Phase space measurement with forward modeling

Scattering is one of the biggest problems in biomedical imaging, given that scattered light is eventually defocused, thus resulting in diffused images^[1]. Phase space measurement with forward modeling is one approach to address the scattering issue in biomedical imaging. Instead of removing scattered light, this approach uses the information of scattered light to reconstruct the original light signals. This approach requires the phase space data of light in imaging system and a forward model to describe scattering events in a turbid medium. Phase space of light can be obtained by using digital micro device (DMD)^[2] or light field microscopy^[3].

Phase space of light is used to delineate the space and spatial frequency of light ^[4].

The Wigner function can be used for a forward model ^[2]
${\displaystyle W(r,u)=\iint \limits _{D}<{\tilde {f}}^{*}(u+u'/2){\tilde {f}}(u-u'/2)>e^{i2\pi u'r}d^{2}u'}$ (1)

Eventually, scattering and propagation of light can be described as ^[2]
${\displaystyle W(r,u)={\frac {-Nr^{2}}{2\pi \lambda ^{2}\sigma ^{2}(Zd-Zs)^{2}}}e^{{\frac {Nr^{2}}{2\lambda ^{2}\sigma ^{2}(Zd-Zs)^{2}}}(r-rs+\lambda (Zd-{\frac {Zd-Zs}{Nr}})u)^{2}}}$ (2)

The the weight sum of decomposed contribution is
${\displaystyle {\hat {I}}(r,u)=\sum _{rs,Zs}C(rs,Zs)W(r,u;rs,Zs)}$ (3)
where ${\displaystyle C(rs,Zs)}$ is an coefficient that represents the intensity of light from a point source at the location ${\displaystyle (rs,Zs)}$

${\displaystyle \min _{c\geqslant 0}\sum _{r,u}\left\vert I(r,u)-{\hat {I}}(r,u)\right\vert ^{2}+\mu \sum _{rs,Zs}\left\vert c(rs,Zs)\right\vert }$

Phase space measurement with forward modeling can be used in neuroscience to record neuronal activity in the brain. Researchers have been widely using two-photon scanning microscopy to visualize neurons and their activity by imaging fluorescence emitted from calcium indicators expressed in neurons ^[3]. However, two-photon scanning microscopy is slow, because it has to scan all the pixels one by one in the target of interest. One advantage of using Phase space measurement with forward modeling is fast, which largely depends on the speed of camera being used ^[3]. A light field camera can capture an image with all the pixels in one frame at a time to speed up the frame rate of their system. This feature can facilitate voltage imaging in the brain to record action potentials.