Titlebook: Ultra-Wideband and 60 GHz Communications for Biomedical Applications; Mehmet R. Yuce Book 2014 Springer Science+Business Media New York 20

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Medium Access Control (MAC) Protocols for Ultra-Wideband (UWB)-Based Wireless Body Area Networks (WAN, a cross-layer solution is required. The physical layer of a WBAN determines the choice of wireless scheme, modulation scheme, synchronization and data rate. The data-link layer provides medium access control (MAC), which ensures reliable and fair access to the communication channel. Ultra-wideba

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Antenna Diversity Techniques for Enhanced Ultra-Wideband Body-Centric Wireless Networks in Healthcat surge in interest in diversity-based techniques, whether it is from a spatial, frequency or polarisation perspective. In this chapter, studies for applicability of antenna diversity to be applied in ultra-wideband (UWB) on/off-body channel are carried out. Measurements are performed in both an ane

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60-GHz LTCC Antenna Arrays,he key components in wireless communication systems, the antenna technology affects radio propagation channels, transceiver designs, and choice of digital modulation schemes in establishing a reliable 60-GHz link. In this connection, the 60-GHz antennas for wireless communications, especially antenn

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Book 2014ra-wideband (3.1-10.6 GHz) and 60 GHz ISM band. These two bands provide the largest bandwidths available for communication technologies and present many attractive opportunities for medical applications. The applications of these bands in healthcare are wireless body area network (WBAN), medical ima

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A Low Power Interference Robust IR-UWB Transceiver SoC for WBAN Applications,energy efficiency of 0.3 and 4.3 nJ/bit for TX and RX respectively and a receiver sensitivity of − 92 dBm (BER = 10.) for UWB on-off keying (OOK) signal at 1 Mb/s pulse rate. The measured maximum in-band/out-band SIR for BER = 10. is −33 and − 47 dB, respectively.

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