By Nikola Rendevski, Dajana Cassioli (auth.), Mehmet R. Yuce (eds.)
This booklet investigates the layout of units, platforms, and circuits for clinical functions utilizing the 2 lately proven frequency bands: ultra-wideband (3.1-10.6 GHz) and 60 GHz ISM band. those bands give you the biggest bandwidths on hand for conversation applied sciences and current many appealing possibilities for scientific purposes. The functions of those bands in healthcare are instant physique quarter community (WBAN), clinical imaging, biomedical sensing, wearable and implantable units, speedy clinical gadget connectivity, video info transmission, and very important symptoms tracking. the new technological advances and advancements proposed or utilized in medication in accordance with those bands are coated. The e-book introduces attainable ideas and layout concepts to successfully enforce those structures in scientific environment.
All person chapters are written via prime specialists of their fields. Contributions by way of authors are on quite a few functions of ultra-wideband and the 60 GHz ISM band together with circuit implementation, UWB and 60 GHz sign transmission round and in-body, antenna layout resolution, implementation of physique sensors, UWB transceiver layout, 60 GHz transceiver layout, UWB radar for contactless breathing tracking, and ultra-wideband established clinical Imaging. The publication can be a key source for doctors, bio-medical engineers, and graduate and senior undergraduate scholars in machine, electric, digital and biomedical engineering disciplines.
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Extra info for Ultra-Wideband and 60 GHz Communications for Biomedical Applications
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4a. The frequency bandwidth occupied in this case is usually very narrow as compared to the carrier frequency. The system needs to be turned on continuously during the data communication. Very differently in an IRUWB system, the data is transmitted as very narrow pulses in the time domain, which means the signal occupies a large frequency bandwidth. Since the information is only contained within a small time window, it is possible to turn on the system only during the pulse, while turning off the system otherwise to save the power consumption.
By setting proper threshold in decision FSM (NRi or PRi > 12), we should be able to mask these detection errors and find the correct timing location for incoming UWB pulses. The flowchart for pulse detect algorithm is illustrated in Fig. 13a. Most of the time, positive and negative edge-triggered registers will record same number of UWB pulse detection. Therefore, either one can be chosen for subsequent UWB pulse detection. In the proposed algorithm, we choose the duration window corresponding to NRi , if NRi = PRi .
Ultra-Wideband and 60 GHz Communications for Biomedical Applications by Nikola Rendevski, Dajana Cassioli (auth.), Mehmet R. Yuce (eds.)