As part of my academic journey, I have contributed to electronics and communications engineering, particularly in biomedical instrumentation. My research has been published in reputable journals, and I explore how science and technology can be communicated to broader audiences.
Microstrip Patch Antenna Design for Early Breast Cancer Detection
This research explores the use of microwave imaging for the early detection of breast cancer, a leading cause of death among women worldwide. Microwave imaging offers several advantages over traditional diagnostic methods, such as being non-ionizing, portable, and cost-effective. A key component of this technique is the microstrip patch antenna, which is small, lightweight, and can be made flexible using textile materials. This paper reviews recent advancements in microstrip patch antenna design for breast cancer detection, comparing various designs based on performance metrics such as substrate material, feeding techniques, and safety parameters.
Design and Simulation of Reduced Defected Ground Structure (DGS) Rectangular Patch Antenna for Breast Tumor Detection
This paper presents the design of a novel rectangular microstrip patch antenna with a reduced DGS for early breast cancer detection using microwave imaging. The antenna is capable of detecting tumors as small as 1.5 mm in radius. By comparing electromagnetic field parameters in a breast model with and without a tumor, the design shows promising potential for safe and non-invasive detection.
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