MAGNET Modeler for Autodesk: Concepts and terminology

MAGNET Modeler has two separate main modules: Modeler and Explorer. Modeler is used to create a virtual model (*.VM file) from a CAD drawing and other sources.

• MAGNET Modeler supports the following for creation of the virtual model: 
  • Polylines
  • Lines
  • Points
  • Blocks
  • Splines
  • Ellipses
  • Arcs
  • Circles
• If a map has 3D information, it is used based on the way each object type uses it.

In general, MAGNET Modeler does not use or require any specific units.

• Units are the same throughout the software, except for some features that work with meters (m).
• These include the walk mode and the speedometer.
• These features work correctly if the model has been created using the metric system (1 m = 1 unit).

Note that MAGNET Modeler does not correct errors in the source data.

• In many old maps, there are errors that may affect the virtual modeling.
• The input data should consist of closed and continuous polylines.
  • For example, crossing polylines and gaps in polylines cause problems when modeling buildings or material areas, but they work well when modeling fences or element chains.

Terrain model

• Terrain model is a surface that can be read from any grid, triangular network, or mesh that is in an AutoCAD drawing as 3D face elements.
• All other MAGNET Modeler objects are modeled on top of the terrain unless otherwise defined.
  • This is the basis for the whole model.
  • If there is no terrain model defined, a flat terrain covering all the map elements is generated.

Surface

• A surface is a set of 3D surface elements with materials attached.
• It can be generated from various surface objects, such as:
  • Surface models
  • Road models
  • Material areas
  • Roadlines
  • Ditches
• Each surface object has specific material, texturing, and input geometry options.

Objects

• Objects are 3D models such as:
  • Buildings
  • Fences
• 3D meshes and texts that have complex geometry or special texturing modes may contain multiple materials.
• Objects are generated from complex input data like polylines, texts, or 3D surfaces.

Elements

• Elements are texture elements or 3D surface elements that are defined by an insertion point (x,y,z), rotation angle, and scale.
• Elements can be generated from single positions (points, blocks) along a polyline as element chains or filled inside closed polylines as element areas.
• Forest objects also generate elements.

• Alpha Channel: A black and white image that tells which parts of the image are transparent. Black areas are completely transparent, whereas white areas are totally opaque. Shades of gray describe partial transparency.
• Ambient: Surface color where no direct light is hit; also called shadow side color.
• Block: A group of objects. A block can contain any number of objects. A block is processed as one object.
• D Face/Face: Surface between three vertices. Faces are also called triangles.
• Dialog box/window: A window to which the user is supposed to react.
• Diffuse: Surface color where direct light hits. This is the most dominant color.
• Drawing units: The base units used in the AutoCAD drawing; usually meters.
• Emission: Color that is multiplied with other colors. Generally 0,0,0 but can be used to make a fluorescent effect.
• Frame rate: Number of frames (pictures) per second (FPS).
• Gouraud: A type of OpenGL shading.
• Grid: An even pattern of elements (points, etc.) that forms a square shape.
• Interpolation: In MAGNET Modeler, interpolation means attaching elements automatically on the surface of a certain object, usually on the ground.
• Material: Material of an element. Material defines the characteristics of the surface of the element. For example, texture and transparency are defined as a material.
• Mesh: An object consisting of 3D faces.
• OpenGL: The industry's most widely used and supported 2D and 3D graphics application programming interface (API).
• Orthophoto: A photo taken perpendicularly to the object; usually an aerial photo or satellite photo.
• Polyline: A line with two or more vertices.
• Rendering: Creating a 2-dimensional image or set of images (for moving pictures) of the 3-dimensional model from a specified view point.
• Shading: Processing the effects of light.
• Shininess: Scope of the reflection of the light source.
• Specular: Intensity and color of the reflection of the light source.
• Surface model/Terrain model: A 3D terrain which consists of 3D faces.
• Texboard: A billboard-like object in the model that has a certain texture assigned to it. It can be rotating, that is, it always faces toward the viewer. This is useful for modeling 3D objects such as trees. A texboard may also have partially transparent texture, which is useful for modeling non-rectangular objects, such as traffic signs.
• Texture: A picture used on the surface of a 3D object.
• Texturing: The way of placing texture on the surface of a 3D object.
• Tooltip: A small box of information appearing when the cursor is placed on top of a certain object.
• Triangle: A surface between three vertices. Triangles are also called 3D faces or faces.
• Vertex: A specific point in 3D space. Vertex is the corner point of a polyline, 3D face, or other 3D element.
• Topic: A point in space from which the view is seen.
• Viewport: A window or area with a certain view.
• Wireframe: A rendering process which shows only all edges.
• VRML: Virtual Reality Modeling Language. Industry-standard language for 3D in web.