| Abstract Scope |
Micron Computed Tomography(µCT) imaging has emerged as a crucial technique in high-resolution medical and material diagnostics, offering unprecedented insights at micro-level details. Despite its advantages, µCT faces challenges related to image noise, image artifacts, resolution constraints, and significant data processing demands. Our digital twin simulation project provided a practical framework solution tailored specifically for polychromatic X-ray source, image registration, and image synthetization enhancing spectral CT reconstruction and addressing these challenges effectively.
This research develops a dynamic, high-fidelity simulation model that mirrors the µCT scanning process, allowing for the optimization of imaging parameters and protocols to achieve optimal resolution and contrast while minimizing noise and computational load. The digital twin enables virtual experimentation with various scanning parameters under spectral scanning, thus reducing the need for physical scans that are often time-consuming and resource intensive. |