- Size:1DVD
- Language:english
- Platform:Win7/WIN10
- Freshtime:2023-02-09
- Search:Dragonfly 2022.2 crack Dragonfly 2022.2 tutotrial Dragonfly 2022.2 training
Description
Dragonfly 2022.2
From straightforward visualization to advanced image processing, segmentation, and quantification, Dragonfly delivers the features you need to accomplish meaningful results quickly and confidently.
Standard features
Featuring an easy-to-use user interface with intuitive workflows and an extensive set of tools for the multi-dimensional display, transformation, segmentation, registration, and measurement of multi-scale multi-modality image data, Dragonfly delivers qualitative and quantitative results for material characterization, structure properties, surface analysis, process evaluation, quality control testing, or any analysis function that requires a high-degree of accuracy.
| DATA IMPORT | |
|---|---|
| Dragonfly is the ideal framework for integrating data from multiple sources into a single environment, whether your images come from leading microscope and imaging hardware vendors or RAW files produced by academic software. | |
| Image stacks (.tif*, .tiff*, .jpeg, .jpg, .png, .bmp, .dib extensions). | |
| DICOM image files (.dcm extension). | |
| MRC (.mrc extension), REK (.rek extension), TXM** (.txm extension), CZI*** (.czi extension). | |
| RAW data (.raw and .pic extensions) with or without header files (.dat extension). | |
| Analyze 7.5 files (.hdr extension with accompanying .img extension). | |
| Support for time dependant data and RGB images. | |
| Support for hyperspectral and hyperdimensional images from EDS, EELS, SIMS, EBSD-imaging systems and ptychography (.am, .dm3, .dm4 extensions, and .h5 for pycroscopy). Beta version only. | |
| * Includes support for Hitachi SEM acquisitions. ** File format used by ZEISS Xradia 3D X-ray microscopes. Available for Dragonfly Pro only. *** File format used by ZEISS microscopes. Available for Dragonfly Pro only. |
|
| VISUALIZATION | |
|---|---|
| Dragonfly provides a powerful set of image review and interactive inspection tools that let you gain detailed insight into your 3D data. | |
| Display multiple datasets in fused views or across multiple scene views. | |
| Synchronize 2D and 3D views in the workspace to facilitate side-by-side comparisons of different datasets. | |
| MPR, oblique, and double oblique views in MIP, mIP, and average intensity projections. | |
| Visualization of time dependant data and hyper-dimensional images*. *Beta version only. | |
| Real-time high-quality 3D volume renderings with lighting, transparency, optimized presets, and sectionalization. | |
| Orthographic views with scale bars to get a better sense of an object. | |
| Sharply define objects or features of interest with Focus and Depth of Field controls. | |
| Manipulate tools include Track, Window Level, Pan, Cine, Zoom, and Walk. | |
| Clip tool to interactively clip image data, regions of interest, multi-ROIs, and meshes along orthogonal planes in 3D views. | |
| Visual Plane tool to interactively clip image data, regions of interest, multi-ROIs, and meshes in any arbitrary plane. | |
| Apply visual effects, such as look-up table functions, edge contrast, and window leveling, to enhance 3D visualizations. | |
| Edit and create look-up table functions. | |
| Quickly adjust the opacity of all objects visible in 2D and 3D views with a co-localized Opacity Settings console. | |
| Selectable background colors for 2D and 3D views. | |
| ANNOTATIONS AND MEASUREMENTS | |
|---|---|
| Tools to add annotations to 2D and 3D views and to extract measurements from image data and processed objects include the following: | |
| Add image and text overlays to 2D and 3D views to illustrate findings. | |
| Basic tools for measuring lengths, angles, Cobb angles, and areas. | |
| Point tool for extracting multiple intensities and positions. | |
| Area and depth probe tools for extracting measurements from datasets, multi-ROIs, and meshes. | |
| Profile intensity distribution with spot probes, line and path profiles, and within areas. | |
| Apply an averaging mode to profile intensities perpendicular to a line or path within a disk or square. | |
| Define paths to extract information about curved structures. | |
| Compute a range of measurements, in any oblique, for each slice within a dataset and for datasets as a whole. | |
| Per slice measurements in any oblique of moments of inertia, mean thickness, and perimeter for regions of interest. | |
| Feret diameter measurements (min, mean, max) for regions of interest, multi-ROIs, and meshes. | |
| Statistical properties for regions of interest that include volume, surface, Feret diameters, comparative volumes, and associated intensities. | |
| Anisotropy measurements (MIL and SVD) for regions of interest. | |