Review of Interoperability techniques in data acquisition of wireless ECG dev...iosrjce
Wireless medical devices with enhanced capability operating within Body Area Network (BAN) are
key elements in: telehealth, and remote health monitoring systems.They help to capture process and store vital
signs acquired through sensors and transfer them through communication protocols such as ZigBee and
Bluetooth to aggregators. However, due to the heterogeneity of devices and manufacturers’ proprietary
applications, the devices lack adequate interoperability between each other and Health Information Systems
(HIS), thus making it difficult to sort data and/ or make it usable to medical team. In this study we reviewed the
various approaches employed to facilitate interoperability in wearable wireless Electrocardiogram (ECG)
devices ranging from model driven interoperability (Information model, data models etc.); ECG format;
ontology; standards and mapping of physiological data, available in literature in the last five years with respect
to advancement in telecommunication. The findings indicate that wearable wireless ECG needs both
retrospective and anticipatory interoperability mechanisms due to advancement in telecommunication
technology especially with the promising fifth generation (5G) technology, to facilitate the transmission of the
right information from the patient to the healthcare provider.
Ambient Intelligence (AmI) refers to a vision of the future information society where intelligent interfaces enable people and devices to interact with each other and with the environment. Ambient intelligence (AmI) research builds upon advances in sensors and sensor networks, pervasive computing, and artificial intelligence. Because these contributing fields have experienced tremendous growth in the last few years, AmI research has strengthened and expanded. Because AmI research is maturing, the resulting technologies promise to revolutionaries daily human life by making people's surroundings edible and adaptive.
Low Power Wireless Sensor Network Technologies and Standards for the Internet...Duncan Purves
Presentation on Low Power Wireless Sensor Network Technologies and Standards for the Internet of Things given at Institute of Physics, Sensors & their Applications XVIII Conference, 12 September 2016
Review of Interoperability techniques in data acquisition of wireless ECG dev...iosrjce
Wireless medical devices with enhanced capability operating within Body Area Network (BAN) are
key elements in: telehealth, and remote health monitoring systems.They help to capture process and store vital
signs acquired through sensors and transfer them through communication protocols such as ZigBee and
Bluetooth to aggregators. However, due to the heterogeneity of devices and manufacturers’ proprietary
applications, the devices lack adequate interoperability between each other and Health Information Systems
(HIS), thus making it difficult to sort data and/ or make it usable to medical team. In this study we reviewed the
various approaches employed to facilitate interoperability in wearable wireless Electrocardiogram (ECG)
devices ranging from model driven interoperability (Information model, data models etc.); ECG format;
ontology; standards and mapping of physiological data, available in literature in the last five years with respect
to advancement in telecommunication. The findings indicate that wearable wireless ECG needs both
retrospective and anticipatory interoperability mechanisms due to advancement in telecommunication
technology especially with the promising fifth generation (5G) technology, to facilitate the transmission of the
right information from the patient to the healthcare provider.
Ambient Intelligence (AmI) refers to a vision of the future information society where intelligent interfaces enable people and devices to interact with each other and with the environment. Ambient intelligence (AmI) research builds upon advances in sensors and sensor networks, pervasive computing, and artificial intelligence. Because these contributing fields have experienced tremendous growth in the last few years, AmI research has strengthened and expanded. Because AmI research is maturing, the resulting technologies promise to revolutionaries daily human life by making people's surroundings edible and adaptive.
Low Power Wireless Sensor Network Technologies and Standards for the Internet...Duncan Purves
Presentation on Low Power Wireless Sensor Network Technologies and Standards for the Internet of Things given at Institute of Physics, Sensors & their Applications XVIII Conference, 12 September 2016
Keynote talk for NCRM Stream Analytics workshop, 19 January 2017, Manchester.
My talk is called "New and Emerging Forms of Data: Past, Present, and Future” and I will be giving a perspective from my role as one of the ESRC Strategic Advisers for Data Resources, in which I was responsible for new and emerging forms of data and realtime analytics. The talk also includes some of the current work in the Oxford e-Research Centre on Social Machines (the SOCIAM project) and an introduction to the PETRAS Internet of Things project.
The talk raises a number of important issues looking ahead, including massive scale of data that is already being supplied by Internet of Things, the implications of automation in our research, reproducibility and confidence in research results. I will also ask, how can the new forms of data and new research methods enable social scientists to work in new ways, and can we move on from the dependence on the traditional investment in longitudinal studies?
2. 1.¿En que pestaña se encuentran los botones que
permiten incluir tablas en nuestra base de datos?
a)Archivo
b)Herramientas
c)Inicio
d)Crear
DEISY AREVALO 10 A 2
3. 2.¿Què vista es la más acertada para definir la
estructura de una tabla?
a)Hoja de datos
b)Tabla dinámica
c)Diseño
d)Estructura
DEISY AREVALO 10 A 3
4. 3.¿Què debemos definir, como mínimo, en un campo?
a)El nombre y tipo de datos.
b)El tipo de datos y la descripción.
c)El nombre y la descripción .
d)La descripción .
DEISY AREVALO 10 A 4
5. 4.las propiedades de un campo, ¿de qué dependerán?
a)Del nombre elegido.
B)del tipo de datos elegido.
c)De la descripción.
d)De la finalidad global de la tabla.
DEISY AREVALO 10 A 5
6. 5.Al definir la clave principal de una tabla ,debemos t
en cuenta que….
a)Puede estar compuesta por varios campos.
b)Podemos poner más de una clave en la misma tabla.
c)Ay b son ciertas.
d)A y b son falsas.
DEISY AREVALO 10 A 6
7. 6.¿Es obligatorio que una tabla tenga clave principal
?
a)Si ,de hecho al guardar la tabla un mensaje te avisa
de que la tabla no se puede guardar hasta que se le
asigne una clave principal.
b)Si, aunque permite guardar la tabla sin definir la
clave, pero no podremos realizar consultas sobre
ella hasta que la definamos .
C)No es obligatorio ,pero si recomendable.
d)No,a menos que la tabla se defina como la tabla
principal en la base de datos .
DEISY AREVALO 10 A 7
8. 7.A la hora de rellenar los datos de una tabla, el
campo definido como la clave principal…
a)Identifica a cada registro, por lo que no puede
estar repetida.
b)No puede quedar sin rellenar ,por que es un campo
obligatorio.
c)Puede rellenarse automáticamente por el sistema, si
hemos definido el campo del tipo Auto numeración.
d)Todas las respuestas son ciertas.
DEISY AREVALO 10 A 8
9. 8.¿cuàl de los siguientes NO es un tipo de datos
válido para la definición de un campo?
a)Texto.
b)Fecha/hora.
c)Datos adjuntos.
d)Objeto OLIT.
DEISY AREVALO 10 A 9
10. 9.¿como se cierra una tabla ?
a)Desde Archivo > salir .
b)Con las teclas ALT+F4.
C)Desde la opción cerrar del menú contextual de
su pestaña.
d)Todas son ciertas.
DEISY AREVALO 10 A 10
11. 10.En la vista diseño de una tabla, cada campo que
definamos(nombre,tipo de datos y descripciòn),¿ a
que equivale?.
a)A un registro de la tabla.
b)A una columna de la tabla.
DEISY AREVALO 10 A 11