Real Life Activities Affect Game State

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Gameplay where real world activities provide input to the game state.

Activities performed in game are typically activities done specifically to affect the games. However, some games do take the activities done for other purposes and use them as input for changing the game state and those that do so have the pattern Real Life Activities Affect Game State.

Examples

The energy usage in a household is the primary input to the game Power Explorer, indirectly causing the players' everyday behavior affect the game through how much electrical energy their activities use.

Zombies, Run! takes the physical exercise players do when jogging as input, letting players be able to gather resources to be used in the zombie apocalypse the game takes place in.

While Conspiracy for Good makes charity work and donations part of its gameplay, it is a weak example of Real Life Activities Affect Game State since it only does so at specific points in the game and is design to start making people be more charitable rather than make use of the charity work the players already do.

Anti-Examples

The Rock Band series and Wii games such as Wii Sports are not examples of Real Life Activities Affect Game State even if they may cause players to become excited and exhausted. This since the activities performed are caricatures of certain real world activities rather than examples of the actual real world activities.

Using the pattern

Implementing Real Life Activities Affect Game State consists of deciding which real world activities to use and how to measure or translate the activities to game state changes. While Game Masters or Umpires can let the input to the game state be qualitative and can change the mapping on the fly, technology-based systems can let games do their real world activities with a greater sense of privacy. Player-Location Proximity, Player-Player Proximity and other similar patterns do not directly make Real Life Activities Affect Game State part of the gameplay of a game, but patterns related to it such as Physical Navigation and Player Physical Prowess can when they are consequences of real world activities.

Real Life Activities Affect Game State can typically be created through Extra-Game Input together with Pervasive Gameplay.

Interface Aspects

Using Real Life Activities Affect Game State typically require the use of some sensing technology or Dedicated Game Facilitators to observe the activities since requiring players to do this disrupts the activities (and fake input can be given).

Consequences

Real Life Activities Affect Game State is a form of Extra-Game Input, and one which makes Pervasive and Ubiquitous Gameplay possible. Since Real Life Activities Affect Game State rewards those good at certain real world activities, knowledge of how to do those activities is beneficial for gameplay. This also leads to games having this pattern to be likely to have the pattern Real World Knowledge Advantages. However, doing the activities with another purpose added may make players consider the activities in new ways, so the pattern can also give rise to Changes in Perception of Real World Phenomena due to Gameplay.

Real Life Activities Affect Game State is difficult to combine with Mimetic Interfaces since one pattern deals with making real world activities into gameplay actions while the other makes mimicking real world activities into gameplay actions.

Relations

Can Instantiate

Changes in Perception of Real World Phenomena due to Gameplay, Extra-Game Input, Pervasive Gameplay, Real World Knowledge Advantages, Ubiquitous Gameplay

Can Modulate

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Can Be Instantiated By

Game Masters, Physical Navigation, Player Physical Prowess, Umpires

Extra-Game Input together with Pervasive Gameplay

Can Be Modulated By

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Possible Closure Effects

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Potentially Conflicting With

Mimetic Interfaces

History

Updated version of the pattern Real Life Activities Affect Game State first described in the report Game Design Patterns for Mobile Games[1].

References

  1. Davidsson, O., Peitz, J. & Björk, S. (2004). Game Design Patterns for Mobile Games. Project report to Nokia Research Center, Finland.

Acknowledgements

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