12.2 Experimental game theory and empirical findings
5 min read•july 30, 2024
Experimental game theory bridges the gap between theoretical predictions and real-world behavior. It uses controlled lab experiments to test game-theoretic concepts and uncover systematic deviations from rational self-interest. This approach reveals fascinating insights into human decision-making in strategic situations.
These experiments have uncovered key findings like cooperation in social dilemmas, concerns in bargaining, and limited strategic reasoning. They challenge standard assumptions and inspire new models that incorporate , , and psychological factors to better explain observed behavior.
Principles and methods of experimental game theory
Experimental methods and design
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- Experimental game theory studies human behavior in strategic situations using controlled laboratory experiments to test game-theoretic predictions and identify systematic deviations
- Key principles include inducing valuations through monetary incentives, controlling the information structure, and randomly matching participants to implement one-shot interactions
- The strategy method elicits contingent responses for every possible decision node, enabling the study of counterfactual and off-equilibrium behavior
- Experiments often implement simplified versions of games like the , , , and to isolate specific strategic considerations
Types of experimental designs
- Within-subject designs expose the same participants to multiple treatment variations
- Allows for direct comparisons of behavior across different conditions
- Enables the study of individual-level heterogeneity in responses to game parameters
- Between-subject designs compare behavior across different participant groups
- Each group is exposed to a single treatment condition
- Mitigates potential order effects or spillovers that may arise in within-subject designs
- Statistical analyses test hypotheses about treatment effects, often employing non-parametric tests robust to distributional assumptions
- Examples include Wilcoxon rank-sum tests for between-subject comparisons and Wilcoxon signed-rank tests for within-subject comparisons
Seminal experiments in behavioral game theory
Experiments on social dilemmas and cooperation
- In the Prisoner's Dilemma, a non-negligible fraction of participants cooperate despite defection being the dominant strategy, suggesting other-regarding preferences or bounded rationality
- Public Goods game experiments find positive contributions that decline over time in finitely-repeated play
- Introducing punishment opportunities can sustain cooperation
- Conditional cooperation strategies are common, where individuals contribute more when others are expected to contribute
Experiments on bargaining and fairness
- The Ultimatum game reveals that responders frequently reject low offers, contradicting subgame perfect equilibrium predictions, indicating fairness concerns or negative
- Proposers often make equal splits, anticipating the possibility of rejection
- Cultural differences in rejection rates have been observed, with higher acceptance of unequal offers in some societies
- Trust game studies show that many players exhibit trust and trustworthiness, with the degree varying based on the social context and framing of the interaction
- Higher trust and trustworthiness are observed in repeated interactions or when reputation is at stake
- Communication and face-to-face interactions can enhance trust
Experiments on market entry and auctions
- Market entry experiments find excess entry relative to , especially with a small number of potential entrants, consistent with overconfidence bias
- Providing feedback and experience can reduce excess entry over time
- Introducing market selection can drive behavior closer to equilibrium predictions
- Experiments on common-value auctions document the winner's curse, where bidders systematically overbid and earn negative profits, suggesting a failure to account for adverse selection
- The severity of overbidding is reduced with experience or when bidders receive additional information about the value of the object
Experiments on strategic reasoning and learning
- Centipede game experiments show that players often fail to backward induct, continuing to play even in the final rounds, implying limited strategic reasoning
- Increasing the number of rounds or the stakes can lead to more unraveling
- Introducing intermediate payoffs or incomplete information can sustain cooperation
- Experiments on learning in games find that players adjust their strategies over time based on feedback and experience
- Simple reinforcement learning models capture some aspects of observed behavior
- Belief learning models, where players form beliefs about others' strategies and best respond, provide a better fit in some cases
Standard vs. empirical game theory
Assumptions of standard game theory
- Nash equilibrium assumes rational self-interested agents with perfect information
- Experimental evidence suggests that human players have bounded rationality and social preferences
- Deviations from Nash predictions are common, particularly in one-shot or finitely repeated games
- Subgame perfect equilibrium requires credible threats at every decision node
- Experiments reveal that incredible threats are sometimes carried out due to emotional reactions or fairness concerns
- Forward induction reasoning is not always applied, as players may not perceive the full strategic implications of past actions
- Mixed strategy equilibrium predicts serially uncorrelated choices that are best responses to the opponent's equilibrium mixtures
- Empirical studies find excessive switching and payoff-dependent mixtures
- Players often exhibit a "gambler's fallacy" or hot hand beliefs, expecting positive or negative autocorrelation in random sequences
Empirical regularities and extensions
- Evolutionary game theory models the dynamics of strategy adoption in populations
- Experimental tests identify the importance of noise, mutations, and the speed of the replicator dynamics
- Behavioral strategies like tit-for-tat or win-stay-lose-shift can emerge and sustain cooperation in repeated interactions
- Standard theories abstract from the framing of the strategic interaction
- Experiments manipulating framing find substantial effects on behavior, holding the game structure constant
- Presenting a Prisoner's Dilemma as a "Community Game" rather than a "Wall Street Game" can increase cooperation rates
- Psychological game theory incorporates belief-dependent preferences like reciprocity, guilt, and surprise
- Empirical evidence supports the relevance of these motivations in shaping behavior
- Models of inequity aversion, where players dislike unequal payoff distributions, can explain deviations from standard predictions
Strengths and limitations of experimental approaches
Advantages of experimental methods
- Experiments allow for the controlled testing of game-theoretic predictions by manipulating specific variables of interest while holding other factors constant, strengthening internal validity
- The use of randomization and treatment-control comparisons enables causal inference about the effects of game parameters on behavior
- Experimental designs can implement novel institutional arrangements that are difficult to study using naturally-occurring data, expanding the range of empirical investigations
- Inducing valuations through monetary payments aligns incentives and encourages participants to make considered decisions, enhancing the reliability of the data
Limitations and methodological challenges
- Experiments face challenges in terms of external validity due to the abstract, simplified settings and the use of convenience samples like university students
- The generalizability of findings to real-world contexts should be carefully considered
- Field experiments or natural experiments can provide complementary evidence in more realistic settings
- The strategy method may elicit different behavior compared to "hot" decision-making in direct-response designs
- The interpretation of results should consider these elicitation effects
- Comparing outcomes under different elicitation methods can shed light on the robustness of the findings
- Experimenter demand effects can arise if participants infer the research hypotheses and modify their behavior
- Careful experimental instructions and protocols aim to mitigate these concerns
- Using neutral framing, double-blind procedures, or deception can help reduce demand effects
- The exclusive focus on behavioral outcomes limits insights into the underlying decision processes
- Combining experiments with other methods like surveys, eye-tracking, or neuroeconomics can provide a more complete understanding
- Eliciting beliefs, emotions, or strategic reasoning can shed light on the mechanisms driving behavior
Key Terms to Review (17)
Bounded rationality: Bounded rationality refers to the idea that individuals, when making decisions, are limited by their cognitive abilities, available information, and time constraints. This concept highlights that humans often rely on simplifying strategies or heuristics rather than fully rational approaches, leading to decisions that may not always align with traditional economic models of rational choice.
Control Group: A control group is a baseline group in an experiment that does not receive the treatment or intervention being tested, allowing researchers to compare the outcomes with those who do. It serves as a point of reference to determine the effects of the treatment on the experimental group, helping to isolate the impact of the independent variable on the dependent variable.
Cooperative strategy: A cooperative strategy is a game-theoretic approach where players work together to achieve mutually beneficial outcomes, often involving agreements or alliances. This strategy is essential in situations where collaboration can lead to better results than individual actions, highlighting the significance of trust and communication among participants.
Defective strategy: A defective strategy is a decision-making approach in game theory where a player chooses an action that is not cooperative or optimal, often leading to suboptimal outcomes for all participants. This strategy contrasts with cooperative strategies, where players work together for mutual benefit. In experimental game theory, understanding defective strategies helps reveal the tendencies of individuals in strategic situations and the factors that influence their choices.
Expected Utility: Expected utility is a concept used to quantify the preferences of an individual or decision-maker when faced with uncertain outcomes. It combines the probability of different outcomes occurring with the utility or satisfaction derived from those outcomes, allowing individuals to make rational decisions under uncertainty. This idea connects deeply with how strategies are evaluated and chosen, especially when considering risk and preferences in competitive environments.
Fairness: Fairness refers to the equitable treatment of individuals in decision-making processes and outcomes, ensuring that no one is given preferential treatment over others. In game theory, fairness is often considered in the context of how resources, payoffs, or benefits are distributed among players, influencing their strategies and interactions within experimental setups.
Market behavior: Market behavior refers to the way in which participants in a market make decisions and interact with one another, particularly under conditions of uncertainty and competition. It encompasses the patterns of actions and reactions among buyers and sellers, influenced by various factors such as preferences, strategies, and available information. Understanding market behavior is crucial for analyzing economic outcomes and helps explain why individuals or groups might deviate from traditional rationality in their decision-making processes.
Nash equilibrium: Nash equilibrium is a concept in game theory where no player can benefit from changing their strategy while the other players keep theirs unchanged. This situation arises when each player's strategy is optimal given the strategies of all other players, leading to a stable state in strategic interactions.
Negotiation: Negotiation is a process in which two or more parties communicate and make decisions to reach a mutually beneficial agreement. It involves strategic interaction, where each party aims to maximize their own outcomes while considering the interests and goals of others. Understanding how negotiation works is crucial in experimental game theory, as it sheds light on human behavior in strategic settings, revealing how individuals collaborate, compete, and resolve conflicts in various scenarios.
Prisoner's Dilemma: The prisoner's dilemma is a standard example in game theory that illustrates a situation where two individuals must choose between cooperation and betrayal, leading to outcomes that are suboptimal for both. It showcases how rational decision-making can lead to a worse collective outcome when individuals act in their self-interest rather than cooperating.
Public Goods Game: The public goods game is a standard in experimental economics and game theory that models the conflict between individual interests and the common good. In this game, participants decide how much of their private resources to contribute to a shared pool that benefits all players, emphasizing issues like cooperation, altruism, and free-riding. This scenario captures key elements of strategic decision-making, as players must consider both their personal payoffs and the collective benefits of cooperation, making it a valuable tool for analyzing rational choice behavior.
Reciprocity: Reciprocity refers to a social norm or principle in which individuals respond to each other in a mutual way, often by returning favors or actions. This concept is crucial for building trust and cooperation among individuals, especially in strategic interactions where the behavior of one participant influences the decisions of others. Understanding reciprocity helps explain how cooperation can emerge and be sustained in various situations, as it fosters an environment where parties are motivated to maintain positive interactions based on past behaviors.
Risk Aversion: Risk aversion is the preference for a sure outcome over a gamble with higher or equal expected value. This concept is crucial in understanding how individuals make choices under uncertainty and impacts various decision-making processes, especially when faced with potential losses. Recognizing that risk-averse individuals prefer safer options can help explain their behaviors in economic settings, as well as in game theory and experimental studies.
Social preferences: Social preferences refer to the ways in which individuals' utility is influenced not only by their own outcomes but also by the outcomes of others. This concept acknowledges that people often care about fairness, altruism, and cooperation, which can significantly affect decision-making and strategic interactions in various settings. Understanding social preferences is crucial for analyzing behavior in experiments and how individuals learn and adapt their strategies based on social interactions.
Treatment effect: The treatment effect refers to the causal impact of a specific intervention or treatment on participants in an experiment. In the context of experimental game theory, it helps researchers analyze how different conditions affect decision-making and behaviors, ultimately leading to insights about strategic interactions and outcomes in games.
Trust Game: The trust game is an experimental game in which one player, the trustor, must decide how much of their resources to send to another player, the trustee, who then decides how much to return. This setup examines the dynamics of trust and reciprocity in economic interactions, highlighting how trust can influence decision-making and outcomes in strategic situations. It also serves as a critical tool for understanding social and economic behavior through experimental findings and data collection methods.
Ultimatum game: The ultimatum game is a strategic interaction in which one player, the proposer, offers a division of a resource (like money) to another player, the responder, who can either accept or reject the offer. If the responder accepts, the resource is divided according to the proposal, but if they reject it, neither player receives anything. This game highlights important concepts like fairness, negotiation, and decision-making under uncertainty.