Abstract
Transmission multispectral imaging (TMI) has potential value for medical applications, such as early screening for breast cancer. However, because biological tissue has strong scattering and absorption characteristics, the heterogeneity detection capability of TMI is poor. Many techniques, such as frame accumulation and shape function signal modulation/demodulation techniques, can improve detection accuracy. In this work, we develop a heterogeneity detection method by combining the contour features and spectral features of TMI. Firstly, the acquisition experiment of the phantom multispectral images was designed. Secondly, the signal-to-noise ratio (SNR) and grayscale level were improved by combining frame accumulation with shape function signal modulation and demodulation techniques. Then, an image exponential downsampling pyramid and Laplace operator were used to roughly extract and fuse the contours of all heterogeneities in images produced by a variety of wavelengths. Finally, we used the hypothesis of invariant parameters to do heterogeneity classification. Experimental results show that these invariant parameters can effectively distinguish heterogeneities with various thicknesses. Moreover, this method may provide a reference for heterogeneity detection in TMI.
Highlights
Transmission multispectral imaging (TMI) can be used for early breast cancer detection because heterogeneous materials may be detected by using multiband information [1,2,3,4]
The signal-to-noise ratio (SNR) and grayscale levels of the demodulated images obtained by using frame accumulation and shape function signal modulation and demodulation technology are significantly improved compared with the single-frame image
We focused on mitigating the difficulties brought about when trying to detect heterogeneous materials from TMI
Summary
Transmission multispectral imaging (TMI) can be used for early breast cancer detection because heterogeneous materials may be detected by using multiband information [1,2,3,4]. Dhokkar [5,6] proposed a frame-accumulation method that improves the SNR of the image. Li [7,8] and Tang [9] proposed a method of combining frame-accumulation technology with shape function signal technology in the preprocessing stage. This method improves the SNR of the image. To improve light-emitting diode (LED)-based multispectral image acquisition, Li [11] proposed and proved the multiwavelength “synergy effect”, which can improve the quality of each waveband obtained by frequency-division modulation.
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