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Welcome to MOSE !
Ge Wang, Ph. D., wangge@vt.edu
Jie Tian, Ph. D., tian@ieee.org
Molecular Optical Simulation Environment (MOSE) is a simulation platform for bioluminescence imaging research co-developed by Xidian University, Institute of Automation, Chinese Academy of Sciences, China and Virginia Polytechnic Institute & State University, USA. MOSE is featured by that it implements the simulation of light propagation both in tissues with complicated shapes (such as mouse) and in free-space. Based on the gold standard Monte Carlo method, MOSE simulates various activities of light propagation in tissues, exemplified by absorption, scattering and refraction. It produces accurate simulation results comparable to that of the real experiment. The friendly user-interface and powerful visualization abilities facilitate the simulation and data analysis easily. MOSE is provided as freeware for research and educational institutions.
Features:
Simulation of light propagation in complicated shape tissues.
Simulation of light propagation in free-space.
Simulation in condition of multi-spectral, multi-source and multi-view simultaneously.
3D surface flux distribution reconstruction of complicated tissues.
Main Functions:
Data Interface: efficient and convenient data input and output modes, including text, dialog box and graphics.
Monte Carlo Simulation: simulation of photon propagation in tissues and in free-space.
Energy Reconstruction: 3D surface flux distribution reconstruction of complicated biological tissues using multi-view data.
Graphic Display: flexible setting of display attribute.Data Analysis: both in text and graph modes.
Copyright © by Molecular Image Group, Life Sciences Research Center, Xidian University
Medical Image Processing Group, Institute of Automation, Chinese Academy of Sciences
Virginia Polytechnic Institute & State University, USA