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Course: Pixar in a Box > Unit 12
Lesson 1: Modeling with subdivision surfaces- Start here!
- Introduction to subdivision surfaces
- 1. Split vs. average
- Interactive: Split and average
- 2. Subdivide operation
- Subdivision
- 3. Subdividing your own designs
- Interactive: Build your own shape
- 4. Subdivision in 3D
- Interactive: Subdivision in 3D
- Subdivision in 3D
- Getting to know Alonso Martinez
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1. Split vs. average
First we need to make sure we understand exactly what happens in the split & average steps.
Click here to go to the Environment Modeling lesson
.Want to join the conversation?
- What is that software he is using to make the characters I need to make my own(4 votes)
- They use there own licenced software. No one but Pixar can use it.(3 votes)
- 0:23how come you guys print all of the characters with no color? is it just the way the printer works?(2 votes)
- It's made from clay usually and you don't need color until you are actually modelling. the clay and 3d printed models are just for the basic shape of the characters.(6 votes)
- why are some characters put in the shape of their characters' emotions like carl and some just like a normal human like Merida(2 votes)
- In Up, it has more of a cartoonish vibe, y'know? In Brave, it's more realistic ^^(2 votes)
- jeez he came at my boy for looking like an egg(2 votes)
- might i ask and not in a rude way why do you look like jimmy neutron(2 votes)
- So to make a shape or structure smoother you have to split them and then averege them?(2 votes)
- This kind of technique can be applied to any kind of program like maya or blender?(2 votes)
- why is rusle shaped like an egg?(2 votes)
- Becaucse he is amon us(1 vote)
- I have a very funny question but please answer me. That is it important to have a knowledge of drawing while learning animation.(2 votes)
- Alonso got a fire haircut
that's just my opinion(2 votes)
Video transcript
- Hi. I'm Alonso Martinez
and I'm a Character modeler here at Pixar Animation Studios, and that means that I create
the virtual characters that the animators use to
bring our characters to life. And if I do my job right that means that not only will people
believe that they're real, but also they'll become personal friends. Right now I'm standing
at the Pixar Art Gallery and this place is dedicated to celebrate all of the hard work that goes into making these movies great. It's important for all
departments here at Pixar to help with the story telling. And for the character department, when we design our characters, we tell story through the
shapes of our characters. One of my favorite examples
is from the movie Up, and that's because Carl
is designed like a box and that's because he's jailed
in with all of the emotions from the hard times that he's had in life. But Russell is shaped like an egg. Both of these are symbols
for who these characters are. To create great characters like these, we need to make tools that are easy for artists to create those shapes that we were talking about. And also, at the same time,
for them to be efficient for the computer to be able
to deal with all of that data. And that's the topic for this lesson. Stick around for more. In the Environment Modeling Lesson we saw how to describe blades
of grass using parabolas, but parabolas are just not good enough to describe the
expressiveness of characters. For example, here's a
sculpture of Geri's hand from Geri's Game. To describe complex surfaces like this, that's where subdivision comes in. And as we saw in the previous video, subdivision is extremely expressive. In the first part of the lesson we'll be looking more
closely at how subdivision can be used to create complex shapes. And then in part two,
we'll dive more deeply into the mathematics of subdivision. Most of the mathematics
we use here at Pixar have been around for hundreds
or thousands of years, but subdivision is different. It was actually only
invented about 40 years ago and is still an active area
of mathematical research. The skins of our characters
live in three dimensional space, but for now, we're going to look at curves in two dimensions. Starting with a four-point polygon, we add more points by Splitting, that is, by adding
mid-points to the edges. I can make it smoother
by moving each point from where it is now, to the mid-point of its right neighbor. We call this, the Averaging step. By repeatedly Splitting and Averaging, we create a series of
increasingly smoother curves. Now, imagine that you're
an artist at Pixar and you've been asked to
create a shape like this one. Using this next interactive, see how close you can get.