Breast tissue tumor detection using “S” parameter analysis with an UWB stacked aperture coupled microstrip patch antenna having a “ + ” shaped defected ground structure

Microwave imaging is an efficient technique that can be used for the early detection of breast cancer. Therefore the current research article presents the microwave imaging of two spherical tumors (radius 4 and 5 mm) in the breast phantom by using the monostatic radar-based technique. This is carrie...

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Bibliographic Details
Published in:International journal of microwave and wireless technologies 2020-09, Vol.12 (7), p.635-651
Main Authors: Kaur, Gagandeep, Kaur, Amanpreet
Format: Article
Language:English
Subjects:
Algorithms
Anechoic chambers
Antennas
Apertures
Bandwidths
Beamforming
Biomedical Applications
Breast cancer
Computer simulation
Design
Imaging
Magnetic resonance imaging
Mammography
Medical screening
Microstrip antennas
Network analysers
Parameters
Patch antennas
Petrolatum
Polyethylenes
S parameters
Simulation
Tissues
Tumors
Ultrasonic imaging
Ultrawideband
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Summary:Microwave imaging is an efficient technique that can be used for the early detection of breast cancer. Therefore the current research article presents the microwave imaging of two spherical tumors (radius 4 and 5 mm) in the breast phantom by using the monostatic radar-based technique. This is carried out by using an ultra-wideband (4.9–10.9 GHz), three-layered stacked aperture coupled microstrip antenna (SACMPA) with a defected ground structure to scan the breast phantom and make near field S parameter measurements from a breast phantom. The S parameter data from different locations and at different time intervals are noted and then used in a beam-forming algorithm; Delay and Sum to process it and form a 2D image of the tumor location in the breast phantom using MATLAB. The proposed SACMPA is a three-layered structure with overall dimensions of 37 × 43 × 4.85 mm3 that shows an impedance bandwidth of 6 GHz (4.9–10.9 GHz) and a simulated peak gain of 6.32 dB at a frequency of 9.1 GHz. The validation of S parameters and gain results are done using a Vector Network Analyzer (VNA) and an anechoic chamber. The experimental validation of the proposed microwave imaging procedure is done by allowing the SACMPA to radiate parallel to the breast phantom made from polythene (skin), petroleum jelly (fat), and wheat flour (with water as tumor) and record the S parameters on the VNA. The proposed microwave method is safe for human exposure as the antenna also shows simulated specific absorption rates of 0.271 and 1.115 W/Kg (on the breast phantom) at frequencies of 5.7 and 6.5 GHz, respectively (for 1 g of body tissue).
ISSN:1759-0787
1759-0795
DOI:10.1017/S1759078719001442