Editing Computer animation

{{short description|Art of creating moving images using computers}}
{{split|3D computer animation|2D computer animation|date=June 2019}}
[[Image:Activemarker2.PNG|right|thumb|300px|An example of computer animation which is produced from the "[[motion capture]]" technique]]

'''Computer animation''' is the process used for digitally generating [[Film|moving images.]] The more general term [[computer-generated imagery]] (CGI) encompasses both [[still image]]s and [[moving image]]s, while computer animation {{em|only}} refers to moving images. [[Virtual cinematography|Modern computer animation]] usually uses [[3D computer graphics]]. 

Computer animation is a digital successor to [[stop motion]] and [[traditional animation]]. Instead of a physical model or illustration, a digital equivalent is manipulated frame-by-frame. Also, computer-generated animations allow a single graphic artist to produce such content without using actors, expensive set pieces, or [[Theatrical property|props]]. To create the illusion of movement, an image is displayed on the [[computer monitor]] and repeatedly replaced by a new similar image but advanced slightly in time (usually at a rate of 24, 25, or 30 frames/second). This technique is identical to how the illusion of movement is achieved with [[television]] and [[Film|motion pictures]].

To trick the [[visual system]] into seeing a smoothly moving object, the pictures should be drawn at around 12 [[frame rate|frames per second]] or faster (a [[Film frame|frame]] is one complete image).{{sfn|Masson|1999|p=148}} With rates above 75 to 120 frames per second, no improvement in realism or smoothness is perceivable due to the way the eye and the brain both process images. At rates below 12 frames per second, most people can detect [[jerkiness]] associated with the drawing of new images that detracts from the illusion of realistic movement.{{sfn|Parent|2012|pp=100–101, 255}} Conventional hand-drawn cartoon animation often uses 15 frames per second in order to save on the number of drawings needed, but this is usually accepted because of the stylized nature of cartoons. To produce more realistic imagery, computer animation demands higher frame rates.

Films seen in theaters in the United States run at 24 frames per second, which is sufficient to create the appearance of continuous movement.

== Computer-generated animation ==
Computer-generated animation is an umbrella term for three-dimensional ([[3D computer graphics|3D]]) animation, and 2D computer animation. These also include subcategories like [[Digital asset|asset driven]], hybrid, and digital drawn animation. Creators animate using code or software instead of pencil-to-paper drawings. There are many techniques and disciplines in computer generated animation, some of which are digital representations of [[traditional animation|traditional animation -]] such as [[Key frame|key frame animation]] - and some of which are only possible with a computer - such [[Fluid animation|fluid simulation]].

'CG' [[Animator]]s can break physical laws by using mathematical [[algorithm]]s to cheat [[mass]], [[force]] and [[Gravitation|gravity]], and more. Fundamentally, computer-generated animation is a powerful tool which can improve the quality of animation by using the power of computing to unleash the animator's imagination. This is because Computer Generated Animation allows for things like [[onion skinning]] which allows 2D animators to see the flow of their work all at once, and [[interpolation]] which allows 3D animators to automate the process of [[inbetweening]].
{| class="wikitable"
|+Examples of computer-generated animation in movies
!Movie
!Type of Computer Generated Animation
!Impact
|-
|''[[Toy Story 2]]''
|Stylized 3D computer animation<ref>{{Cite book |last1=Weber |first1=Karon |last2=Hirasaki |first2=Kitt |chapter=Interaction design at Pixar Animation Studios |date=2000 |page=211 |title=CHI '00 extended abstracts on Human factors in computer systems - CHI '00 |chapter-url=http://dx.doi.org/10.1145/633410.633413 |location=New York, New York, USA |publisher=ACM Press |doi=10.1145/633410.633413|isbn=1-58113-248-4 }}</ref>
|Pixar developed cutting-edge technology for fully 3D animation. 'Toy Story' is considered a turning point for 3D animation in general.<ref>{{Cite magazine |last=Zorthian |first=Julia |date=2015-11-19 |title=How 'Toy Story' Changed Movie History |url=https://time.com/4118006/20-years-toy-story-pixar/ |access-date=2024-05-22 |magazine=TIME |language=en}}</ref>
|-
|''[[Godzilla Minus One]]''
|Digital VFX, photorealistic<ref>{{Cite web |title='Godzilla Minus One' Breathes New Life into the Iconic Kaiju |url=https://www.awn.com/vfxworld/godzilla-minus-one-breathes-new-life-iconic-kaiju |access-date=2024-05-22 |website=Animation World Network |language=en}}</ref>
|Toho studios won an Oscar for its ground breaking VFX on a small budget relative to most box-office movies.<ref>{{Cite web |last=Schilling |first=Mark |date=2024-03-14 |title='Godzilla Minus One' fought the odds and won big at the Oscars |url=https://www.japantimes.co.jp/culture/2024/03/14/film/godzilla-minus-one-oscars-significance/ |access-date=2024-05-22 |website=The Japan Times |language=en}}</ref>
|-
|[[The Breadwinner (film)|''The Breadwinner'']]
|2D computer animation<ref>{{Cite web |title=The Breadwinner Shows the Powerful Storytelling Impact of Animation |url=https://www.technicolor.com/news/breadwinner-shows-powerful-storytelling-impact-animation |access-date=2024-05-22 |website=www.technicolor.com |language=en}}</ref>
|Was praised for its 2D animated style, showing the possibilities of what the format could portray.
|-
|[[Interstellar (film)|''Interstellar'']]
|Hyper photorealistic CGI following scientific principles<ref name=":0">{{Cite journal |last1=James |first1=Oliver |last2=von Tunzelmann |first2=Eugenie |last3=Franklin |first3=Paul |last4=Thorne |first4=Kip S. |date=2015-03-19 |title=Gravitational Lensing by Spinning Black Holes in Astrophysics, and in the Movie Interstellar |journal=Classical and Quantum Gravity |volume=32 |issue=6 |pages=065001 |doi=10.1088/0264-9381/32/6/065001 |issn=0264-9381|arxiv=1502.03808 |bibcode=2015CQGra..32f5001J }}</ref>
|The VFX artists working on Interstellar published a paper about the science and mathematics that were used to create the famous 'Gargantua' black hole.<ref name=":0" />
|-
|''[[Klaus (film)|Klaus]]''
|Hybrid 3D and 2D computer animation<ref>{{Cite web |date=2019-11-14 |title=Here's what made the 2D animation in 'Klaus' look '3D' |url=https://beforesandafters.com/2019/11/14/heres-what-made-the-2d-animation-in-klaus-look-3d/ |access-date=2024-05-22 |website=befores & afters |language=en-US}}</ref>
|The use of 3D lighting for 2D animation in this movie opened up a door to many new animation styles for 2D animators.
|}

==3D computer animation==
[[File:Rendering Side-by-side.jpg|thumb|303x303px|A frame of animation before and after rendering]]

=== Overview ===
For 3D computer animations, objects (models) are built on the computer monitor (modeled) and 3D figures are rigged with a [[Skeletal animation|virtual skeleton]]. Then the limbs, eyes, mouth, clothes, etc. of the figure are moved by the animator on [[key frame]]s. Normally, the differences between key frames are drawn in a process known as [[Inbetweening|tweening]]. However, in 3D computer animation, this is done automatically, and is called [[interpolation]]. Finally, the animation is [[Rendering (computer graphics)|rendered]] and [[Compositing|composited]].

Before becoming a final product, 3D computer animations only exist as a series of moving shapes and systems within 3d software, and must be [[Rendering (computer graphics)|rendered]]. This can happen as a separate process for animations developed for movies and short films, or it can be done in real-time when animated for videogames. After an animation is rendered, it can be [[Compositing|composited]] into a final product.

=== Animation attributes ===
For 3D models, attributes can describe any characteristic of the object that can be animated. This includes transformation (movement from one point to another), scaling, rotation, and more complex attributes like blend shape progression (morphing from one shape to another). Each attribute gets a channel on which [[Key frame|keyframes]] can be set. These keyframes can be used in more complex ways such as animating in layers (combining multiple sets of key frame data), or keying control objects to deform or control other objects. For instance, a character's arms can have a skeleton applied, and the joints can have transformation and rotation keyframes set. The movement of the arm joints will then cause the arm shape to deform.

=== Interpolation ===
3D animation software interpolates between keyframes by generating a [[Spline (mathematics)|spline]] between keys plotted on a graph which represents the animation. Additionally, these splines can follow [[Bézier curve]]s to control how the spline curves relative to the keyframes. Using interpolation allows 3D animators to dynamically change animations without having to redo all the [[Inbetweening|in-between]] animation. This also allows the creation of complex movements such as ellipses with only a few keyframes. Lastly, interpolation allows the animator to change the framerate, timing, and even scale of the movements at any point in the animation process.

=== Procedural and node-based Animation ===
Another way to automate 3D animation is to use procedural tools such as 4D [[Perlin noise|noise]]. Noise is any algorithm that plots [[Pseudorandomness|pseudo-random values]] within a dimensional space.<ref>{{Cite web |title=The Book of Shaders |url=https://thebookofshaders.com/11/ |access-date=2024-05-22 |website=The Book of Shaders}}</ref> 4D noise can be used to do things like move a swarm of bees around; the first three dimensions correspond to the position of the bees in space, and the fourth is used to change the bee's position over time. Noise can also be used as a cheap replacement for [[simulation]]. For example, smoke and clouds can be animated using noise.

Node-based animation is useful for animating organic and chaotic shapes. By using nodes, an animator can build up a complex set of animation rules that can be applied either to many objects at once, or one very complex object. A good example of this would be setting the movement of particles to match the beat of a song.

=== Disciplines of 3D animation ===
There are many different disciplines of 3D animation, some of which include entirely separate artforms. For example, hair simulation for computer animated characters in and of itself is a career path which involves separate workflows,<ref>{{cite book | doi=10.1145/1401132.1401247 | chapter=Realistic hair simulation: Animation and rendering | title=ACM SIGGRAPH 2008 classes | date=2008 | last1=Bertails | first1=Florence | last2=Hadap | first2=Sunil | last3=Cani | first3=Marie-Paule | last4=Lin | first4=Ming | last5=Kim | first5=Tae-Yong | last6=Marschner | first6=Steve | last7=Ward | first7=Kelly | last8=Kačić-Alesić | first8=Zoran | pages=1–154 | isbn=978-1-4503-7845-1 | url=https://hal.inria.fr/inria-00520270/file/finalcoursenotes2008.pdf }}</ref> and different software and tools. The combination of all or some 3D computer animation disciplines is commonly referred to within the animation industry as the 3D animation pipeline.<ref>{{Cite web |last1=Naghdi |first1=Arash |last2=Adib |first2=Payam |last3=Adib |first3=Arash Naghdi and Payam |date=2021-05-10 |title=3D Animation Pipeline: A Start-to-Finish Guide (2023 update) |url=https://dreamfarmstudios.com/blog/3d-animation-pipeline/ |access-date=2024-05-21 |website=Dream Farm Studios |language=en-US}}</ref>
{| class="wikitable"
|+Examples of disciplines within the 3D animation pipeline
!Discipline
!Explanation
!Tools
!Examples
|-
|Face Rigging
|A facial rig is a rig that includes muscles, deformation, mesh displacement, and other techniques to enable the animation of facial expressions, and phonemes for lip syncing.
|Autodesk Maya, Blender
|In 'Avatar, Way of Water', WETA workshops meticulously designed the digital muscles in the faces of their characters so that their emotional range could be comparable to that of a human.<ref>{{Cite web |date=2022-12-21 |title=Exclusive: Joe Letteri Discusses Wētā FX's new Facial Pipeline on Avatar 2 - fxguide |url=https://www.fxguide.com/fxfeatured/exclusive-joe-letteri-discusses-weta-fxs-new-facial-pipeline-on-avatar-2/ |access-date=2024-05-21 |website=www.fxguide.com/ |language=en-US}}</ref>
|-
|Facial Animation
|This is the process of animating facial animations, [[Lip sync|lip-syncing]], and animating [[phoneme]] blend-shapes (shapes that the face morphs into)
|Autodesk Maya, Blender, Autodesk 3DS Max
|In Pixar's 'Turning Red', animators took influence from [[anime]] style facial expressions to inform their animation.<ref>{{Cite web |last=laurenlola |date=2022-03-09 |title="Turning Red" Animators on Anime Influences and Working with Domee Shi |url=https://caamedia.org/blog/2022/03/09/turning-red-animators-on-anime-influences-and-working-domee-shi/ |access-date=2024-05-22 |website=CAAM Home |language=en-US}}</ref>
|-
|Character Animation
|Specifically the animation of characters. 3D character animation is its own specialty do to the complexity required to animated dancing, running, fighting, or high fidelity motion such as playing basketball.
|Autodesk Maya, Blender
|Pixar's 'Incredibles' won the 2004 [[Visual Effects Society Award for Outstanding Animated Character in an Animated Feature]]
|-
|Cloth Simulation
|Cloth simulation is a subset of simulation but specifically for things like clothes. In modern 3D computer animation, cloth simulation is becoming more and more advanced and widely used.
|Houdini, Blender
|Pixar's 'Coco' advanced the use of high fidelity clothes by designing new tools to combine cloth simulation with character animation.<ref>{{cite book | chapter-url=https://doi.org/10.1145/3214745.3214801 | doi=10.1145/3214745.3214801 | chapter=Better collisions and faster cloth for Pixar's Coco | title=ACM SIGGRAPH 2018 Talks | date=2018 | last1=Eberle | first1=David | pages=1–2 | isbn=978-1-4503-5820-0 }}</ref>
|}

==2D computer animation==
[[2D computer graphics]] are still used for stylistic, low bandwidth, and faster [[real-time rendering]]s.

Computer animation is essentially a digital successor to [[stop motion]] techniques, but using 3D models, and [[traditional animation]] techniques using frame-by-frame animation of 2D illustrations.

For 2D figure animations, separate objects (illustrations) and separate transparent layers are used with or without that virtual skeleton.

===2D sprites and pseudocode===
In 2D computer animation, moving objects are often referred to as "[[sprite (computer graphics)|sprites]]." A sprite is an image that has a location associated with it. The location of the sprite is changed slightly, between each displayed frame, to make the sprite appear to move.{{sfn|Masson|1999|p=123}} The following [[pseudocode]] makes a sprite move from left to right:

 '''var''' ''int'' x := 0, y := screenHeight / 2;
 '''while''' x < screenWidth
 drawBackground()
 drawSpriteAtXY (x, y) ''// draw on top of the background''
 x := x + 5 ''// move to the right''

===Computer-assisted animation===
Computer-assisted animation is usually classed as two-dimensional ([[2D computer graphics|2D]]) animation and is also known as digital ink and paint. Drawings are either hand drawn (pencil to paper) or interactively drawn (on the computer) using different assisting appliances and are positioned into specific software packages. Within the [[software]] package, the creator places drawings into different [[key frame]]s which fundamentally create an outline of the most important movements.{{sfn|Masson|1999|p=115}} The computer then fills in the "in-between frames", a process commonly known as [[Inbetweening|Tweening]].{{sfn|Masson|1999|p=284}} Computer-assisted animation employs new technologies to produce content faster than is possible with [[traditional animation]], while still retaining the stylistic elements of traditionally drawn characters or objects.<ref name="Roos">{{cite web |last=Roos |first=Dave |date=2013 |title=How Computer Animation Works |url=http://entertainment.howstuffworks.com/computer-animation.htm |access-date=2013-02-15 |publisher=HowStuffWorks}}</ref>

Examples of films produced using computer-assisted animation are the rainbow sequence at the end of [[The Little Mermaid (1989 film)|''The Little Mermaid'']] (the rest of the films listed use digital ink and paint in their entirety), ''[[The Rescuers Down Under]]'', [[Beauty and the Beast (1991 film)|''Beauty and the Beast'']], ''[[Aladdin (1992 Disney film)|Aladdin]]'', ''[[The Lion King]]'', [[Pocahontas (1995 film)|''Pocahontas'']], [[The Hunchback of Notre Dame (1996 film)|''The Hunchback of Notre Dame'']], ''[[Hercules (1997 film)|Hercules]]'', [[Mulan (1998 film)|''Mulan'']], ''[[Tarzan (1999 film)|Tarzan]]'', ''[[We're Back! A Dinosaur's Story (film)|We're Back! A Dinosaur's Story]]'', ''[[Balto (film)|Balto]]'', ''[[Anastasia (1997 film)|Anastasia]]'', ''[[Titan A.E.]]'', ''[[The Prince of Egypt]]'', ''[[The Road to El Dorado]]'', ''[[Spirit: Stallion of the Cimarron]]'' and ''[[Sinbad: Legend of the Seven Seas]]''.

===Text-to-video===
{{excerpt|Text-to-Video model}}

==History==
{{Main|History of computer animation}}
{{For timeline|Timeline of computer animation}}
{{See also|Video game graphics}}
Early digital computer animation was developed at [[Bell Labs|Bell Telephone Laboratories]] in the 1960s by Edward E. Zajac, Frank W. Sinden, Kenneth C. Knowlton, and A. Michael Noll.{{sfn|Masson|1999|pp=390–394}} Other digital animation was also practiced at the [[Lawrence Livermore National Laboratory]].{{sfn|Sito|2013|pp=69–75}}

In 1967, a computer animation named "Hummingbird" was created by Charles Csuri and James Shaffer.<ref>{{Cite web|url=https://m.youtube.com/watch?v=awvQp1TdBqc|title = Charles Csuri, Fragmentation Animations, 1967 – 1970: Hummingbird (1967)|website = [[YouTube]]| date=31 August 2009 }}</ref> In 1968, a computer animation called "[[:ru:Кошечка (мультфильм)|Kitty]]" was created with [[BESM]]-4 by Nikolai Konstantinov, depicting a cat moving around.<ref>{{Cite web|url=https://m.youtube.com/watch?v=so_HQKv-Bmk|title = "Kitten" 1968 computer animation|website = [[YouTube]]| date=9 March 2006 }}</ref> In 1971, a computer animation called "Metadata" was created, showing various shapes.<ref>{{Cite web|url=https://m.youtube.com/watch?v=vkxrVpzPK4U|title = Metadata 1971|website = [[YouTube]]| date=23 November 2010 }}</ref>

An early step in the history of computer animation was the sequel to the 1973 film ''[[Westworld (film)|Westworld]],'' a science-fiction film about a society in which robots live and work among humans.{{sfn|Masson|1999|p=404}} The sequel, ''[[Futureworld]]'' (1976), used the 3D [[Wire-frame model|wire-frame]] imagery, which featured a computer-animated hand and face both created by [[University of Utah]] graduates [[Edwin Catmull]] and [[Fred Parke]].{{sfn|Masson|1999|pp=282–288}} This imagery originally appeared in their student film ''[[A Computer Animated Hand]]'', which they completed in 1972.{{sfn|Sito|2013|p=64}}{{sfn|Means|2011}}

Developments in CGI technologies are reported each year at [[SIGGRAPH]],{{sfn|Sito|2013|pp=97–98}} an annual conference on computer graphics and interactive techniques that is attended by thousands of computer professionals each year.{{sfn|Sito|2013|pp=95–97}} Developers of computer games and 3D video cards strive to achieve the same visual quality on personal computers in real-time as is possible for CGI films and animation. With the rapid advancement of real-time rendering quality, artists began to use [[game engine]]s to render non-interactive movies, which led to the art form [[Machinima]].

===Film and television===
[[File:Spring - Blender Open Movie.webm|thumb|right|"Spring", a 3D animated short film made using [[Blender (software)|Blender]]]]

CGI short films have been produced as [[independent animation]] since 1976.{{sfn|Masson|1999|p=58}} Early examples of feature films incorporating CGI animation include the live-action films ''[[Star Trek II: The Wrath of Khan]]'' and ''[[Tron]]'' (both 1982),<ref name="Tron">{{cite magazine |title=The Making of Tron |magazine=Video Games Player |date=September 1982 |volume=1 |issue=1 |publisher=Carnegie Publications |pages=50–5 |url=https://archive.org/details/Video_Games_Player_Vol_1_No_1_1982-09_Carnegie_Publications_US/page/n49/mode/2up}}</ref> and the Japanese [[anime]] film ''[[Golgo 13: The Professional]]'' (1983).<ref>{{cite book|last1=Beck|first1=Jerry|title=The Animated Movie Guide|date=2005|publisher=[[Chicago Review Press]]|isbn=1569762228|page=[https://archive.org/details/animatedmoviegui0000beck/page/216 216]|url=https://archive.org/details/animatedmoviegui0000beck|url-access=registration}}</ref> ''[[VeggieTales]]'' is the first American fully 3D computer-animated series sold directly (made in 1993); its success inspired other animation series, such as ''[[ReBoot]]'' (1994) and ''[[Transformers: Beast Wars]]'' (1996) to adopt a fully computer-generated style.

The first full-length computer-animated television series was ''[[ReBoot]]'',{{sfn|Sito|2013|p=188}} which debuted in September 1994; the series followed the adventures of characters who lived inside a computer.{{sfn|Masson|1999|p=430}} The first feature-length computer-animated film is ''[[Toy Story]]'' (1995), which was made by [[Disney]] and [[Pixar]]:{{sfn|Masson|1999|p=432}}{{sfn|Masson|1999|p=302}}<ref>"Our Story", Pixar, 1986–2013. Retrieved on 2013-02-15. {{cite web |url= http://www.pixar.com/about/Our-Story |title= The Pixar Timeline, 1979 to Present. |publisher= Pixar |url-status=dead |archive-url= https://web.archive.org/web/20150905125659/http://www.pixar.com/about/Our-Story |archive-date= 2015-09-05 }}</ref> following an adventure centered around [[anthropomorphic]] toys and their owners, this groundbreaking film was also the first of many fully computer-animated movies.{{sfn|Masson|1999|p=302}}

The popularity of computer animation (especially in the field of [[special effect]]s) skyrocketed during the [[Modern animation in the United States|modern era of U.S. animation]].{{sfn|Masson|1999|p=52}} Films like ''[[Avatar (2009 film)|Avatar]]'' (2009) and ''[[The Jungle Book (2016 film)|The Jungle Book]]'' (2016) use CGI for the majority of the movie runtime, but still incorporate human actors into the mix.<ref>{{Cite web|url=https://www.popularmechanics.com/technology/digital/visual-effects/4339455|title=How James Cameron's Innovative New 3D Tech Created Avatar|last=Thompson|first=Anne|date=2010-01-01|website=Popular Mechanics|language=en-US|access-date=2019-04-24}}</ref> Computer animation in this era has achieved photorealism, to the point that computer-animated films such as ''[[The Lion King (2019 film)|The Lion King]]'' (2019) are able to be marketed as if they were live-action.<ref>{{Cite web |url=https://deadline.com/2016/10/lion-king-movie-jeff-nathanson-writer-disney-jon-favreau-1201836009/ |title=Disney's Live-Action 'Lion King' Taps Jeff Nathanson As Writer |last=Fleming |first=Mike Jr. |website=[[Deadline Hollywood]] |date=October 13, 2016 |access-date=July 9, 2019 |archive-url=https://web.archive.org/web/20161015084425/http://deadline.com/2016/10/lion-king-movie-jeff-nathanson-writer-disney-jon-favreau-1201836009/ |archive-date=October 15, 2016 |url-status=live}}</ref><ref>{{cite web|title='The Lion King': Is it animated or live-action? It's complicated|url=https://www.latimes.com/entertainment-arts/movies/story/2019-07-19/the-lion-king-remake-animation-live-action-photo-real|website=Los Angeles Times|date=July 19, 2019|last=Rottenberg|first=Josh|access-date=December 13, 2021}}</ref>

==Animation methods==
[[File:3D dragon animation.gif|thumb|right|3D game character animated using [[skeletal animation]]]]
[[Image:Stickwalkav.gif|thumb|right|In this [[Graphics Interchange Format|.gif]] of a 2D [[Flash animation]], each 'stick' of the [[stick figure|figure]] is [[Keyframe#Animation by means of computer graphics|keyframed]] over time to create motion.]]
In most 3D computer animation systems, an animator creates a simplified representation of a character's anatomy, which is analogous to a [[skeleton]] or [[stick figure]].{{sfn|Parent|2012|pp=193–196}} They are arranged into a default position known as a [[bind pose]], or T-Pose. The position of each segment of the skeletal model is defined by animation variables, or [[Avar (animation variable)|Avars]] for short. In human and animal characters, many parts of the skeletal model correspond to the actual bones, but [[skeletal animation]] is also used to animate other things, with facial features (though other methods for [[facial animation]] exist).{{sfn|Parent|2012|pp=324–326}} The character "Woody" in ''[[Toy Story]]'', for example, uses 712 Avars (212 in the face alone). The computer does not usually render the skeletal model directly (it is invisible), but it does use the skeletal model to compute the exact position and orientation of that certain character, which is eventually rendered into an image. Thus by changing the values of Avars over time, the animator creates motion by making the character move from frame to frame.

There are several methods for generating the Avar values to obtain realistic motion. Traditionally, animators manipulate the Avars directly.{{sfn|Parent|2012|pp=111–118}} Rather than set Avars for every frame, they usually set Avars at strategic points (frames) in time and let the computer interpolate or [[tweening|tween]] between them in a process called ''[[Keyframe#Animation by means of computer graphics|keyframing]]''. Keyframing puts control in the hands of the animator and has roots in hand-drawn [[traditional animation]].{{sfn|Sito|2013|p=132}}

In contrast, a newer method called ''[[motion capture]]'' makes use of [[live action]] footage.{{sfn|Masson|1999|p=118}} When computer animation is driven by motion capture, a real performer acts out the scene as if they were the character to be animated.{{sfn|Masson|1999|pp=94–98}} Their motion is recorded to a computer using [[video camera]]s and markers and that performance is then applied to the animated character.{{sfn|Masson|1999|p=226}}

Each method has its advantages and as of 2007, games and films are using either or both of these methods in productions. Keyframe animation can produce motions that would be difficult or impossible to act out, while motion capture can reproduce the subtleties of a particular actor.{{sfn|Masson|1999|p=204}} For example, in the 2006 film ''[[Pirates of the Caribbean: Dead Man's Chest]]'', [[Bill Nighy]] provided the performance for the character [[Davy Jones (Pirates of the Caribbean)|Davy Jones]]. Even though Nighy does not appear in the movie himself, the movie benefited from his performance by recording the nuances of his body language, posture, facial expressions, etc. Thus motion capture is appropriate in situations where believable, realistic behavior and action is required, but the types of characters required exceed what can be done throughout the conventional costuming.

==Modeling==
3D computer animation combines 3D models of objects and programmed or hand "keyframed" movement. These models are constructed out of geometrical vertices, faces, and edges in a 3D coordinate system. Objects are [[digital sculpting|sculpted]] much like real clay or plaster, working from general forms to specific details with various sculpting tools. Unless a 3D model is intended to be a solid color, it must be painted with "[[texture mapping|textures]]" for realism. A bone/joint animation system is set up to deform the CGI model (e.g., to make a humanoid model walk). In a process known as ''rigging'', the virtual marionette is given various controllers and handles for controlling movement.{{sfn|Parent|2012|p=289}}<ref>[http://blog.animationmentor.com/why-a-great-rigger-is-an-animators-best-friend/  animationmentor.com Why a Great Rigger is an Animator's Best Friend, By: Ozgur Aydogdu]</ref> Animation data can be created using [[motion capture]], or [[keyframing]] by a human animator, or a combination of the two.{{sfn|Beane|2012|p=2-15}}

3D models rigged for animation may contain thousands of control points — for example, "Woody" from ''[[Toy Story]]'' uses 700 specialized animation controllers. [[Rhythm and Hues Studios]] labored for two years to create [[Aslan]] in the movie ''[[The Chronicles of Narnia: The Lion, the Witch and the Wardrobe]]'', which had about 1,851 controllers (742 in the face alone). In the 2004 film ''[[The Day After Tomorrow]]'', designers had to design forces of extreme weather with the help of video references and accurate meteorological facts. For the [[King Kong (2005 film)|2005 remake]] of ''[[King Kong (1933 film)|King Kong]]'', actor [[Andy Serkis]] was used to help designers pinpoint the gorilla's prime location in the shots and used his expressions to model "human" characteristics onto the creature. Serkis had earlier provided the voice and performance for [[Gollum]] in [[Peter Jackson]]'s ''[[The Lord of the Rings (film series)|The Lord of the Rings]]'' trilogy.

==Equipment==
[[Image:Jack-in-cube solid model, light background.gif|thumb|A ray-traced 3-D model of a jack inside a cube, and the jack alone below]]
Computer animation can be created with a computer and an animation software. Some impressive animation can be achieved even with basic programs; however, the rendering can require much time on an ordinary home computer.{{sfn|Masson|1999|p=158}} Professional animators of movies, television and video games could make photorealistic animation with high detail. This level of quality for movie animation would take hundreds of years to create on a home computer. Instead, many powerful [[workstation]] computers are used;{{sfn |Sito|2013|p=144}} [[Silicon Graphics]] said in 1989 that the animation industry's needs typically caused graphical innovations in workstations.<ref name="robinson198902">{{Cite magazine |last=Robinson |first=Phillip |date=February 1989 |title=Art + 2 Years = Science |url=https://archive.org/details/eu_BYTE-1989-02_OCR/page/n309/mode/2up?view=theater |access-date=2024-10-08 |magazine=BYTE |pages=255–264}}</ref> Graphics workstation computers use two to four processors, and they are a lot more powerful than an actual home computer and are specialized for rendering. Many workstations (known as a ''"[[render farm]]"'') are networked together to effectively act as a giant computer,{{sfn|Sito|2013|p=195}} resulting in a computer-animated movie that can be completed in about one to five years (however, this process is not composed solely of rendering). A workstation typically costs $2,000 to $16,000 with the more expensive stations being able to render much faster due to the more technologically advanced hardware that they contain. Professionals also use digital [[movie camera]]s, motion/[[performance capture]], [[Chroma key|bluescreens]], [[List of video editing software|film editing software]], props, and other tools used for movie animation. Programs like Blender allow for people who can not afford expensive animation and rendering software to be able to work in a similar manner to those who use the commercial grade equipment.<ref>{{Cite web|url=https://www.blender.org/|title=blender.org – Home of the Blender project – Free and Open 3D Creation Software |website= blender.org |language=en|access-date=}}</ref>

==Facial animation==
{{Main|Computer facial animation}}
The realistic modeling of human facial features is both one of the most challenging and sought after elements in computer-generated imagery. Computer facial animation is a highly complex field where models typically include a very large number of animation variables.{{sfn|Masson|1999|pp=110–116}} Historically speaking, the first [[SIGGRAPH]] tutorials on ''State of the art in Facial Animation'' in 1989 and 1990 proved to be a turning point in the field by bringing together and consolidating multiple research elements and sparked interest among a number of researchers.{{sfn|Parke|Waters|2008|p=xi}}

The [[Facial Action Coding System]] (with 46 "action units", "lip bite" or "squint"), which had been developed in 1976, became a popular basis for many systems.{{sfn|Magnenat Thalmann|Thalmann|2004|p=122}} As early as 2001, [[MPEG-4]] included 68 [[Face Animation Parameter]]s (FAPs) for lips, jaws, etc., and the field has made significant progress since then and the use of facial [[microexpression]] has increased.{{sfn|Magnenat Thalmann|Thalmann|2004|p=122}}{{sfn|Pereira|Ebrahimi|2002|p=404}}

In some cases, an [[Affect measures|affective space]], the [[PAD emotional state model]], can be used to assign specific emotions to the faces of [[Avatar (computing)|avatars]].{{sfn|Pereira|Ebrahimi|2002|pp=60–61}} In this approach, the PAD model is used as a high level emotional space and the lower level space is the MPEG-4 Facial Animation Parameters (FAP). A mid-level Partial Expression Parameters (PEP) space is then used to in a two-level structure – the PAD-PEP mapping and the PEP-FAP translation model.{{sfn|Paiva|Prada|Picard|2007|pages=24–33}}

==Realism==
[[File:Joy &amp; Heron - Animated CGI Spot by Passion Pictures.webm|thumb|Joy &amp; Heron – a typical example of realistic animation]]
Realism in computer animation can mean making each frame look [[photorealism|photorealistic]], in the sense that the scene is rendered to resemble a photograph or make the characters' animation believable and lifelike.{{sfn|Masson|1999|pp=160–161}} Computer animation can also be realistic with or without the [[photorealistic rendering]].{{sfn|Parent|2012|pp=14–17}}

One trend in computer animation has been the effort to create human characters that look and move with the highest degree of realism. A possible outcome when attempting to make pleasing, realistic human characters is the [[uncanny valley]], the concept where the human audience (up to a point) tends to have an increasingly negative, emotional response as a human replica looks and acts more and more human. Films that have attempted photorealistic human characters, such as ''[[The Polar Express (film)|The Polar Express]]'',<ref>{{cite web|url=http://www.salon.com/2004/11/10/polar_express/|title=The Polar Express|last=Zacharek|first=Stephanie|work=[[Salon (website)|Salon]]|date=2004-11-10|access-date=2015-06-08}}</ref><ref>{{cite news|url=http://www.newsweek.com/2013/11/01/10-scariest-movies-and-why-they-creep-us-out-243852.html|title=The 10 Scariest Movies and Why They Creep Us Out|last=Herman|first=Barbara|work=[[Newsweek]]|date=2013-10-30|access-date=2015-06-08}}</ref><ref>{{cite news|url=http://www.cnn.com/2004/SHOWBIZ/Movies/11/10/review.polar.express/index.html|title=Review: 'Polar Express' a creepy ride|last=Clinton|first=Paul|work=[[CNN]]|date=2004-11-10|access-date=2015-06-08}}</ref> ''[[Beowulf (2007 film)|Beowulf]]'',<ref name="digital in beowulf">[http://bits.blogs.nytimes.com/2007/11/14/digital-actors-in-beowulf-are-just-uncanny/ Digital Actors in 'Beowulf' Are Just Uncanny] {{Webarchive|url=https://web.archive.org/web/20110827040045/http://bits.blogs.nytimes.com/2007/11/14/digital-actors-in-beowulf-are-just-uncanny/ |date=2011-08-27 }}&nbsp;– ''New York Times'', November 14, 2007</ref> and ''[[A Christmas Carol (2009 film)|A Christmas Carol]]''<ref>{{cite news|last=Neumaier|first=Joe|url=http://www.nydailynews.com/entertainment/movies/blah-humbug-christmas-carol-3-d-spin-dickens-parts-lacks-spirit-article-1.414317|title=Blah, humbug! 'A Christmas Carol's 3-D spin on Dickens well done in parts but lacks spirit|work=[[Daily News (New York)|New York Daily News]]|date=November 5, 2009|access-date=October 10, 2015|archive-date=July 10, 2018|archive-url=https://web.archive.org/web/20180710225226/http://www.nydailynews.com/entertainment/movies/blah-humbug-christmas-carol-3-d-spin-dickens-parts-lacks-spirit-article-1.414317|url-status=dead}}</ref><ref>{{cite news|last=Williams|first=Mary Elizabeth|author-link=Mary Elizabeth Williams|url=http://www.salon.com/ent/movies/review/2009/11/05/christmas_carol/index.html|title=Disney's 'A Christmas Carol': Bah, humbug!|work=Salon.com|date=November 5, 2009|access-date=October 10, 2015|archive-url=https://web.archive.org/web/20100111042721/http://www.salon.com/ent/movies/review/2009/11/05/christmas_carol/index.html |archive-date=January 11, 2010}}</ref>
have been criticized as "disconcerting" and "creepy".

The goal of computer animation is not always to emulate live action as closely as possible, so many animated films instead feature characters who are [[Anthropomorphism|anthropomorphic]] animals, [[legendary creature]]s and characters, superheroes, or otherwise have non-realistic, cartoon-like proportions.{{sfn|Sito|2013|p=7}} Computer animation can also be tailored to mimic or substitute for other kinds of animation, like traditional stop-motion animation (as shown in ''[[Flushed Away]]'' or ''[[The Peanuts Movie]]''). Some of the long-standing [[12 basic principles of animation|basic principles of animation]], like [[squash and stretch]], call for movement that is not strictly realistic, and such principles still see widespread application in computer animation.{{sfn|Sito|2013|p=59}}

==Web animations==
The popularity of [[website]]s that allow members to upload their own movies for others to view has created a growing community of independent and [[amateur]] computer animators.{{sfn|Sito|2013|pp=82, 89}} With utilities and programs often included free with modern [[operating system]]s, many users can make their own animated movies and shorts. Several [[Free and open-source software|free and open-source]] animation software applications exist as well. The ease at which these animations can be distributed has attracted professional animation talent also. Companies such as [[PowToon]] and [[Vyond]] attempt to bridge the gap by giving amateurs access to professional animations as [[clip art]].

The oldest (most backward compatible) web-based animations are in the animated [[GIF]] format, which can be uploaded and seen on the web easily.{{sfn|Kuperberg|2002|pp=112–113}} However, the [[raster graphics]] format of GIF animations slows the [[download]] and frame rate, especially with larger screen sizes. The growing demand for higher quality web-based animations was met by a [[vector graphics]] alternative that relied on the use of a [[Browser extension|plugin]]. For decades, [[Flash animation]]s were a common format, until the web development community abandoned support for the [[Flash Player]] plugin. Web browsers on [[mobile device]]s and [[mobile operating system]]s never fully supported the Flash plugin.

By this time, [[Bandwidth (computing)|internet bandwidth]] and download speeds increased, making raster graphic animations more convenient. Some of the more complex vector graphic animations had a slower frame rate due to complex [[Rendering (computer graphics)|rendering]] compared to some of the raster graphic alternatives. Many of the GIF and Flash animations were already converted to [[digital video]] formats, which were compatible with mobile devices and reduced file sizes via [[video compression]] technology. However, compatibility was still problematic as some of the video formats such as Apple's [[QuickTime]] and [[Microsoft Silverlight]] required plugins. [[YouTube]] was also relying on the Flash plugin to deliver digital video in the [[Flash Video]] format.

The latest alternatives are [[HTML5]] compatible animations. Technologies such as [[JavaScript]] and [[CSS animation]]s made sequencing the movement of images in HTML5 web pages more convenient. [[SVG animation]]s offered a vector graphic alternative to the original Flash graphic format, [[SmartSketch]]. YouTube offers an HTML5 alternative for digital video. [[APNG]] (Animated PNG) offered a raster graphic alternative to animated GIF files that enables multi-level transparency not available in GIFs.

{{See also|Comparison of HTML5 and Flash}}

==Detailed example==
Computer animation uses different techniques to produce animations. Most frequently, sophisticated [[mathematics]] is used to manipulate complex three-dimensional [[polygon]]s, apply "[[Texture mapping|textures]]", lighting and other effects to the polygons and finally [[Rendering (computer graphics)|rendering]] the complete image. A sophisticated [[graphical user interface]] may be used to create the animation and arrange its choreography. Another technique called [[constructive solid geometry]] defines objects by conducting [[Boolean operation (Boolean algebra)|Boolean operations]] on regular shapes, and has the advantage that animations may be accurately produced at any resolution.

==Animation studios==
{{Main|List of animation studios}}
{{Globalize|section|USA|2name=the United States|date=May 2018}}

Some notable producers of computer-animated feature films include:
<!-- Please list no more than three films per studio.-->
* [[Animal Logic]]&nbsp;– Films include ''[[Happy Feet]]'' (2006), ''[[Legend of the Guardians: The Owls of Ga'Hoole]]'' (2010), ''[[Walking with Dinosaurs (film)|Walking with Dinosaurs]]'' (2013), and ''[[The Lego Movie]]'' (2014)
* [[Aardman Animations]]&nbsp;– Films include ''[[Flushed Away]]'' (2006) and ''[[Arthur Christmas]]'' (2011)
* [[Angel Studios]]&nbsp; – Films include ''[[The King of Kings (2025 film)|The King of Kings]]'' (2025)
* [[Ánima (company)|Ánima Estudios]]&nbsp;– Films include ''[[Monster Island (2017 film)|Monster Island]]'' (2017), ''[[Ana y Bruno|Ana and Bruno]]'' (2018),  and ''[[Cranston Academy: Monster Zone]]'' (2020)
* [[Annapurna Pictures]]&nbsp;– Films include ''[[Sausage Party]]'' (2016), and ''[[Nimona (film)|Nimona]]'' (2023)
* [[Assemblage Entertainment]]&nbsp;– Films include ''[[Blinky Bill the Movie]]'' (2015), ''[[Norm of the North]]'' (2016), and ''[[Arctic Dogs]]'' (2019)
* [[Big Idea Entertainment]]&nbsp;– ''[[Jonah: A VeggieTales Movie]]'' (2002) and ''[[The Pirates Who Don't Do Anything: A VeggieTales Movie]]'' (2008)
* [[Bron Studios|Bron Animation]]&nbsp;– Films include ''[[The Addams Family (2019 film)|The Addams Family]]'' (2019) and ''[[The Willoughbys]]'' (2020)
* [[Blue Sky Studios]]&nbsp;– Films include ''[[Ice Age (2002 film)|Ice Age]]'' (2002), ''[[Robots (2005 film)|Robots]]'' (2005), ''[[Horton Hears a Who! (film)|Horton Hears a Who!]]'' (2008), ''[[Rio (2011 film)|Rio]]'' (2011), ''[[Epic (2013 film)|Epic]]'' (2013), and ''[[The Peanuts Movie]]'' (2015), and ''[[Spies in Disguise]]'' (2019)
* [[DNA Productions]]&nbsp;– Films include ''[[Jimmy Neutron: Boy Genius]]'' (2001), ''[[Santa vs. the Snowman 3D]]'' (2002), and ''[[The Ant Bully (film)|The Ant Bully]]'' (2006)
* [[DreamWorks Animation]]&nbsp;– Films include ''[[Shrek]]'' (2001), ''[[Shark Tale]]'' (2004), ''[[Madagascar (2005 film)|Madagascar]]'' (2005), ''[[Over the Hedge]]'' (2006), ''[[Bee Movie]]'' (2007), ''[[Kung Fu Panda (film)|Kung Fu Panda]]'' (2008), ''[[Monsters vs. Aliens]]'' (2009), ''[[How to Train Your Dragon (2010 film)|How to Train Your Dragon]]'' (2010), ''[[Rise of the Guardians]]'' (2012), ''[[The Croods]]'' (2013), ''[[Turbo (2013 film)|Turbo]]'' (2013), ''[[Home (2015 film)|Home]]'' (2015), ''[[Trolls (film)|Trolls]]'' (2016), ''[[The Boss Baby]]'' (2017), ''[[Captain Underpants: The First Epic Movie]]'' (2017), ''[[Abominable (2019 film)|Abominable]]'' (2019), ''[[The Bad Guys (film)|The Bad Guys]]'' (2022), ''[[Ruby Gillman, Teenage Kraken]]'' (2023), ''[[Orion and the Dark]]'' (2024), ''[[The Wild Robot]]'' (2024), and ''[[Dog Man (film)|Dog Man]]'' (2025)
* [[Flying Bark Productions]]&nbsp;– Films include ''[[100% Wolf]]'' (2020)
* [[Framestore]] - Films include [[The Tale of Despereaux (film)|''The Tale of Despereaux'']] (2008)
* [[Huayi Brothers]]&nbsp;– Films include ''[[Rock Dog]]'' (2016), ''[[Extinct (film)|Extinct]]'' (2021), and ''[[Paws of Fury: The Legend of Hank]]'' (2022)
* [[ImageMovers]]&nbsp;– Films include ''[[The Polar Express (film)|The Polar Express]]'' (2004), ''[[Monster House (film)|Monster House]]'' (2006), ''[[Beowulf (2007 film)|Beowulf]]'' (2007), ''[[A Christmas Carol (2009 film)|A Christmas Carol]]'' (2009), and ''[[Mars Needs Moms]]'' (2011)
* [[Imagi Animation Studios]]&nbsp;– Films include ''[[TMNT (film)|TMNT]]'' (2007) and ''[[Astro Boy (film)|Astro Boy]]'' (2009)
* [[Ilion Animation Studios]] — Films include ''[[Planet 51]]'' (2009), ''[[Mortadelo and Filemon: Mission Implausible]]'' (2014), and ''[[Wonder Park]]'' (2019)
* [[Illumination (animation company)|Illumination]] — Films include ''[[Despicable Me (film)|Despicable Me]]'' (2010), [[The Lorax (film)|The Lorax]] (2012), ''[[Minions (film)|Minions]]'' (2015), ''[[The Secret Life of Pets]]'' (2016), ''[[Sing (2016 American film)|Sing]]'' (2016), ''[[The Grinch (film)|The Grinch]]'' (2018), ''[[The Secret Life of Pets 2]]'' (2019)  and ''[[The Super Mario Bros. Movie]]'' (2023), and ''[[Migration (2023 film)|Migration]]'' (2023)
* [[Industrial Light & Magic]]&nbsp;– Films include ''[[Rango (2011 film)|Rango]]'' (2011) and ''[[Strange Magic (film)|Strange Magic]]'' (2015)
* Lightbox Entertainment&nbsp; – Films include ''[[Tad, The Lost Explorer]]'' (2012), and ''[[Capture the Flag (film)|Capture the Flag]]'' (2015)
* [[Locksmith Animation]]&nbsp;- Films include ''[[Ron's Gone Wrong]]'' (2021) and ''[[That Christmas]]'' (2024)
* [[Monsta Studios]]&nbsp; – Films include ''[[BoBoiBoy: The Movie]]'' (2016), and ''[[Mechamato Movie]]'' (2022)
* [[Netflix Animation]]&nbsp;– Films include ''[[Back to the Outback]]'' (2021), ''[[The Sea Beast (2022 film)|The Sea Beast]]'' (2022), ''[[The Magician's Elephant (film)|The Magician's Elephant]]'' (2023), ''[[The Monkey King (2023 film)|The Monkey King]]'' (2023), ''[[Leo (2023 American film)|Leo]]'' (2023), ''[[Thelma the Unicorn]]'' (2024), and ''[[Ultraman: Rising]]'' (2024)
* [[Nickelodeon Movies]]&nbsp;– Films include ''[[Paw Patrol: The Movie]]'' (2021)
* [[nWave Studios]]&nbsp;– Films include ''[[Fly Me to the Moon (2008 film)|Fly Me to the Moon]]'' (2008), ''[[A Turtle's Tale: Sammy's Adventures]]'' (2010), ''[[The House of Magic]]'' (2013), ''[[Robinson Crusoe (2016 film)|Robinson Crusoe]]'' (2016), ''[[The Son of Bigfoot]]'' (2017), ''[[The Queen's Corgi]]'' (2019), and ''[[Chickenhare and the Hamster of Darkness]]'' (2022)
* [[Steve Oedekerk|Omation Animation Studios]]&nbsp;– Films include ''[[Barnyard (film)|Barnyard]]'' (2006)
* [[Pacific Data Images]]&nbsp;– Films include ''[[Antz]]'' (1998), ''[[Shrek]]'' (2001), ''[[Shrek 2]]'' (2004), ''[[Madagascar (2005 film)|Madagascar]]'' (2005), ''[[Megamind]]'' (2010), and ''[[Mr. Peabody and Sherman]]'' (2014)
* [[Paramount Animation]] – Films include ''[[The SpongeBob Movie: Sponge Out of Water]]'' (2015), ''[[Monster Trucks (film)|Monster Trucks]]'' (2017), ''[[Sherlock Gnomes]]'' (2018), ''[[Wonder Park]]'' (2019), ''[[The SpongeBob Movie: Sponge on the Run]]'' (2020), ''[[Under the Boardwalk (2023 film)|Under the Boardwalk]]'' (2023), ''[[The Tiger's Apprentice (film)|The Tiger's Apprentice]]'' (2024), and ''[[Transformers One]]'' (2024)
* [[Pixar|Pixar Animation Studios]]&nbsp;– Films include ''[[Toy Story]]'' (1995), ''[[Monsters, Inc.]]'' (2001), ''[[Finding Nemo]]'' (2003), ''[[The Incredibles]]'' (2004), ''[[Cars (film)|Cars]]'' (2006), ''[[Ratatouille (film)|Ratatouille]]'' (2007), ''[[WALL-E]]'' (2008), ''[[Up (2009 film)|Up]]'' (2009),  ''[[Brave (2012 film)|Brave]]'' (2012), ''[[Inside Out (2015 film)|Inside Out]]'' (2015), ''[[The Good Dinosaur]]'' (2015), '' [[Coco (2017 film)|Coco]]'' (2017), ''[[Onward (film)|Onward]]'' (2020), ''[[Soul (2020 film)|Soul]]'' (2020) ''[[Luca (2021 film)|Luca]]'' (2021), ''[[Turning Red]]'' (2022), and ''[[Elemental (2023 film)|Elemental]]'' (2023)
* [[Mainframe Studios|Rainmaker Studios]]&nbsp;– Films include ''[[Escape from Planet Earth]]'' (2013) and ''[[Ratchet & Clank (film)|Ratchet & Clank]]'' (2016)
* [[Reel FX Creative Studios|Reel FX Animation Studios]]&nbsp;– Films include ''[[Free Birds]]'' (2013), ''[[The Book of Life (2014 film)|The Book of Life]]'' (2014), and ''[[Rumble (2021 film)|Rumble]]'' (2021)
* [[Wizart Animation]]&nbsp;– Films include ''[[The Snow Queen (2012 film)|The Snow Queen]]'' (2012) and ''[[Sheep and Wolves]]'' (2016)
* [[Shirogumi]]&nbsp;– Films include ''[[Friends: Mononoke Shima no Naki]]'' (2011), ''[[Stand by Me Doraemon]]'' (2014), and ''[[Dragon Quest: Your Story]]'' (2019)
* [[Skydance Animation]]&nbsp; – Films include ''[[Luck (2022 film)|Luck]]'' (2022) and ''[[Spellbound (2024 film)|Spellbound]]'' (2024)
* [[Square (video game company)|Square Pictures]]&nbsp;- Films include ''[[Final Fantasy: The Spirits Within]]'' (2001)
* [[Sony Pictures Animation]] – Films include ''[[Open Season (2006 film)|Open Season]]'' (2006), ''[[Surf's Up (film)|Surf's Up]]'' (2007), ''[[Cloudy with a Chance of Meatballs (film)|Cloudy with a Chance of Meatballs]]'' (2009), ''[[Hotel Transylvania (film)|Hotel Transylvania]]'' (2012), ''[[The Emoji Movie]]'' (2017), ''[[The Star (2017 film)|The Star]]'' (2017), ''[[Spider-Man: Into the Spider-Verse]]'' (2018), ''[[The Mitchells vs. the Machines]]'' (2021), ''[[Wish Dragon]]'' (2021), and ''[[Vivo (film)|Vivo]]'' (2021)
* [[Sony Pictures Imageworks]] – Films include ''[[The Angry Birds Movie]]'' (2016) and ''[[Over the Moon (2020 film)|Over the Moon]]'' (2020)
* [[:fr:TAT Productions|TAT Productions]]&nbsp;– Films include ''[[The Jungle Bunch (film)|The Jungle Bunch]]'' (2017), ''[[Astro Kid]]'' (2019), and ''[[Pattie and the Wrath of Poseidon|Epic Tails]]'' (2022)
* [[Triggerfish Animation Studios]]&nbsp;– Films include ''[[Zambezia (film)|Zambezia]]'' (2013), ''[[Khumba]]'' (2014), and ''[[Seal Team (film)|Seal Team]]'' (2021)
* [[Vanguard Animation]]&nbsp;- Films include ''[[Valiant (film)|Valiant]]'' (2005), ''[[Space Chimps]]'' (2008), ''[[Get Squirrely]]'' (2016), ''[[Gnome Alone]]''  (2017), ''[[Trouble (2019 film)|Trouble]]'' (2019), ''[[Fearless (2020 film)|Fearless]]'' (2020), and ''[[Rally Road Racers]]'' (2023)
* [[Walt Disney Animation Studios]]&nbsp;– Films include ''[[Meet the Robinsons]]'' (2007), ''[[Bolt (2008 film)|Bolt]]'' (2008), ''[[Tangled (2010 film)|Tangled]]'' (2010), ''[[Wreck-It Ralph]]'' (2012), ''[[Frozen (2013 film)|Frozen]]'' (2013), ''[[Big Hero 6 (film)|Big Hero 6]]'' (2014), ''[[Zootopia]]'' (2016), ''[[Moana (2016 film)|Moana]]'' (2016), ''[[Raya and the Last Dragon]]'' (2021), ''[[Encanto]]'' (2021), and ''[[Strange World (film)|Strange World]]'' (2022)
* [[Warner Bros. Pictures Animation]]&nbsp;– Films include ''[[The Lego Movie]]'' (2014), ''[[Storks (film)|Storks]]'' (2016), ''[[The Lego Batman Movie]]'' (2017), ''[[Smallfoot]]'' (2018), and ''[[Scoob!]]'' (2020)
* [[Weta Digital]]&nbsp;– Films include ''[[The Adventures of Tintin (film)|The Adventures of Tintin]]'' (2011)

==See also==
{{Portal|Animation}}
{{div col|colwidth=22em}}
* [[Animation]]
* [[Animation database]]
* [[Autodesk]]
* [[Avar (animation variable)]]
*[[Computer facial animation]]
* [[Computer-generated imagery]] (CGI)
* [[New York Institute of Technology Computer Graphics Lab]]
* [[Computer representation of surfaces]]
* [[Hand-Over]]
* [[Humanoid animation]]
* [[List of animation studios]]
* [[List of computer-animated films]]
* [[List of computer-animated television series]]
* [[Medical animation]]
* [[Morph target animation]]
* [[Machinima]] (recording video from games and virtual worlds)
* [[Motion capture]]
* [[Procedural animation]]
* [[Ray tracing (graphics)|Ray tracing]]
* [[Rich Representation Language]]
* [[Skeletal animation]]
* [[Stop motion]]
*[[Traditional animation]]
* [[Timeline of computer animation in film and television]]
* [[Virtual artifact]]
* [[Wire-frame model]]
* [[Twelve basic principles of animation]]
{{div col end}}

==References==
===Citations===
{{Reflist}}

===Works cited===
{{Library resources box|by=no|onlinebooks=no|wikititle=computer animation}}
{{Refbegin|30em}}
* {{cite book
 |last=Beane
 |first=Andy
 |title=3D Animation Essentials
 |year=2012
 |publisher=John Wiley & Sons
 |location=Indianapolis, Indiana
 |isbn=978-1-118-14748-1
}}
* {{cite book
 |last=Kuperberg
 |first=Marcia
 |title=A Guide to Computer Animation: For TV, Games, Multimedia and Web
 |year=2002
 |publisher=Focal Press
 |isbn=0-240-51671-0
}}
* {{cite book
 |last1=Magnenat Thalmann
 |first1=Nadia
 |author-link1=Nadia Magnenat Thalmann
 |last2=Thalmann
 |first2=Daniel
 |author-link2=Daniel Thalmann
 |title=Handbook of Virtual Humans
 |isbn=0-470-02316-3
 |publisher=Wiley Publishing
 |year=2004
}}
* {{cite book
 |last=Masson
 |first=Terrence
 |title=CG 101: A Computer Graphics Industry Reference
 |publisher=Digital Fauxtography Inc.
 |isbn=0-7357-0046-X
 |year=1999
}}
* {{cite news
 |url=http://www.sltrib.com/sltrib/mobile/53193670-90/film-catmull-computer-animation.html.csp
 |title=Pixar founder's Utah-made ''Hand'' added to National Film Registry
 |last=Means
 |first=Sean P.
 |work=[[The Salt Lake Tribune]]
 |date=December 28, 2011
 |access-date=January 8, 2012
}}
* {{cite book
 |last1=Paiva|first1=Ana
 |last2=Prada
 |first2=Rui
 |last3=Picard
 |first3=Rosalind W.
 |year=2007
 |chapter=Facial Expression Synthesis using PAD Emotional Parameters for a Chinese Expressive Avatar
 |title= Affective Computing and Intelligent Interaction
 |series=Lecture Notes in Computer Science
 |publisher=Springer Science+Business Media
 |volume=4738
 |doi=10.1007/978-3-540-74889-2
 |isbn=978-3-540-74888-5
}}
* {{cite book
 |last=Parent
 |first=Rick
 |title=Computer Animation: Algorithms and Techniques
 |year=2012
 |location=Ohio
 |publisher=Elsevier
 |isbn=978-0-12-415842-9
}}
* {{cite book
 |last1=Pereira
 |first1=Fernando C. N.
 |last2=Ebrahimi
 |first2=Touradj
 |title=The MPEG-4 Book
 |year=2002
 |location=New Jersey
 |publisher=IMSC Press
 |isbn=0-13-061621-4
}}
* {{cite book
 |last1=Parke
 |first1=Frederic I.
 |last2=Waters
 |first2=Keith
 |title=Computer Facial Animation
 |edition=2nd
 |year=2008
 |location=Massachusetts
 |publisher=A.K. Peters, Ltd.
 |isbn=978-1-56881-448-3
}}
* {{cite book
 |last=Sito
 |first=Tom
 |title=Moving Innovation: A History of Computer Animation
 |year=2013
 |location=Massachusetts
 |publisher=[[MIT Press]]
 |isbn=978-0-262-01909-5
}}
{{refend}}

==External links==
* {{Commons category-inline|Computer animations}}

{{Animation}}
{{Computer science}}
{{Film genres}}
{{Authority control}}

{{DEFAULTSORT:Computer Animation}}
[[Category:Computer animation| ]]
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