Understanding Sequential Games in Game Theory

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Explore the concept of sequential games in game theory through an entry deterrence game involving an incumbent monopolist and a potential entrant. The game tree depicts various outcomes based on choices made by players, leading to discussions on Nash Equilibrium, credible commitments, and backward induction logic. Delve into the dynamics of decision-making in strategic interactions within the framework of game theory.


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  1. Introduction to Game Theory For Ansal University PGT students, September 2019 Abhinay Muthoo University of Warwick Slides #2: Sequential Games and Applications

  2. Sequential Games Players make choices sequentially - so they decide which action to take after observing the choices made by others. Most real-life games are ones in which players move sequentially but also at various points in time choose actions simultaneously. The difficulty of making credible commitments regarding one s future action is a central issue/problem that players face. 10/10/2024 Abhinay Muthoo, University of Warwick 2

  3. . Entry Deterrence Game Two Players: Incumbent Monopolist (M) and a Potential Entrant (E) E has to first decide between staying out of M s market or to enter and compete with M. If E stay outs, game ends, and E earns a profit of 3 and M continues to enjoy monopoly profits of 10. [Units can be millions of pounds] But if E enters, then M has to act and decide between fighting entry or to acquiesce and share the market. In the former case, the profits to E and M are respectively, 1 and 2. In the latter case, when they share the market equally, each gets the same profit of 5. 10/10/2024 Abhinay Muthoo, University of Warwick 3

  4. . Entry Deterrence Game: The game tree [S.O. = stay out.] S.O.Enter E (3, 10) Fight Acquiesce M (1, 2) (5, 5) 10/10/2024 Abhinay Muthoo, University of Warwick 4

  5. . Entry Deterrence Game: A Nash Equilibrium [S.O. = stay out.] S.O.Enter E (3, 10) Fight Acquiesce M (1, 2) (5, 5) 10/10/2024 Abhinay Muthoo, University of Warwick 5

  6. . Entry Deterrence Game: This Nash Equilibrium is not plausible - it is based on M making a non-credible threat, and for E to believe it. [S.O. = stay out.] S.O.Enter E M (3, 10) Fight Acquiesce (1, 2) (5, 5) 10/10/2024 Abhinay Muthoo, University of Warwick 6

  7. . Entry Deterrence Game: A plausible Nash Equilibrium premised on credible future behaviour. [S.O. = stay out.] S.O.Enter E (3, 10) Fight Acquiesce M (1, 2) (5, 5) 10/10/2024 Abhinay Muthoo, University of Warwick 7

  8. . Entry Deterrence Game Backward Induction Logic: Look Forward and Reason Backward E S.O.Enter (3, 10) Fight Acquiesce M (1, 2) (5, 5) 10/10/2024 Abhinay Muthoo, University of Warwick 8

  9. . Backward Induction Logic Ensures that future actions are credible Ex-post Optimality versus Ex-Ante Optimality Credibility or otherwise is central notion. A plausible Nash Equilibrium is called a Subgame Perfect Equilibrium. 10/10/2024 Abhinay Muthoo, University of Warwick 9

  10. . Ultimatum Game Take-it-or-leave-it Offer A simple (negotiation/bargaining) game over the division of some surplus . Two players, Adam and Eve. Eve the proposer - makes an offer to Adam on how to divide 100. Adam - the responder then decides either to accept the offer or to reject it. Payoffs: If Adam rejects the offer, then each of them gets nothing ( 0). But if Adam accepts the offer, then a deal is reached, and they respectively get what was offered and accepted. 10/10/2024 Abhinay Muthoo, University of Warwick 10

  11. . Ultimatum Game The Solution Many Nash Equilibria such as: Eve offers 40 to Adam, keeping 60 for herself; and Adam s strategy is to reject offers that give him less that 40 - and Eve believes that to be the case. But such a Nash equilibrium is not plausible - it is premised on an empty threat by Adam. It is not Credible. It is not ex-post optimal. Adam would be willing, ex-post, to accept offers less than 40 than get nothing. Applying Backward Induction logic, it is clear there is a unique sensible solution: Adam s (ex-post optimal) strategy is to accept (almost) any offer, and thus, Eve anticipating that - offers Adam a tiny amount (say 5) and keeps the lion s share ( 95) for herself. 10/10/2024 Abhinay Muthoo, University of Warwick 11

  12. . Repeated Games Main Ideas Repeated Interaction. Main aim: Explore when and if players can cooperate for mutually benefit across time - intertemporal cooperation. Central Idea: Carrots and Sticks - Attempt to cooperate (the carrot ) with deviations (cheating) by others from that met with punishment (the stick ). Dealing with the problem of short-run temptation to cheat. Key Trade-off: Benefit from cheating today versus costs from doing so, which come from the loss of the benefits from future cooperation. 10/10/2024 Abhinay Muthoo, University of Warwick 12

  13. . Repeated Games - An Example Repeated Prisoners Dilemma (PD) game - two players play the PD game repeatedly. Key Feature: Each time they play the PD game, they know the history of past plays (except the first time they play as there is no history). Objective for each player: To maximise the present discounted value of their payoffs. Let each player discount future payoffs at some rate, which we denote by , which is a number between 0 and 1. So 1 secured tomorrow is worth today which is less than 1. The more a player cares about future payoffs the higher is the value of . 10/10/2024 Abhinay Muthoo, University of Warwick 13

  14. . Prisoners Dilemma C = Cooperate D= Don t Cooperate Bob: C D 5, 5 0, 8 C Alice: D 8, 0 1, 1 10/10/2024 Abhinay Muthoo, University of Warwick 14

  15. . Repeated PD Sustaining Cooperation The Grim-Trigger Strategy Eve adopts the grim-trigger strategy: First time they play the PD game, she chooses C (to cooperate). Thereafter, she plays as follows: Play C if both players (Adam and she) played C throughout the past. Otherwise, play D. Adam also adopts the same grim-trigger strategy. Note therefore that the outcome each time they play will be that both of them will cooperate, choose C, and thus each obtains a payoff of 5 each time they play. 10/10/2024 Abhinay Muthoo, University of Warwick 15

  16. . Repeated PD Sustaining Cooperation Costs and Benefits of Cheating. Benefit from cheating today the temptation: Getting an 8 rather than a 5. Hence the short-run benefit from cheating is: 8 - 5 = 3. Cost from cheating today are the losses from tomorrow onwards of benefits from cooperation. Hence the long-run cost from cheating is: loss of 5 - 1 = 4 each period from tomorrow onwards. The present discounted value of these losses are: 4 + 4 2 + 4 3 + 4 4 + 4 5+ .. = ? ? Notice that when = 0, these losses are also zero. Indeed, when is small, these losses will be small and close to zero - and so well below 3, which is the temptation from cheating. 10/10/2024 Abhinay Muthoo, University of Warwick 16

  17. . Repeated PD Sustaining Cooperation Incentive-Compatibility Condition for Not Cheating: The Future needs to matter sufficiently Each player will not cheat provided the benefit from cheating is less than or equal to the cost from cheating. That is the following holds: 3 ?? ? ? This will not hold if the discount factor is sufficiently small. This means that when a player does not care much about future payoffs then s/he will cheat and thus cooperation will not be sustained. But if the discount factor is sufficiently large, them the above inequality will hold. This means that when both players care sufficiently about their respective future payoffs, then neither of them has as an incentive to cheat and thus cooperation is sustained. 10/10/2024 Abhinay Muthoo, University of Warwick 17

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