Co-operative and energy efficient body area and wireless sensor networks for healthcare applications [recurso electrónico] / Akram Alomainy, Raffaele Di Bari, Qammer Abbasi and Yifan Chen.
Tipo de material: TextoDetalles de publicación: Amsterdam : Academic Press, 2014Descripción: 1 online resource (46 pages)Tipo de contenido: text Tipo de medio: computer Tipo de portador: volumeISBN: 0128007362; 9780128007365Tema(s): Wireless communication systems | Wireless communication systemsGénero/Forma: Electronic books.Clasificación CDD: 621.4 Clasificación LoC:TK5103.2Recursos en línea: Libro electrónico ScienceDirect Resumen: With the advances in small and low-cost radio transceivers and RF front-ends development, the possibility of applying ubiquitous and non-invasive sensors integrated into user's daily clothing and living activities seems more feasible. The ability to share data increases the usefulness of personal information devices, providing features not possible with independent isolated devices. Current wireless sensor solutions are limited in that they do not provide the means to overcome obstacles and shadowing of propagating radio waves. Thus for reliable communications an increase in power consumption is required, reducing battery life. This book addresses the limitations outlined above by designing efficient and compact antenna systems. These systems will be cooperative and also aware of the surrounding environment and neighboring units, providing efficient and low power wireless connectivity for personal area network (PAN) and body area network (BAN) applications. Analysis of wearable antenna design and performance Addresses the Influence of body-worn antennas on radio channels and radio device performance from a power and error rate perspective. Cooperative networking principles applied to body area networks, showing the pros and cons of such conceptsReal life case scenarios using ECG sample signals for potential application to healthcare monitoring.Tipo de ítem | Biblioteca actual | Colección | Signatura | Copia número | Estado | Fecha de vencimiento | Código de barras |
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Libro Electrónico | Biblioteca Electrónica | Colección de Libros Electrónicos | TK5103.2 (Browse shelf(Abre debajo)) | 1 | No para préstamo | 380054-2001 |
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TK5102.92 .N48 2010 EB Network coding | TK5102.92 .S72 2007 EB Space-time coding for broadband wireless communications | TK5103.2 Wireless Receiver Architectures and Design | TK5103.2 Co-operative and energy efficient body area and wireless sensor networks for healthcare applications | TK5103.2 Advances in analog and RF IC design for wireless communication systems | TK5103.2 .W57 2010 EB Wireless communications over rapidly time-varying channels | TK5103.35 Body Area Networks using IEEE 802.15.6 |
With the advances in small and low-cost radio transceivers and RF front-ends development, the possibility of applying ubiquitous and non-invasive sensors integrated into user's daily clothing and living activities seems more feasible. The ability to share data increases the usefulness of personal information devices, providing features not possible with independent isolated devices. Current wireless sensor solutions are limited in that they do not provide the means to overcome obstacles and shadowing of propagating radio waves. Thus for reliable communications an increase in power consumption is required, reducing battery life. This book addresses the limitations outlined above by designing efficient and compact antenna systems. These systems will be cooperative and also aware of the surrounding environment and neighboring units, providing efficient and low power wireless connectivity for personal area network (PAN) and body area network (BAN) applications. Analysis of wearable antenna design and performance Addresses the Influence of body-worn antennas on radio channels and radio device performance from a power and error rate perspective. Cooperative networking principles applied to body area networks, showing the pros and cons of such conceptsReal life case scenarios using ECG sample signals for potential application to healthcare monitoring.
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