Korada S Ravi Kumar
Computer Science
March 2022
In order to restrict work and assets, wearable objects are being developed, such as material antenna, which are capable of observing, warning, and seeking attention when a medical clinic emergency arises. The ultra wideband antenna in the proposed work uses material as a substrate and is intended specifically for medical applications. This study accounts for two ultra-wideband (UWB) planar monopole antennas. The antennas were designed with wearable applications in mind. Frameworks that have been worn out need to be adaptable and impact-resistant. While radiators were made of copper tapes, the substrates for the proposed antennas were made of trousers. In this article, it has been discussed how antennas have been recreated and estimated displays in terms of return misfortune and radiation designs. Because of its improved features, such as minimal cost, high information rates, low energy requirements, high operating bandwidth, and radiation proficiency, UWB is the most sought-after invention by businesspeople and academics. The key research area in antennas for body-driven correspondences is the wearable, texture-based antenna.
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