Abstract
Ultra-wideband (UWB) innovation can give short distance, high transfer speed communication systems with less energy utilization, which is very alluring for Wireless Body Area Networks (WBAN). The nearness of the human body to the antenna produces tremendous difficulties in designing wearable antennas in these systems. In addition, at the point when wearable (textile) antennas are utilized for on-body applications, they can deteriorate the performance of the antenna, and they can also be harmful to the human body. The Specific Absorption Rate (SAR) value is calculated to avoid the risk for the human body. Researchers are interested in this research area and some major developments have been attained lately. This chapter presents a description, results, substrate, and conductive layers of the latest UWB wearable antennas with a discussion of different analyses based on bending, crumpling, antenna misalignment, SAR, and change in substrate parameters, which affects the antenna performance.
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