Laminography

Laminography is an image examination method based on the use of thin layers or plates. This method allows you to obtain a more detailed and accurate image of the object than with conventional photography or scanning.

Laminography is used in various fields such as microscopy, electron microscopy, X-ray microscopy and others. It allows you to study objects on very small scales that cannot be seen with the naked eye.

One of the advantages of laminography is the ability to obtain high-resolution images. This allows you to study the structure of objects in detail, identifying small details and features. In addition, laminography can be used to create three-dimensional models of objects.

However, despite all the advantages, laminography has its limitations. For example, it cannot always be used to study large objects or objects located at a great distance from the researcher. Also, obtaining high-quality images requires special equipment and skills to work with it.

Laminography is a method of analyzing the structure of images along the dividing line, in which objects are depicted on two different fragments of the image, their dividing lines determine behavior in the presence of a shadow. If objects are located on the front side of the image, they will intersect the dividing line at the bend of the left side, but if objects are located in the background of the image, they will follow its center line. Thus, the dividing line becomes a kind of "contour" for the figures that it divides. Secondly, the position and orientation of parting lines, as well as their relationships, can be useful for creating prototypes of objects where the parting line plays the role of the main drawing.

**The dividing line can act as an “outline” for figures in a split image**. Definition – “Foreground” means a fragment of an image in which clearly visible and bright parts of objects are presented. The back fragment shows the outlines of silhouettes, shadow design elements, contours of bodies and structures, and background. The concept of the relationships between objects at different depths when the depth is separated is called interactive interface.