Digital Optical Microscopy Systems
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| Designed for laboratory and process |
| Unique concept based on open technology |
| Plug and Play system |
| Largest selection of high end optics and illumination |
| Most powerful processor for demanding tasks |
| User friendly, powerful and highly adaptive software |
| Windows™ based operating system |
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| Software |
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 system is controlled by our MIMAS software. With a click of a mouse or with pressing a button of a remote control, processes are activated. From MIMAS one can control: the camera, the light source, the motor(s) of lenses, the motors of XYZ and rotation stages. Once all units are set, images can be acquired and processed. Features of image analysis software incorporated into the package: calibration procedures, abundant 2Dmeasurement software, 3D display software with related geometrical calculations and real time particle analysis. software has powerful features to perform real time particle analysis. Morphometric parameters are calculated in real time and statistics like flow diagrams, histograms and two-dimentional morphomentry clustering can be monitored.
 Roundness - The roundness is calculated as the relation between the inner and outer diameter. The largest circle inside the object defines the inner diameter. The smallest circle outside the object defines the outer diameter. The objects center of gravity is taken as the center of both circles.
Elongation - The elongation is subtracted by the relation between the length of the objects extension perpendicular to the main axis and the length of the object’s main axis. The longest object extension defines the main axis. Both lengths have to hit the objects center of gravity.
Rmin – Inner radius of the object. Rmax – Outer radius of the object.
Compactness - The compactness is calculated as the relation between the objects area and its perimeter ([4*p*A]/p2). A perfect circle has a compactness of 100%.
Roughness - The roughness is calculated as the relation between the area, not covered by a circle scanning the objects inner border, and the total object area. The scanning circle is defined as X percent of the Rmin.
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