| ▼DialogViz | DialogViz is a simple user-interface toolkit |
| Auditors | |
| Dialog | |
| HardCopy | Resolution-independent vector/polygon hardcopy |
| ▼ImageViz | This extension is deprecated since 2023.2 |
| ►Engines | ImageViz engines allow the application of computational algorithms on data extracted from images |
| ►Arithmetic And Logic | The Arithmetics Operations category contains operations between two images or between an image and a constant as addition, subtraction, multiplication, division, minimum or maximum |
| Arithmetic Operations | The Arithmetics Operations category contains operations between two images or between an image and a constant as sum, difference, blending, minimum or maximum |
| Logical Operations | The Logical Operations category contains logical operations between two images
or between an image and a constant as union, intersection, complementary |
| ►Edge Detection | An edge, also known as a discontinuity, in a signal is usually defined as a transition in the intensity or amplitude of that signal |
| Edge Marking | Introduction to Edge Marking |
| Gradient | Introduction to Gradient |
| Laplacian | For a 2-D function F(x,y), one might define the Laplacian operator as : |
| Other Derivatives | This group provides miscellaneous derivative based operators such as partial derivatives or Hessian Matrix |
| ►Geometry And Matching | |
| GeometricTransforms | Geometric Transforms engines are usually used to align images |
| Pattern Recognition | This group provides a package of pattern recognition functions based on standard correlation |
| Registration | This group provides a package of registration functions |
| ►Image Analysis | The purpose of quantitative analysis is to extract new representations in the form of measurements from images |
| Global Measures | The Global Measures category contains analysis engines a measurement globally to the input image |
| Individual Measures | The Individual Measures category contains analysis engines applying a measurement on each label of the input image |
| Morphometry | The purpose of Morphometry category is to calculate morphometric parameters either in 3D based on a volume model, or in 2D from crossection images (individually or integrated over a volume-of-interest) |
| Statistics | The Statistics category contains analysis engines applying an intensity- based measurement globally to the input image |
| ►Image Filtering | This category gathers engines for filtering images |
| Color Transforms | This group contains engines specifically applying on a color input image |
| Frequency Domain | This category contains FFT and related engines to work on frequency domain |
| Grayscale Transforms | The Grayscale Transforms category contains gray level transformations such as histogram equalization and intensity rescaling operations |
| Sharpening | The Sharpening category contains filters used to enhance the edges of objects and adjust contrast and shade characteristics |
| Smoothing And Denoising | The Smoothing And Denoising category contains lowpass filters to reduce the contrast and soften the edges of objects in an image |
| Texture Filters | This category contains engines revealing texture attributes |
| ►Image Manipulation | The Image Manipulation category contains engines for creating and editing images |
| Image Editing | |
| Stack Operations | The Stack Operations category contains engines for manipulating image stacks |
| Synthetic Images | |
| ►Image Segmentation | Segmentation is a critical step of image processing that consists of partitioning an image into multiple segments (sets of pixels) |
| Binarization | Binarization allows to transform graylevel or color images into a binary image |
| Classification | Pixel classification technics allow to segment an image into different regions relatively to a set of attributes |
| Computational Geometry | This group contains engines capable of transforming images into geometric objects |
| Feature Selection | |
| Labeling | |
| Region Growing | This group contains segmentation engines based on the propagation of a seed |
| Separating And Filling | |
| ►Mathematical Morphology | The Mathematical Morphology is a theory for the analysis of geometrical structures |
| Distance Maps | Geodesy Principle |
| Erosion And Dilation | Introduction to Erosion |
| Geodesic Transformations | Geodesy Principle |
| Hit-Or-Miss And Skeleton | The Hit-or-miss and Skeleton category contains engines used to produce simplified representations of the objects in an image, while preserving their geometrical structure |
| Opening And Closing | Introduction to Opening |
| Fields | |
| ►Nodes | |
| Analysis | |
| Geometries | |
| Images | Data conversion conventions in ImageViz Open Inventor supports some data types that are not supported in ImageViz and vice versa |
| Luts | |
| Measures | Introduction Measurements allow to quantify dimensional, shape or intensity features from objects of the input data |
| Registration | |
| Workflows | |
| ▼Inventor | Open Inventor is an object-oriented and OpenGL-based API for real-time 3D visualization |
| Actions | |
| ►Algorithms | Module that define available Open Inventor optimized algoritms |
| CPU algorithms | CPU optimized module implementing Open Inventor algorithms |
| Collision | Collision Detection |
| Stereo | |
| Details | |
| ►Devices | Open Inventor supported devices |
| CPU device | |
| GL device | |
| Draggers | |
| Drawers | These classes provide convenient components to draw polyline, ellipse, lasso, or complex scene graph in 2D screen space |
| Elements | The element classes are used internally for storing information in Open Inventor's traversal state list |
| Engines | |
| Errors | |
| Events | |
| Fields | |
| Image | |
| ►Inventor IO | Inventor IO component |
| Inventor CAD file format support | Inventor CAD file format support |
| Inventor STL file format support | Inventor STL file format support |
| Manips | |
| MPEG | |
| NodeKits | |
| ►Nodes | |
| Geographic nodes | |
| Groups | |
| ►Properties | |
| Cameras | |
| Lights & colors | |
| Textures | |
| Shapes | |
| Transforms | |
| Backgrounds | |
| Shaders | |
| Basics | |
| General | |
| Plugins | |
| ►Viewers | Open Inventor supports multiple viewer GUI mode: |
| Views | |
| Qt | Qt component library |
| Win | Windows component library |
| Xt | Xt component library |
| Projectors | |
| Sensors | |
| Large Model | Large Model Visualization |
| Threads | |
| ►Viewer Components | Viewer components contains helpful tools to implement a custom viewer |
| MFC Viewer Components | MFC viewer component classes used by the MFC examples |
| Nodes | Viewer components nodes independent from graphical user interface |
| Qt ViewerComponents | Qt viewer component classes used by the Qt examples |
| Win ViewerComponents | MS-Windows viewer component classes used by the MS-Windows UI examples |
| ▼IvTune | IvTune is an extensible, interactive tool that allows the user to inspect and modify Open Inventor scene graphs, even in a running application program |
| ►IvTuneExtender | IvTuneExtender is an API that allows you to create plug-ins that extend IvTune's capabilities |
| ►IvtDefaults | The pre-built IvTune plug-in that provides basic services |
| Console | This extension prints errors, informations and warnings occuring during |
| Profile Selector | This extension allows to switch between profiles defined in the configuration file |
| PerfCounter | This extension allows to monitor performance |
| Node Editor | A container extension who is able to control node editors extensions, and promote the most specialized editor when a node is selected |
| Field Editor | A container extension who is able to control field editors extensions, and promote the most specialized editor when a field is selected |
| MFColor | A SoMFColor field editor extension |
| MField | A SoMField field editor extension |
| MFFloat | A SoMFFloat field editor extension |
| MFInt32 | A SoMFInt32 field editor extension |
| MFMatrix | A SoMFMatrix field editor extension |
| MFPlane | A SoMFPlane field editor extension |
| MFRotation | A SoMFRotation field editor extension |
| MFShort | A SoMFShort field editor extension |
| MFString | A SoMFString field editor extension |
| MFUInt32 | A SoMFUInt32 field editor extension |
| MFUShort | A SoMFUShort field editor extension |
| MFVec2f | A SoMFVec2f field editor extension |
| MFVec2i32 | A SoMFVec2i32 field editor extension |
| MFVec2s | A SoMFVec2s field editor extension |
| MFVec3f | A SoMFVec3f field editor extension |
| MFVec4f | A SoMFBitMask field editor extension |
| SFBitMask | A SoSFBitMask field editor extension |
| SFBool | A SoSFBool field editor extension |
| SFBox2f | A SoSFBox2f field editor extension |
| SFBox3s | A SoSFBox3s field editor extension |
| SFColor | A SoSFColor field editor extension |
| SFEnum | A SoSFEnum field editor extension |
| SFFloat | A SoSFFloat field editor extension |
| SFImage | A SoSFImage field editor extension |
| SFInt32 | A SoSFInt32 field editor extension |
| SField | A SoSField field editor extension |
| SFMatrix | A SoSFMatrix field editor extension |
| SFName | A SoSFName field editor extension |
| SFPlane | A SoSFPlane field editor extension |
| SFRotation | A SoSFRotation field editor extension |
| SFShort | A SoSFShort field editor extension |
| SFString | A SoSFString field editor extension |
| SFUInt32 | A SoSFUInt32 field editor extension |
| SFUShort | A SoSFUShort field editor extension |
| SFVec2f | A SoSFVec2f field editor extension |
| SFVec2i32 | A SoSFVec2i32 field editor extension |
| SFVec2s | A SoSFVec2s field editor extension |
| SFVec3f | A SoSFVec3f field editor extension |
| SFVec4f | A SoSFVec4f field editor extension |
| SoInputGenericReader | This IvTune generic reader is an example of how to create a reader plugin for Open Inventor |
| ►IvtTools | This IvTune plugin provides a set of extensions for Open Inventor core features |
| Directional Light Editor | IvTune extension to edit SoDirectionalLight nodes |
| Processing Menu | IvTune extension that adds a context menu to IvTune's tree view for SoShape processing |
| Shader Editor | IvTune extension that allows editing an SoShaderObject |
| Viewing Toolbar | IvTune extension that adds a toolbar with viewer buttons and new features |
| ►IvtToolsLDM | IvtToolsLDM is a set of IvTune extensions specialized for VolumeViz LDM |
| Alpha Curve Editor | IvTune extension to edit alpha values in colormaps of SoTransferFunction nodes |
| SFLDMResourceParameters | IvTune extension which simplifies the tuning of SoSFLDMResourceParameters fields |
| ▼LDM | Large Data Management |
| Actions | |
| Compressor | |
| Converters | |
| Manips | |
| Nodes | |
| Misc | |
| Kernel | |
| Readers | |
| Tiles | |
| ▼Medical | Provides some node and helper classes specifically created to facilitate implementation of medical applications |
| Helpers | Medical Utility Helper Classes |
| Nodes | Medical Utility Node Classes |
| ▼MeshViz | MeshViz is a C++ class library that extends Open Inventor |
| ►Mesh | |
| Property/Data | |
| Representation | |
| Fields | |
| Misc | |
| ►Graph | |
| Axis | |
| Legend | |
| Histogram | |
| PieChart | |
| Curve | |
| Scatter | |
| Misc | |
| Property | |
| Misc | |
| ▼MeshVizXLM | MeshVizXLM is an API useful for extracting and visualizing features from meshes |
| ►Mesh interfaces | |
| Cell | |
| Topology | |
| Geometry | |
| DataSets | |
| ►Mapping | |
| Representations | |
| Actions | |
| Attributes | |
| Elements | |
| Details | |
| ►Extractors | |
| Cell | |
| Isosurface | |
| Isoline | |
| Clip | |
| Outline | |
| Slice | |
| Logical slice | |
| Skin | |
| Surface | |
| Streamline | |
| Probe | |
| Tessellation | |
| Utilities | |
| ►Extracted mesh interfaces | |
| Cell | |
| Topology | |
| Geometry | |
| DataSets | |
| ▼RemoteViz | Open Inventor® RemoteViz enables software developers to easily integrate advanced 3D visualization into their web- based applications |
| Authentication | Summary |
| LoadBalancing | Summary |
| Getting Started | |
| ►ReverseProxy | |
| Apache | RemoteViz and Apache reverse proxy |
| HAProxy | |
| IIS | RemoteViz and IIS reverse proxy |
| NGinx | RemoteViz and NGinx reverse proxy |
| NodeJS | RemoteViz and NodeJS reverse proxy |
| Others | RemoteViz with Reverse Proxy |
| ▼VolumeViz | VolumeViz is an Open Inventor extension |
| Converters | |
| Details | |
| Draggers | |
| Nodes | |
| Readers | |
| ▼Shaders | Shader API |
| ►Inventor Shader API | Inventor Shader API |
| ShaderState API |  Open Inventor Shader API state accessors |
| Transparency Shader API | To properly handle transparency, your fragment shader should contains the following function calls: |
| AlgebraicShape Shader API | These API are available when defining a custom algebraic shape |
| Vertex attributes | Open Inventor Shader API shape attributes accessors |
| Instancing variables | Open Inventor Shader API instancing parameters accessors |
| Shader variables | Open Inventor Shader API variables accessors |
| ►VolumeViz Shader API | The VolumeViz shader pipeline is composed of multiple stages |
| Data structures and constant |  VolumeViz GLSL shaders data structures and constants |
| Vertex shaders | VolumeViz GLSL vertex shaders API |
| Tessellation shaders | VolumeViz GLSL tessellation shaders API |
| Fragment shaders | VolumeViz GLSL fragment shaders API |
1.9.8