Take-Home Messages •Utilizing electromagnetics allows full penetration, low to non-radiation risk, and lower coast for the biomedical application reported in this manuscript. •Combining microwave, thermography, and machine learning produces a promising early breast cancer detection modality. •Breast cancer detection. •The ability of the proposed modality in detecting an early stage breast cancer even in asymmetrical breast utilizing the recording transmitted/scattered wave. •Our technique provides an impression/projection in a manner similar to x-rays. However, it is strictly a detection rather than an imaging modality.

This paper proposes a hybrid breast cancer detection modality consisting of microwaves as a radiation source and an infrared thermography method as a heat-imaging recorder, supported by a Convolution Neural Network (CNN). This hybrid method is based on the difference in the transmitted electromagnetic power between healthy and tumorous breasts. This variation in transmitted power results from the electrical property variance between healthy and cancerous tissues. Under microwave radiation, the power of the transmitted waves leads to a heat distribution pattern on a sensitive screen placed under the breast. This work utilizes the change in the heat pattern to indicate the presence of abnormality inside the breast. Involving a CNN elevates the proposed technique’s detection capability and extracts quantitative data that characterize the tumor’s location and size. The proposed modality shows a capability to detect and determine the size and location of an artificial tumor with a 5 mm radius and a 2:1 permittivity contrast with normal tissue.