Objective. Fluorescence molecular tomography (FMT) is a promising non-invasive optical
molecular imaging technology with strong specificity and sensitivity that has great potential …

As a high-sensitivity and non-invasive technique, optical molecular tomography (OMT) can
locate and visualize tissue quantitatively in three dimensions by collecting surface photons …

The outset of realistic rendering is a desire to reproduce the appearance of the real world.
Rendering techniques therefore operate at a scale corresponding to the size of objects that …

X‐ray luminescence computed tomography (XLCT) uses external X‐rays for luminescence
excitation, which is becoming a promising molecular imaging technique with superb …

Bioluminescence tomography (BLT) is a promising in vivo molecular imaging tool that allows
non-invasive monitoring of physiological and pathological processes at the cellular and …

Objective. The reconstruction of three-dimensional optical imaging that can quantitatively
acquire the target distribution from surface measurements is a serious ill-posed problem …

Optical imaging is an emerging technology capable of qualitatively and quantitatively
observing life processes at the cellular or molecular level and plays a significant role in …

For fluorescence tomographic imaging of small animals, the liver is usually regarded as a
low-scattering tissue and is surrounded by adipose, kidneys, and heart, all of which have a …

Cerenkov luminescence tomography (CLT) can reproduce the location of the tumor inside
the body and the physiological processes that are related to its biological behavior, it has …

X-ray luminescence computed tomography (XLCT) is an emerging hybrid imaging modality
in optical molecular imaging, which has attracted more attention and has been widely …