A NOVEL APPROACH TO DESIGNING MINIATURIZED MICROSTRIP ANTENNAS FOR WEARABLE AND IMPLANTABLE BIOMEDICAL DEVICES
Volume: 14 - Issue: 09 - Date: 01-09-2025
Approved ISSN: 2278-1412
Published Id: IJAECESTU497 | Page No.: 117-122
Author: Manish
Co- Author: Rajesh Kumar Rai,V. Thrimurthulu
Abstract:- The fast development of the Internet of Medical Things has significantly change a paradigm shift in
healthcare, by enabling continuous and remote monitoring of the patient instead of hospital-based treatments. At the
heart of this transformation lie wearable and implantable devices which play an important role to detect early
detection of health issues. To ensure reliable communication and data transmission it require robust, efficient, and
miniaturized antenna systems. This thesis focus on the design, optimization, and implementation of highperformance antennas that can function reliability within the complex electromagnetic environments of the human
body. For the long term operation and patient safety use of biocompatible material is important. The primary
challenge in this research addressed the electromagnetic interaction between the antenna and lossy human tissues.
Wearable antennas placed in the proximity of the body or in the body leads to impedance mismatch, shift in
operating frequency, and the heat absorbed by the biological tissue. Implantable antenna even face more difficulty
due to the size limitation heat absorption by the tissue. Characteristics of the antenna are highly influenced by the
high permittivity and conductivity of the biological tissue .
Key Words:-IoMT, Wearable antennas, Specific Absorption Rate (SAR), Dual-band antenna, IEEE/ICNIRP compliance
Area:-Engineering
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