Succinct Game: A Journey Through the Evolution and Potential of Cardano Blockchain Technology

Chapters Brief Overview:

1: Succinct game: A foundational exploration of succinct games and their relevance to blockchain platforms.

2: Fisher market: Delve into Fisher markets and how they model exchange economies, aiding in understanding decentralized economies.

3: PPAD (complexity): Uncover the computational complexity of PPAD problems and their connection to blockchain consensus mechanisms.

4: Graphical game theory: Learn how graphical game theory applies to networked systems like blockchain platforms.

5: Symmetric game: Explore symmetric games and their importance in developing fair blockchain protocols.

6: PLS (complexity): Study PLScompleteness and its implications for the scalability of blockchain networks.

7: Price of anarchy: Examine the concept of the price of anarchy and its influence on blockchain's efficiency and fairness.

8: Congestion game: Understand congestion games and their direct applications in optimizing blockchain systems.

9: Price of anarchy in congestion games: Deep dive into the price of anarchy specifically within congestion games, relevant to blockchain scalability.

10: Continuous game: Discover continuous games and how they relate to continuous, nondiscrete blockchain operations.

11: Approximate Competitive Equilibrium from Equal Incomes: Analyze how competitive equilibria influence blockchain's economic outcomes.

12: Epsilonequilibrium: Study epsilonequilibria and their role in decentralized networks and blockchain optimization.

13: Folk theorem (game theory): Dive into the Folk theorem and its importance for understanding sustained cooperation in blockchainbased systems.

14: Market equilibrium computation: Learn the computation methods behind market equilibrium, critical for decentralized finance on blockchain platforms.

15: Correlated equilibrium: Explore correlated equilibria and their applications in smart contract coordination.

16: Strong Nash equilibrium: Study strong Nash equilibria and their significance in ensuring stability in decentralized networks.

17: Lemke–Howson algorithm: Learn about the LemkeHowson algorithm and its application in finding equilibria in blockchain games.

18: Algorithmic game theory: Discover how algorithmic game theory optimizes strategic interactions within blockchain networks.

19: Kuhn poker: Investigate Kuhn poker and its connection to blockchain's decisionmaking processes.

20: Price of anarchy in auctions: Understand the price of anarchy in auctions and its relevance to token distributions on blockchain platforms.

21: Nash equilibrium: Gain a comprehensive understanding of Nash equilibrium and its application to blockchain’s decentralized decisionmaking.

This book is a mustread for anyone interested in the strategic mechanics of blockchain, offering indepth insights into game theory, complexity, and economic models that define modern decentralized systems. Whether you're a professional, student, or enthusiast, this book provides a crucial framework for understanding the intersection of blockchain technology and game theory.