ON THE FUTURE OF 3-D VISUALIZATION IN NON-MEDICAL INDUSTRIAL X-RAY COMPUTED TOMOGRAPHY

摘要

The purpose of imaging is to capture and record the details of an object for both current and future analysis in a transportable and archival format. Generally, the development and understanding of the relationships of the features of interest thus revealed in the image is ultimately essential for the beneficial utilization of that that knowledge. Modern advanced imaging methods utilized in both medical and industrial applications are predominantly of a digital format, and increasingly moving from a 2-D to 3-D modality to allow for significantly improved detail resolution and clarity of volumetric visualization. Conventional digital radiography (DR), for example, compresses an entire object volume onto a 2-D planar image with consequent lack of spatial resolution and considerable loss of small volume feature resolution. Computed tomography (CT) overcomes both of these limitations, providing the highly desirable capability of precise 3-D detection, localization and characterization of multiple features throughout the subject object volume. CT has the further capability to reconstruct virtual 3-D solid object images with arbitrary and reversible planar sectioning and of variable transparency to clearly visualize features of different densities in situ within an otherwise opaque object. While tomographic imaging is utilized in various medical CT, MRI, PET, EBCT and 3-D Ultrasound modalities, only the X-ray CT imaging is briefly discussed here as it presents comparable high quality images and is quite similar and synergistic with industrial XCT. Medical CT procedures started in the late 1970's (originally known as CAT Scan) and have progressed to the extent of being experienced and accepted by much of the general population. Non-Medical CT (or Industrial XCT) technology has historically followed in the shadow of Medical CT but remains today considerably less pervasive. There are however increasingly several important equipment and application distinctions. These will be discussed somewhat, but with the main emphasis on the importance of their present synergy and the future directions of 3D imaging, visualization and the emergence of new innovative applications for this unique non-destructive examination and characterization technology.