1 / 14

Social Behavior & Game Theory

Social Behavior & Game Theory. Social Behavior: Define by Economic Interaction Individuals Affect Each Other’s Fitness, Predict by Modeling Fitness Currency Interactions Competitive Game Theory, ESS. Social Behavior & Game Theory. Example: Hawk-Dove Game

amandla
Télécharger la présentation

Social Behavior & Game Theory

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Social Behavior & Game Theory Social Behavior: Define by Economic Interaction Individuals Affect Each Other’s Fitness, Predict by Modeling Fitness Currency Interactions Competitive Game Theory, ESS

  2. Social Behavior & Game Theory Example: Hawk-Dove Game Evolution of Diversity in Aggressive Behavior Common Strategy, Rare Mutant (Invade?) Pure ESS, Mixed ESS

  3. Social Behavior & Game Theory Suppose 2 Randomly Selected Individuals Encounter a Resource Item Resource Benefits Survival or Reproduction Potential Mate, Food, … How Will They Interact?

  4. Hawk-Dove Game Hawk: Always Fights for Resource Chance for Benefit May Lose, May Be Injured Cost of Aggression

  5. Hawk-Dove Game Dove: Never Fights for Resource Withdraws from Hawk Divides Resource with Dove No (Cost of) Aggression

  6. Hawk-Dove Game Among-Species Diversity in Aggression Within-Species Diversity in Aggression Why? Functional Significance When is Aggression Adaptive?

  7. Hawk-Dove Game Basic Model: Action Set = {Hawk, Dove} Payoffs: Benefit of resource > 0, Cost of aggression > 0 “Alleles” H, D p = Freq(H), 1- p = Freq(D)

  8. Hawk-Dove Game

  9. Hawk-Dove Game Suppose Hawk Common: Evolutionarily Stable? E(H, H) > E(D,H)  ESS p* = 1 E(H, H) > E(D,H)  (B/2) – C > 0 Cost Aggression < Benefit/2, Pure Hawk is ESS

  10. Hawk-Dove Game Suppose Dove Common: Evolutionarily Stable? E(D,D) > E(H,D)  ESS p* = 0 E(D,D) > E(H,D)  (B/2) > B Impossible Pure Dove, p* = 0, Never ESS

  11. Hawk-Dove Game Suppose C > B/2 E(H,H) < E(D,H) and Dove invades Hawk Know B > B/2 so Hawk Invades Dove Mixed ESS, 0 < p* < 1 ESS: Nash Solution with Equal Payoffs

  12. Hawk-Dove: Frequency-Dependence Payoff to H = p E(H,H) + (1 - p) E(H,D) p[(B/2) – C] + (1 – p) B Payoff to D = p E(D,H) + (1 – p) E(D,D) p(0) + (1 – p) B/2

  13. Hawk-Dove Mixed ESS p[(B/2) – C] + (1 – p) B = p(0) + (1 – p) B/2 p B + B/2 – p (B + C) = 0 p* = B/2C when C > B/2

  14. Mixed ESS Behavioral Diversity: 2 Variants 1. Between-Phenotype Variation p* Hawks, (1 – p*) Doves 2. Within-Phenotype Variation Each Individual Has Same Mixed Strategy Play H with Probability = p*

More Related