论文信息 - A novel optimized parallelization strategy to accelerate microwave tomography for breast cancer screening

A novel optimized parallelization strategy to accelerate microwave tomography for breast cancer screening

Microwave tomography has been proven to successfully reconstruct the dielectric profile of a human breast when used in breast imaging applications, thereby providing an alternative to other imaging modalities. However, the method suffers from high computational requirements which restrict its use in practical imaging systems. This paper presents a novel parallelization strategy to accelerate microwave tomography for reconstruction of the dielectric properties of the human breast. A Time Domain algorithm using this parallelization strategy has been validated and benchmarked against an optimized sequential implementation on a conventional high-end desktop Central Processing Unit (CPU), and a comparison of throughput is presented in this paper. The gain in computational throughput is shown to be significantly higher compared with the sequential implementation, ranging from a factor of 26 to 58, on imaging grid sizes of up to 25 cm square at 1mm resolution.

Martin Glavin | Martin O'Halloran | Edward Jones | A. Shahzad

[1] Avrim Blum,et al. The On-Line Search , 1985 .

[2] Dennis M. Sullivan,et al. Electromagnetic Simulation Using the FDTD Method: Sullivan/Electromagnetic Simulation Using the FDTD Method , 2013 .

[3] Toshifumi Moriyama,et al. Microwave breast imaging by the filtered forward-backward time-stepping method , 2010, 2010 URSI International Symposium on Electromagnetic Theory.

[4] Robert H. Svenson,et al. Computational modeling of three-dimensional microwave tomography of breast cancer , 2001, IEEE Transactions on Biomedical Engineering.

[5] Jeremie Bourqui,et al. A Prototype System for Measuring Microwave Frequency Reflections from the Breast , 2012, Int. J. Biomed. Imaging.

[6] J. D. Shea,et al. Three-dimensional microwave imaging of realistic numerical breast phantoms via a multiple-frequency inverse scattering technique. , 2010, Medical physics.

[7] Edward Jones,et al. A Preprocessing Filter for Multistatic Microwave Breast Imaging for Enhanced Tumour Detection , 2014 .

[8] Paul M. Meaney,et al. Fast 3-D Tomographic Microwave Imaging for Breast Cancer Detection , 2012, IEEE Transactions on Medical Imaging.

[9] Annett Baier,et al. Electromagnetic Simulation Using The Fdtd Method , 2016 .