Difference between revisions of "Cameras"

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''Abstract game entities that provide view points of game worlds.''
[[Category:Stub]]
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''...''
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This pattern is a still a stub.
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Games with game worlds need to present them in some fashion. Unless given from the perspective of a diegetic character, these views are from specific points in space of the game worlds. [[Cameras]] are used to describe the abstract entities that can be said to be located in these points, and the functionality of these can allow the points to move according to game events or player actions.
 
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Camera is an abstract game element that decides what is the player's current view to the game world.
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=== Examples ===
 
=== Examples ===
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[[:Category:Strategy Games|Strategy Games]] such as the [[Civilization (video game) series|Civilization series]] and the [[Starcraft series]] allow the players to move cameras across entire game worlds but the position of the game elements, and in many cases not even the terrain, is typically not revealed. [[:Category:God Games|God Games]], in contrast, allow players to have a complete view of the area that is being viewed. In real-time games, players may however set the [[Cameras]] to follow avatars or units as they move.
  
Real-time strategy games allow the players to move the camera across the whole game world but the position of the game elements, and in many cases not even the terrain, is typically not revealed. God games, in contrast, allow players to have a complete view of the area that is being viewed. First-person shooters, as the name implies, usually provide first-person views while racing games often let players choose between first-person views to support spatial immersion and third-person views that allow better overview of the local game world environment.
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The [[Mario Kart series|Mario Kart]], [[Super Mario series|Super Mario]], [[Tomb Raider series|Tomb Raider]], and [[Uncharted series]] games all make use of [[Cameras]] to provide third-person views during gameplay. [[Super Mario 64]] provides an exception to the rule that [[Cameras]] are abstract objects that are not explained within the game world: although not affected by events in the game world, the [[Cameras|Camera]], and the Lakitu character carrying it, can be seen in mirrors. Another minor exception is the [[Cameras|Camera]] in the party game ''Monkey Boxing'' in [[Super Monkey Ball 2]]. This [[Cameras|Camera]] can be hit during the celebration scene when one of the monkeys has won the game.
  
[[Tomb Raider series]]
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[[:Category:FPS Games|First-Person Shooters]] do not use [[Cameras]] as the main way of presenting gameplay to players, but can do so for spectators; and the [[Battlefield series]] and later installments of the [[Fallout series]] use ''Killcams'' to present third-person views of noteworthy kills.
 
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[[Battlefield series]] and later installments of the [[Fallout series]] use ''Killcams'',
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Super Mario 64 provides an exception to the rule that Cameras are abstract objects that are not explained within the game world: although not affected by events in the game world, the camera, and the cameraman, can be seen in mirrors. Another minor exception is the camera in the party game Monkey Boxing in Super Monkey Ball 2, which can be hit during the celebration scene when one of the monkeys has won the game.
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== Using the pattern ==
 
== Using the pattern ==
[[Cameras]] are used in games to create both [[Third-Person Views]] and [[God Views]], and which of these should be supported is a fundamental choice for using the pattern. Depending on which is supported, [[Cameras]] can be differently good at providing [[Surprises]], [[Tension]], and [[Detective Structures]].
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[[Cameras]] are used in games to create both [[Third-Person Views]] and [[God Views]], and which of this should be supported is a fundamental choice for using the pattern. They can also be used in the [[Third-Person Views]] possible in [[First-Person Views]] through [[Picture-in-Picture Views]]. Depending on which is supported, [[Cameras]] can be differently good at providing [[Surprises]], [[Tension]], and [[Detective Structures]]. [[Dedicated Game Facilitators]] are needed in both cases to generate the presentation from positions containing no game entities (although players of [[:Category:Board Games|Board Games]] or [[:Category:Miniature Games|Miniature Games]] can partly get the same results simply by positioning themselves). In the following, the pattern assumes that visual presentations will be created but [[Game Masters]] can provide [[Cameras|Camera]] functionality through oral descriptions and text-based [[:Category:Adventure Games|Adventure Games]] through textual descriptions.
 
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The type of Camera is usually closely linked to how Focus Loci and Spatial Immersion are used in the game: games with Avatars useFirst-Person Views or Third-Person Views, while games with Units use God Views. While First-Person Views and Third-Person Views easily support Imperfect Information to players by limiting their control of the Camera, God Views can achieve similar effect by using Fog of War.
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Games with Avatars that include fast movement often let the players choose from several different camera views based on First-Person View or Third-Person Views. Examples of these are chase cameras, which do not follow the Avatar but missiles or bullets shot by the Avatar and fly-by cameras, which lock the camera position while tracing the movement of the Avatar.
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Making the decision to allow players to control the Camera include making decision of what Extra-Game Actions related to Cameras should be provided: rotation, zooming and absolute movement for God Views and rotation and zooming movement for First-Person Views and Third-Person Views. This increases players Freedom of Choice and Spatial Immersion (as not only the player can make the Avatar or Unit move in the world but also the Game World move around these) but increases the conflict with Consistent Reality Logic.
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There are a number of different types of [[Third-Person Views]]: ''over the shoulder'', which shows a game entity from above slightly to the side; ''overhead'', which provides excellent relations to the surrounding but which offers little information about the game entity itself; and ''chase-cam'', which follows the game entity exactly behind in the element's line of movement. These can be modified by either linking the movement of the [[Cameras|Camera]] to the movement of the game entity or locking the [[Cameras|Camera]] to a position relative to the environment. Players can also be given a [[Freedom of Choice]] to manipulate [[Cameras|Camera]] in several ways: by modify them the positioning slightly, by being able to switch between different [[Cameras|Camera]] modes, or being able to move the [[Cameras|Camera]] freely with certain distances from the entities followed.
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Cameras offer the design option of letting players have control over the Camera which creates the view. Although this may affect the Right Level of Difficulty and require more Dexterity-Based Actions, it can allow players to have a complete view of the Game World.
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=== Can Be Instantiated By ===
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[[Killcams]]
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There are a number of different types of views [[Cameras]] can support. Two generic examples are ''over the shoulder'' views, which show game entities from above slightly to the side, and ''overhead'' views, which  provide excellent relations to the surroundings but which offers little information about focused game entities since they look direct down on them. Both these can be modified by either linking the movement of the [[Cameras|Camera]] to the movement of game entities or locking the [[Cameras|Camera]] to a position relative to the environment (in effect choosing between a [[Third-Person Views|Third Person View]] and a [[God Views|God View]]). Some [[Cameras|Camera]] views are specific to [[Third-Person Views]]. ''Chase-cams'' follows behind game entities as they move to convey the sense of movement while ''fly-by views'' lock [[Cameras|Camera]] positions while tracing the movement of a moving game entity (this view can also be provided by [[First-Person Views]]). [[Killcams]], which shows [[Replays]] of deaths in games, can make use of either of these two options. [[Point of Interest Indicators]] are ways for games to take control of where [[Cameras]] are pointed to show players locations in [[Game Worlds]] that are important-
  
 
=== Diegetic Aspects ===
 
=== Diegetic Aspects ===
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[[Cameras]] is an [[:Category:Diegetic Patterns|Diegetic Pattern]].
  
 
=== Interface Aspects ===
 
=== Interface Aspects ===
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[[Cameras]] is an [[:Category:Interface Patterns|Interface Pattern]]. The choices related to [[Cameras]] are usually linked to the choice of [[Focus Loci]] in a games; those with [[Avatars]] mainly use [[Third-Person Views]], while games with [[God Fingers]] or [[Units]] mainly use [[God Views]]. Exceptions are however quite common, especially to temporarily provide a different view to highlight events or make certain activities easier. While designing [[Cameras]], it may be feasible to consider if [[Vision Modes]] are to be used in a game or not.
  
=== Narrative Aspects ===
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Players can also be given a [[Freedom of Choice]] to manipulate [[Cameras|Camera]] in several ways: by modify them the positioning slightly, by being able to switch between different [[Cameras|Camera]] modes, or being able to move the [[Cameras|Camera]] freely with certain distances from the entities followed. Making the decision to allow players to control [[Cameras]] require additional decisions to be made concerning what [[Extra-Game Actions]] related to [[Cameras]] should be provided: commonly panning, rotating, and zooming for [[God Views]] and rotating and zooming for [[Third-Person Views]].
  
 
== Consequences ==
 
== Consequences ==
[[Cameras]] provide players with views of [[Game Worlds]], and those that can be manipulated by players allow them a [[Freedom of Choice]] in what parts of the [[Game Worlds]] they want to focus their attention on.  
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[[Cameras]] provide players with views of [[Game Worlds]], and ones that can be manipulated by players to allow them a [[Freedom of Choice]] in what parts of the [[Game Worlds]] they want to focus their attention on at the cost of having to perform [[Extra-Game Actions]]. By doing so, [[Cameras]] offers a way of controlling how [[Mediated Gameplay]] occurs in a game.
  
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[[Game State Overviews]] are supported by [[Cameras]] both when they are used for [[God Views]] and [[Third-Person Views]] since in both cases players can observe [[Game Worlds]] with better views than any specific game element (for [[Third-Person Views]] a large part of this can be simply to see the entity tracked). The ease of using [[Cameras]], decides in a great extent how much games help players perform [[Attention Swapping]] - if controlling [[Cameras]] is non-trivial during gameplay this adds requirements to perform [[Dexterity-Based Actions]] during gameplay.
  
In games with Avatars this is typically limited in such a way that the Avatar is always in the center of the view. This maintains the symmetry between what the Avatar and the player sees so that Tension and Surprises can be achieved and also to strengthen spatial Immersion.
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In games with [[Avatars]], [[Cameras]] are typically limited in such a way that they are always in the center of players' views (but see the [[Sims series]] for an exception). This maintains the symmetry between what [[Avatars]] and players sees so that [[Tension]] and [[Surprises]] can be achieved and also to strengthen [[Spatial Engrossment]]. In games with [[Units]], [[Cameras|Camera]] movement is often completely free to allow the players to move between different game elements and to force them to make [[Trade-Offs]] between which parts of [[Game Worlds]] to focus their attention on.  
 
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In games with Units, the Camera movement may be completely free to allow the players to move between different game elements and to enforce them to make Tradeoffs between which parts of the Game World to focus their attention on. The ease of the use of the Camera, and relevant Game State Overview, decides how much the game helps the players to perform Attention Swapping.
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=== Can Instantiate ===
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[[Freedom of Choice]],
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=== Potentially Conflicting With ===
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[[Cameras]] have a fundamental conflict with [[Diegetic Consistency]] since they are incorporeal entities and present players with views that no diegetic entity currently has and possibly never could have.
[[Diegetic Consistency]]
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== Relations ==
 
== Relations ==
 
=== Can Instantiate ===
 
=== Can Instantiate ===
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[[Dexterity-Based Actions]],
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[[Extra-Game Actions]],
 
[[Freedom of Choice]],  
 
[[Freedom of Choice]],  
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[[Game State Overviews]],
 
[[God Views]],  
 
[[God Views]],  
[[Third-Person Views]]
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[[Third-Person Views]],
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[[Trade-Offs]]
  
 
=== Can Modulate ===
 
=== Can Modulate ===
[[Game Worlds]]
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[[Attention Swapping]],
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[[Game Worlds]],
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[[Mediated Gameplay]],
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[[Picture-in-Picture Views]]
  
 
=== Can Be Instantiated By ===
 
=== Can Be Instantiated By ===
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[[Dedicated Game Facilitators]],
 
[[Killcams]]
 
[[Killcams]]
  
 
=== Can Be Modulated By ===
 
=== Can Be Modulated By ===
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[[Point of Interest Indicators]]
  
 
=== Possible Closure Effects ===
 
=== Possible Closure Effects ===

Latest revision as of 08:20, 21 September 2016

Abstract game entities that provide view points of game worlds.

Games with game worlds need to present them in some fashion. Unless given from the perspective of a diegetic character, these views are from specific points in space of the game worlds. Cameras are used to describe the abstract entities that can be said to be located in these points, and the functionality of these can allow the points to move according to game events or player actions.

Examples

Strategy Games such as the Civilization series and the Starcraft series allow the players to move cameras across entire game worlds but the position of the game elements, and in many cases not even the terrain, is typically not revealed. God Games, in contrast, allow players to have a complete view of the area that is being viewed. In real-time games, players may however set the Cameras to follow avatars or units as they move.

The Mario Kart, Super Mario, Tomb Raider, and Uncharted series games all make use of Cameras to provide third-person views during gameplay. Super Mario 64 provides an exception to the rule that Cameras are abstract objects that are not explained within the game world: although not affected by events in the game world, the Camera, and the Lakitu character carrying it, can be seen in mirrors. Another minor exception is the Camera in the party game Monkey Boxing in Super Monkey Ball 2. This Camera can be hit during the celebration scene when one of the monkeys has won the game.

First-Person Shooters do not use Cameras as the main way of presenting gameplay to players, but can do so for spectators; and the Battlefield series and later installments of the Fallout series use Killcams to present third-person views of noteworthy kills.

Using the pattern

Cameras are used in games to create both Third-Person Views and God Views, and which of this should be supported is a fundamental choice for using the pattern. They can also be used in the Third-Person Views possible in First-Person Views through Picture-in-Picture Views. Depending on which is supported, Cameras can be differently good at providing Surprises, Tension, and Detective Structures. Dedicated Game Facilitators are needed in both cases to generate the presentation from positions containing no game entities (although players of Board Games or Miniature Games can partly get the same results simply by positioning themselves). In the following, the pattern assumes that visual presentations will be created but Game Masters can provide Camera functionality through oral descriptions and text-based Adventure Games through textual descriptions.

There are a number of different types of views Cameras can support. Two generic examples are over the shoulder views, which show game entities from above slightly to the side, and overhead views, which provide excellent relations to the surroundings but which offers little information about focused game entities since they look direct down on them. Both these can be modified by either linking the movement of the Camera to the movement of game entities or locking the Camera to a position relative to the environment (in effect choosing between a Third Person View and a God View). Some Camera views are specific to Third-Person Views. Chase-cams follows behind game entities as they move to convey the sense of movement while fly-by views lock Camera positions while tracing the movement of a moving game entity (this view can also be provided by First-Person Views). Killcams, which shows Replays of deaths in games, can make use of either of these two options. Point of Interest Indicators are ways for games to take control of where Cameras are pointed to show players locations in Game Worlds that are important-

Diegetic Aspects

Cameras is an Diegetic Pattern.

Interface Aspects

Cameras is an Interface Pattern. The choices related to Cameras are usually linked to the choice of Focus Loci in a games; those with Avatars mainly use Third-Person Views, while games with God Fingers or Units mainly use God Views. Exceptions are however quite common, especially to temporarily provide a different view to highlight events or make certain activities easier. While designing Cameras, it may be feasible to consider if Vision Modes are to be used in a game or not.

Players can also be given a Freedom of Choice to manipulate Camera in several ways: by modify them the positioning slightly, by being able to switch between different Camera modes, or being able to move the Camera freely with certain distances from the entities followed. Making the decision to allow players to control Cameras require additional decisions to be made concerning what Extra-Game Actions related to Cameras should be provided: commonly panning, rotating, and zooming for God Views and rotating and zooming for Third-Person Views.

Consequences

Cameras provide players with views of Game Worlds, and ones that can be manipulated by players to allow them a Freedom of Choice in what parts of the Game Worlds they want to focus their attention on at the cost of having to perform Extra-Game Actions. By doing so, Cameras offers a way of controlling how Mediated Gameplay occurs in a game.

Game State Overviews are supported by Cameras both when they are used for God Views and Third-Person Views since in both cases players can observe Game Worlds with better views than any specific game element (for Third-Person Views a large part of this can be simply to see the entity tracked). The ease of using Cameras, decides in a great extent how much games help players perform Attention Swapping - if controlling Cameras is non-trivial during gameplay this adds requirements to perform Dexterity-Based Actions during gameplay.

In games with Avatars, Cameras are typically limited in such a way that they are always in the center of players' views (but see the Sims series for an exception). This maintains the symmetry between what Avatars and players sees so that Tension and Surprises can be achieved and also to strengthen Spatial Engrossment. In games with Units, Camera movement is often completely free to allow the players to move between different game elements and to force them to make Trade-Offs between which parts of Game Worlds to focus their attention on.

Cameras have a fundamental conflict with Diegetic Consistency since they are incorporeal entities and present players with views that no diegetic entity currently has and possibly never could have.

Relations

Can Instantiate

Dexterity-Based Actions, Extra-Game Actions, Freedom of Choice, Game State Overviews, God Views, Third-Person Views, Trade-Offs

Can Modulate

Attention Swapping, Game Worlds, Mediated Gameplay, Picture-in-Picture Views

Can Be Instantiated By

Dedicated Game Facilitators, Killcams

Can Be Modulated By

Point of Interest Indicators

Possible Closure Effects

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Potentially Conflicting With

Diegetic Consistency

History

An updated version of the pattern Cameras that was part of the original collection in the book Patterns in Game Design[1].

References

  1. Björk, S. & Holopainen, J. (2004) Patterns in Game Design. Charles River Media. ISBN1-58450-354-8.

Acknowledgements

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