo principal de la capacitación.For healthcare providers, the acquisition of biomedical technologies is a complex process focused on improving the quality and efficiency of service delivery. These processes include technical and clinical evaluation, maintenance and training, in order to maintain cost-effective quality, the correct condition and operation of the equipment, as well as the appropriation and extensive knowledge of the technology. In the University Hospital Mayor, Mederi, biomedical technology is considered a fundamental axis for health care, for this reason the objective of this project is based on designing a Virtual training protocol in the correct use of biomedical technology, this is done by through the evaluation of the emergency department medical teams, the roles of healthcare personnel, the application of surveys on the management of biomedical technology, and the production of Virtual Access material such as videos and quick guides, in order to contribute a training tool that provides a solution to the knowledge needs of the institution's staff, providing greater coverage, guaranteeing that all employees are trained in the use of equipment. To do this, it is necessary to take into account the schedules and the Virtual environment, creating an ideal environment for the development of the main objective of the training.PregradoIngeniero(a) Biomédico(a
Deborah L Mcguinness - One of the best experts on this subject based on the ideXlab platform.
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ontology supported scientific data frameworks the Virtual solar terrestrial observatory experience
Computers & Geosciences, 2009Co-Authors: Peter Fox, Deborah L Mcguinness, Luca Cinquini, Patrick West, Jose M Garcia, J Benedict, Don MiddletonAbstract:We have developed a semantic data framework that supports interdisciplinary Virtual observatory projects across the fields of solar physics, space physics and solar-terrestrial physics. This work required a formal, machine understandable representation for concepts, relations and attributes of physical quantities in the domains of interest as well as their underlying data representations. To fulfill this need, we developed a set of solar-terrestrial ontologies as formal encodings of the knowledge in the Ontology Web Language-Description Logic (OWL-DL) format. We present our knowledge representation and reasoning needs motivated by the context of Virtual Observatories, from fields spanning upper atmospheric terrestrial physics to solar physics, whose intent is to provide Access to observational datasets. The resulting data framework is built upon semantic web methodologies and technologies and provides Virtual Access to distributed and heterogeneous sets of data as if all resources appear to be organized, stored and retrieved from a local environment. Our conclusion is that the combination of use case-driven, small and modular ontology development, coupled with free and open-source software tools and languages provides sufficient expressiveness and capabilities for an initial production implementation and sets the stage for a more complete semantic-enablement of future frameworks.
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the Virtual solar terrestrial observatory a deployed semantic web application case study for scientific research
Innovative Applications of Artificial Intelligence, 2007Co-Authors: Deborah L Mcguinness, Luca Cinquini, Patrick West, Jose M Garcia, James L Benedict, Don MiddletonAbstract:The Virtual Solar-Terrestrial Observatory is a production semantic web data framework providing Access to observational datasets from fields spanning upper atmospheric terrestrial physics to solar physics. The observatory allows Virtual Access to a highly distributed and heterogeneous set of data that appears as if all resources are organized, stored and retrieved/used in a common way. The end-user community comprises scientists, students, data providers numbering over 600 out of an estimated community of 800. We present details on the case study, our technological approach including the semantic web languages, tools and infrastructure deployed, benefits of AI technology to the application, and our present evaluation after the initial nine months of use.
Luca Cinquini - One of the best experts on this subject based on the ideXlab platform.
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ontology supported scientific data frameworks the Virtual solar terrestrial observatory experience
Computers & Geosciences, 2009Co-Authors: Peter Fox, Deborah L Mcguinness, Luca Cinquini, Patrick West, Jose M Garcia, J Benedict, Don MiddletonAbstract:We have developed a semantic data framework that supports interdisciplinary Virtual observatory projects across the fields of solar physics, space physics and solar-terrestrial physics. This work required a formal, machine understandable representation for concepts, relations and attributes of physical quantities in the domains of interest as well as their underlying data representations. To fulfill this need, we developed a set of solar-terrestrial ontologies as formal encodings of the knowledge in the Ontology Web Language-Description Logic (OWL-DL) format. We present our knowledge representation and reasoning needs motivated by the context of Virtual Observatories, from fields spanning upper atmospheric terrestrial physics to solar physics, whose intent is to provide Access to observational datasets. The resulting data framework is built upon semantic web methodologies and technologies and provides Virtual Access to distributed and heterogeneous sets of data as if all resources appear to be organized, stored and retrieved from a local environment. Our conclusion is that the combination of use case-driven, small and modular ontology development, coupled with free and open-source software tools and languages provides sufficient expressiveness and capabilities for an initial production implementation and sets the stage for a more complete semantic-enablement of future frameworks.
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the Virtual solar terrestrial observatory a deployed semantic web application case study for scientific research
Innovative Applications of Artificial Intelligence, 2007Co-Authors: Deborah L Mcguinness, Luca Cinquini, Patrick West, Jose M Garcia, James L Benedict, Don MiddletonAbstract:The Virtual Solar-Terrestrial Observatory is a production semantic web data framework providing Access to observational datasets from fields spanning upper atmospheric terrestrial physics to solar physics. The observatory allows Virtual Access to a highly distributed and heterogeneous set of data that appears as if all resources are organized, stored and retrieved/used in a common way. The end-user community comprises scientists, students, data providers numbering over 600 out of an estimated community of 800. We present details on the case study, our technological approach including the semantic web languages, tools and infrastructure deployed, benefits of AI technology to the application, and our present evaluation after the initial nine months of use.
