SWIMMING IN 3D SPACE
Before you even start models you have to make a mental shift to 3d from 2d. You may think that is easy enough, but when starting work on 3d models, the first mistake that most people make is to model within one view. This is a common problem, and comes from you being used to 2d design packages. If you are not careful the model will look ok from one side and will be entirely messed up on the others. Then the first lesson really is to learn to constantly look at your model from all sides. You can either set up many views (front, back, top…) to do this or you can rotate the mesh to check it while you model.
THE 3D AXIS
To make the move from2d thinking to 3d thinking you first have to get used to that extra axis that will turn up in your work. Look at this illustration… If you hold a pencil to a sheet of paper as though you were sketching, you will see that the length and breadth of the sheet of paper form 2 axis. The pencil which is at 90 degrees angle from the sheet is the third axis. See?So you have…
- Length = z
- Breadth = x
- Height = y
Different software refer to these axis differently. It doesn’t matter what LETTER you call it by, as long as you understand these 3 dimensions it applies to all 3d software. This will help you figure out the concept of views
UNDERSTANDING THE DIFFERENT VIEWS
If you ever looked at a building blueprint and sketches then you already have a pretty good idea of views. Here are the different views of the letter T. The Orthographic view allows you to see the 3 dimensional view without distortion. The perspective view is the true 3d view. The others are from fixed sides. You need to switch views constantly when modeling in 3d to ensure that the model is consistent. After a while you will instinctively know which side you are looking at the model from.
VIEWING THE MODEL
To view the model you will basically use three types of actions. These are the basic standard actions that are required to view the model in 3d space.
- Rotating the view
- Panning the view (Left to right or top to bottom)
- Zooming in and out of the view
Use these in combination to the views and the axis and you have a complete understanding of how 3d environments operate.
One final detail that is interface related is how the mesh itself is viewed within the 3d modeling window. You may choose to view it as a wireframe, shaded view or textured views. Each view helps differently. You need the wiremesh view to manipulate individual mesh components. The shaded view allows you to understand lighting and the volume created because of it. The textured view is the view of the model with it’s texturing completed. To understand the difference between shading and texturing… think of a painted terracotta pot. The inherent brown of the Terracotta is it’s Shading and the painted patterns is the texture in 3d parlance.
THE COMPONENTS OF THE MESH
Now we begin with the actual building of 3d models. There are different types of mesh construction the primary two being:
- Polygonal or Box Modeling
- Spline based modeling
This website deals completely with Polygonal or Box modeling methods only. The difference between the two is that spline are built out of beizer curves like the ones you use in Illustrator or Coreldraw. Box modeling involves creating a polygonal box, subdividing it into smaller pieces and manipulating them until a desired mesh is formed.
To understand Polygonal modeling, let’s take a look at the component parts of a mesh or an OBJECT.
An object is composed of 3 types of components.
- The vertice
- The Edge
- The Face
The vertice is the smallest component while the edge is the line between 2 vertices and the face is made up of 3 or more of the lines linking together to form a face. While modeling you will manipulate vertices, edges and faces like clay to build what you have in mind. To do this 3d software offer a variety of tools such as extrusion, lathe, sweeping etc.
For example to extrude an object, you will first select a face and then extrude it in a certain direction to create a 3d object. This lampshade was entirely created through extrusions only.
SMOOTHING AND ORGANIC SHAPES
By now you are wondering how you could ever arrive at smooth organic shapes by something like box modeling. 3d software use a system called subdivided surfaces to break up a large polygon into many smaller faces to smooth out the faces that make up the mesh. Sometimes a single face may be replaced by hundreds of faces so that the edges of a model become smooth. Obviously this puts a strain on your computer. To avoid sluggishness, softwares always maintain the low-poly (low resolution) version of the model and replace the subdivisions just before it actually renders the finished picture.