[SOLVED] CS chain Physical Facial Modeling

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Physical Facial Modeling

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL

Physically-based
Facial Modeling
COMP 259
Spring 2006

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Overview
Motivation
Facial Anatomy
Historical view
Techniques

Traditional animation
Muscle-vector techniques
Mass-spring + muscles
Finite-element + muscles
An aside: speech

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Motivation
Why a talking head?

Enhanced communication for people with disabilities
Training scenario software
Entertainment: Games and Movies
Why physically based?

Unburdens animators
Provides more realistic looking simulations

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Anatomy of the face
There are 268 voluntary muscles that contribute to your expression!

Three main types:
Linear muscles (share a common anchor)
Sheet muscles (run parallel, activated together)
Sphincter muscles (contract to a center point)

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Muscles
Bundles of thousands of individual fibers

Thankfully, can be modeled as these bundles
When activated, all of the fibers contract
Contraction only

Most parts of the body use opposing pairs of muscles, but the face relies on the skin
Bulging

Occurs due to volume preservation
Thicker on contraction, thinner on elongation
Important for realistic faces (e.g. pouting lips)

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Skin
Epidermis

Thin, stiff layer of dead skin
Dermis

Primary mechanical layer
Collagen and Elastin fibers
Subcutaneous or Fatty tissue

Allows skin to slide over muscle bundles
Varies in thickness

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Modeling viscoelastic skin
Collagen fibers low strain for low extensions
Near maximum expansion, strain rises quickly
When allowed to, elastin fibers return system to rest state quickly

Biphasic model:
Two piecewise linear modes
Threshold extension to pick spring constant

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

The skull
Unlike most of the body, the face only has a single joint
All other expression is due to computer-unfriendly soft tissues
Can be treated as a rigid body

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Facial Action Coding System (FACS)
Proposed by Ekman and Friesan in 1978.
Describes facial movement in terms of the muscles involved
Purposely ignores invisible and non-movement changes (such as blushing)
Defines 46 action units pertaining to expression-related muscles
Additional 20 action units for gross head movement and eye gaze.

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Traditional techniques
Key-framing

Extremely fast
Extremely hard to model appropriately
Large storage footprint
Basically never used to edit faces, but works as a final format, especially for games
MPEG-4 approach

Defines 84 feature points with position and zone of influence on a few basis keyframes of a standard 3D mesh
Defines animation independently of the visual rep.

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

MPEG-4 Facial Animation
68 facial action parameters (FAPs), defined in terms of face independent FAP units (FAPUs)
Most define a rotation or translation of one or more feature points, with a few selecting entirely new key frames (e.g. an emotion basis)
Same animation can be used on different model, provided the model is properly annotated
Some MPEG-4 feature points

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Muscle vectors
Muscle vector properties

Attachment point (to bone)
Insertion point (to skin)
Influences nearby skin vertices, more strongly along the direction vector and close to the muscle.

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Muscle vectors (2)
Advantages

Fast
Compact, easily controlled
Disadvantages

Treats the skin like a 2D surface, no concept of curvature
Artifacts when vertices are within two influences
For more information, see Jason Jeralds slides from 2004 (on course website)

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Mass-spring models
Model the skin (and sometimes muscle and bones) as a number of point masses connected by springs, like a cloth

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Terzopoulos and Waters
Terzopoulos90 models the entire face as a three-layer mass-spring system
Horizontal layers and interconnects:

Epidermis
Fatty tissue
Underlying bone.
Vertical interconnects:

Top-to-middle springs correspond to the dermis
Middle-to-bottom springs provide the simulation of muscle fibers.

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Terzopoulos and Waters (cont)

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Terzopoulos and Waters (cont)
Simplifies implementation: everything is handled in a single system
Fast: interactive rates in 1990 (not on a desktop PC)
Provides some wrinkle effects
Unrealistic model of muscles and bone
Cannot control via muscle activations

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Khler, et al.
Model the muscles as ellipsoids
Long or curved muscles are broken into piecewise linear segments
Scale the diameter as length changes to implement bulging in a nearly volume-preserving manner.

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Khler, et al.

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Khler, et al.

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Khler, et al. Editor
Also present an easy-to-use editor to define muscles

Provided a skin model, automatically creates skull
Users sketch sheets of muscles and they are iteratively subdivided into individual muscle chains of ellipsoids
Automatic fitting process to place the ellipsoids underneath the skin.

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Preservation springs
To prevent interpenetrations, Khler use preservation springs.
Each skin-muscle and skin-bone attachment point gets a mirrored phantom preservationspring acting on it.
Similar to penaltybased approaches

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Finite-element models
Break the system down into a regular discretized representation (e.g. tetrahedrons)
Comparison to mass-spring

More accurate
More stable
Far more expensive

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Finite-element skin
Beautiful results
8 minutes per frame*
Creepy video demo

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

An aside: Speech
Phones and phonemes: Unit of sound versus unit of perception
English is considered to have 44 phonemes: 20 vowels and 24 consonants, less per dialect
Distinguishing factors:

Place of articulation (teeth, lips, etc)
Manner of articulation (flow rate, sort of)

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

An aside: What is speech?

From top to bottom: Amplitude, spectrogram, timeline, and pitch contour, for the word Welcome (W EH L K AH M)

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Parts of speech
Not all changes are visible

Try saying b, p, t
Concept of Visemes

Speech readers say 18
Disney says 12
Some games use 6
Coarticulation

Or, why we dont have good speech interfaces yet
Vowels
Consonants

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Paper References
E. Sifakis, I. Neverov, R. Fedkiw, Automatic Determination of Facial Muscle Activations from Sparse Motion Capture Marker Data, 2005
D. Terzopoulos, Waters, K., Physically-Based Facial Modeling, Analysis, and Animation, The Journal of Visualization and Computer Animation, 1990
K. Waters, A muscle model for animating three-dimensional facial expressions, SIGGRAPH87
K. Kahler, J. Haber, H.-P. Seidel, Geometry-based muscle modeling for facial animation, Proceedings Graphics Interface 2001
MPEG-4 standard
[Cohen93] M. M. Cohen, D.W. Massaro.Modeling coarticulation in synthetic visual speech, Computer Animation 93. Springer-Verlag, 1993.

The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Michael Noland

Video References
http://graphics.stanford.edu/~fedkiw/

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[SOLVED] CS chain Physical Facial Modeling
$25