Author:
Fan Yucheng,Li Xiaoshuang,Li Zhiqiang,Wang Jingjing,Xu Huaqiang
Abstract
Abstract
Tumor imaging in medicine requires consideration of human safety, image quality clarity, and cost of imaging. Ultra-wideband (UWB) technology employs large bandwidth channels that enable high-speed data transmission. This determines that it can provide high-quality images quickly while still being a harmless imaging method. Therefore, it is essential to construct a UWB microwave detection tumor system. The creation of a vector network analyzer (VNA) based microwave imaging system in this work. To adapt to breast imaging, this paper improved the imaging algorithm of global back projection (GBP) based on the classical back projection algorithm. To verify the system’s feasibility, this paper performed UWB detection experiments using a breast tumor model. By comparing the simulation results, the final imaging results show that the UWB imaging system can detect tumors located at two different locations in the model and that high-quality images can be obtained in the near field using the GBP algorithm. This paper provides a reliable and low-cost method for medical diagnosis.
Reference10 articles.
1. Zero-index metamaterial superstrates uwb antenna for microwave imaging detection;Jamlos;Comput. Mater. Contin,2023
2. DDFC: deep learning approach for deep feature extraction and classification of brain tumors using magnetic resonance imaging in E-healthcare system;Saboor;Scientific Reports,2024
3. Design and analysis of the Flexible Antenna behavior for Microwave Imaging of breast cancer;Chaurasia;Journal of Integrated Science and Technology,2024
4. UWB microwave breast screening with self-mixed baseband analog signal processing;Taherzadeh,2024
5. Microwave imaging and sensing techniques for breast cancer detection;Wang;Micromachines,2023