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Abstract
The possibility of improving the spatial resolution of diffuse optical tomograms reconstructed by the photon average trajectories (PAT) method is substantiated. The PAT method recently presented by us is based on a concept of an average statistical trajectory for transfer of light energy, the photon average trajectory (PAT). The inverse problem of diffuse optical tomography is reduced to a solution of an integral equation with integration along a conditional PAT. As a result, the conventional algorithms of projection computed tomography can be used for fast reconstruction of diffuse optical images. The shortcoming of the PAT method is that it reconstructs the images blurred due to averaging over spatial distributions of photons which form the signal measured by the receiver. To improve the resolution, we apply a spatially variant blur model based on an interpolation of the spatially invariant point spread functions simulated for the different small subregions of the image domain. Two iterative algorithms for solving a system of linear algebraic equations, the conjugate gradient algorithm for least squares problem and the modified residual norm steepest descent algorithm, are used for deblurring. It is shown that a gain in spatial resolution can be obtained.
Highlights
The main problem of medical diffuse optical tomography (DOT) is the low spatial resolution due to multiple light scattering, which causes photons to propagate diffusely in a tissue
The shortcoming of the photon average trajectories (PAT) method is that it reconstructs the tomograms blurred due to averaging over spatial distributions of photons which form the signal measured by the receiver
Under visualization the boundary region corresponding to outer segments of broken PATs was filled by zeros and full image domain was shown in each case
Summary
The main problem of medical diffuse optical tomography (DOT) is the low spatial resolution due to multiple light scattering, which causes photons to propagate diffusely in a tissue. To study the efficiency of the blur model assumed, a numerical experiment on reconstruction of circular scattering objects with absorbing inhomogeneities is conducted, the individual PSFs are simulated for different subregions of the image domain, the weighting matrix that models the blurring operation is formed, and two well-known iterative algorithms for solving a system of linear algebraic equations are applied to restore the reconstructed blurred tomograms. These algorithms are the conjugate gradient algorithm for least squares problem (CGLS) [20] and the modified residual norm steepest descent algorithm (MRNSD) [21, 22]. This gain is estimated by means of the modulation transfer function (MTF) and seems to be greater than that obtained by using FBP with Vainberg filtration
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