Repeated Games and Population Structure

From Evolution and Games

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== Run the simulations ==
== Run the simulations ==
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You can download the software [http://staff.feweb.vu.nl/j.garcia/software/RepeatedGamesAndStructureOnline.jar here]. Once the program is running just click on the big ''play'' button to start the fun. Feel free to re-arrange and re-size the windows, zoom-in and out as the program is running. Click [[Repeated Games and Population Structure Simulation | here]] if you need more information about running this program.
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You can download the software [http://web.evolbio.mpg.de/~garcia/jars/RepeatedGamesAndStructureOnline.jar here]. Once the program is running just click on the big ''play'' button to start the fun. Feel free to re-arrange and re-size the windows, zoom-in and out as the program is running. Click [[Repeated Games and Population Structure Simulation | here]] if you need more information about running this program.
== Lifecycle ==
== Lifecycle ==

Current revision as of 19:30, 18 January 2013


Contents

The paper is out in PNAS!

Matthijs van Veelen*, Julián García*, David G Rand and Martin A Nowak. Direct reciprocity in structured populations (2012) PNAS 109 9929-9934. Go to the paper on PNAS or Download a copy in PDF format here.

Run the simulations

You can download the software here. Once the program is running just click on the big play button to start the fun. Feel free to re-arrange and re-size the windows, zoom-in and out as the program is running. Click here if you need more information about running this program.

Lifecycle

The following figure represents the lifecycle in the computer program.

  • In step one we start with an even-sized population of finite state automata (initial population is made out of ALLD strategies).
  • In step two individuals are matched in pairs to play the game - your are matched with your rightmost neighbor. The repeated game is played between each pair of matched players (one PD game is played for sure and from then on the game is repeated with probability δ).
  • In step three reproduction takes place, a payoff proportional distribution is constructed. To fill up the population in the next generation we proceed in the following manner: the individuals in even positions (we start counting at 0) are determined by sampling from the probability distribution; for odd positions, with probability r a copy of the parent of your left neighbor is created, and with probability 1 − r an individual is sampled from the payoff proportional distribution (this takes care of assortment).
  • Finally, in step four, every individual can mutate with a given probability. From then we go back to matching, and so on.
Lifecycle

Strategies in the computer

Representation

Strategies are programmed explicitly as finite state automata(the program also has options for regular expressions, or Turing machines - see information onRepeated Games for more details about these additional representations).

A finite automaton is a list of states, and for every state it prescribes what the automaton plays when in that state, to which state it goes if the opponent plays cooperate, and to which state it goes if the opponent plays defect.

Example Finite State Automata (Grim Trigger)

The computer representation of the automate above is an array with the following values:

[C, 0, 1 | D, 1, 1]

Each array position represents a state. Every state codes for an action and two indexes, where to go on cooperation, and where to go on defection. The first state (indexed 0) codes the action for the empty game history.

Some example (well-known) strategies and their computer code are as follows:

Note that there is no limit on the size of these arrays that can grow and shrink dynamically as mutations produce new strategies.

Mutation

Possible mutations are adding (randomly constructed) states , deleting states (if the array has more than one state), and reassigning destination states at random. On deleting a state the transitions are rewired to the remaining states. The following video shows an example path of mutations:

Results

Please check our paper on the PNAS website or Download a PDF preprint here.