A Line-Source Approach for Simulating MammoWave Microwave Imaging Apparatus for Breast Lesion Detection

Navid Ghavami; Sandra Dudley; Mohammad Ghavami; Gianluigi Tiberi

doi:10.3390/s25123640

A Line-Source Approach for Simulating MammoWave Microwave Imaging Apparatus for Breast Lesion Detection

Navid Ghavami, Sandra Dudley, Mohammad Ghavami, Gianluigi Tiberi

UBT-Umbria Bioengineering Technologies

Research output: Contribution to journal › Article › peer-review

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Abstract

Here, we propose an analytical approach to simulating MammoWave, a novel apparatus for breast cancer detection using microwave imaging. The approach is built upon the theory of cylindrical waves emitted by line sources. The sample is modelled as a cylinder with an inclusion. Our results indicate that when compared with phantom measurements, our approach gives an average relative error (between the image generated through measurement with phantoms and the image generated through the analytical simulation approach) of less than 6% when considering the full frequency band of 1–9 GHz. The procedure permits the simulation of the MammoWave imaging system loaded with multilayered eccentric cylinders; thus, it can be used to obtain an insight into MammoWave’s detection capability, without having to perform either time-consuming full-wave simulations or phantom measurements.

Original language	English
Article number	3640
Journal	Sensors
Volume	25
Issue number	12
Early online date	10 Jun 2025
DOIs	https://doi.org/10.3390/s25123640
Publication status	E-pub ahead of print - 10 Jun 2025

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10.3390/s25123640

sensors-25-03640Final published version, 2.33 MBLicence: CC BY 4.0

Cite this

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title = "A Line-Source Approach for Simulating MammoWave Microwave Imaging Apparatus for Breast Lesion Detection",

abstract = "Here, we propose an analytical approach to simulating MammoWave, a novel apparatus for breast cancer detection using microwave imaging. The approach is built upon the theory of cylindrical waves emitted by line sources. The sample is modelled as a cylinder with an inclusion. Our results indicate that when compared with phantom measurements, our approach gives an average relative error (between the image generated through measurement with phantoms and the image generated through the analytical simulation approach) of less than 6\% when considering the full frequency band of 1–9 GHz. The procedure permits the simulation of the MammoWave imaging system loaded with multilayered eccentric cylinders; thus, it can be used to obtain an insight into MammoWave{\textquoteright}s detection capability, without having to perform either time-consuming full-wave simulations or phantom measurements.",

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AU - Dudley, Sandra

AU - Ghavami, Mohammad

AU - Tiberi, Gianluigi

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AB - Here, we propose an analytical approach to simulating MammoWave, a novel apparatus for breast cancer detection using microwave imaging. The approach is built upon the theory of cylindrical waves emitted by line sources. The sample is modelled as a cylinder with an inclusion. Our results indicate that when compared with phantom measurements, our approach gives an average relative error (between the image generated through measurement with phantoms and the image generated through the analytical simulation approach) of less than 6% when considering the full frequency band of 1–9 GHz. The procedure permits the simulation of the MammoWave imaging system loaded with multilayered eccentric cylinders; thus, it can be used to obtain an insight into MammoWave’s detection capability, without having to perform either time-consuming full-wave simulations or phantom measurements.

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