Wearable Wireless DevicesQammer H. Abbasi, Hadi Heidari, Akram Alomainy With the growing interest in the use of technology in daily life, the potential for using wearable wireless devices across multiple segments, e.g., healthcare, sports, child monitoring, military, emergency, consumer electronics, etc., is rapidly increasing. Multibillion wearable sensors are predicted to be in use by 2025, with over 30% of them being new types of sensors that are only beginning to emerge. This book will focus on wireless wearable and implantable systems, flexible textile-based electronics, bio-electromagnetics, antennas and propagation, radio frequency (RF) circuits, sensors, security of wearables and implantable systems, nano-bio communication, and electromagnetic sensing |
Common terms and phrases
abnormal accuracy activities algorithm amplitude analysis application approach attacks authentication authors beat Biomed bits body breathing pattern channel classification combining communication compared components compression Comput considered coordinator CrossRef data transmission delay described designed detection devices ECG signal efficiency emergency data energy environment evaluation experiment extraction Figure filter follows frame frequency function heart heartbeat human IEEE IEEE Trans implementation interval layer measured method mode monitoring motion movement noise multi-user multiple nodes normal obtained packet patient performance period phase presented Proceedings proposed protocol PubMed received recording rehabilitation represents respectively respiratory S-Band samples scheme SDPPG signal selected sensing sensor shown in Figure shows sleep slot standard Table technique transform transmit wavelet WBAN wearable wireless