The Principle of Infinite Games

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Revision as of 23:07, 1 December 2023 by Navis (talk | contribs) (Created page with "== Thought == Imagining the potential crossover between the concepts of infinite games and artificial intelligence. == Note == AI and infinite games: perpetual learning and adaptation. == Analysis == An infinite game, as posited by James P. Carse, is a game with no definitive endpoint; the purpose is not to win, but to continue playing. If we saw artificial intelligence not just as a tool but as a player in an infinite game, it suggests a paradigm where AI is engaged i...")
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Thought

Imagining the potential crossover between the concepts of infinite games and artificial intelligence.

Note

AI and infinite games: perpetual learning and adaptation.

Analysis

An infinite game, as posited by James P. Carse, is a game with no definitive endpoint; the purpose is not to win, but to continue playing. If we saw artificial intelligence not just as a tool but as a player in an infinite game, it suggests a paradigm where AI is engaged in continuous learning and interaction with its environment. This notion aligns closely with the Principle of the Process in my personal manifesto, emphasizing that everything is a learning process.

This thought also touches on the "Society of Mind" concept by Marvin Minsky, where the mind itself is seen as a collection of agents working in concert. If we consider AI as such a society within the even larger arena of global human and machine interaction, it mirrors the infinite game notion.

The reflection on this idea implies a shift in how we design and implement AI systems. We would prioritize adaptability, open-ended learning, and interaction over task-specific optimization. This approach could result in AI that's better integrated into the fabric of human endeavors, aiding our evolution as participants in our own infinite games—societal, economical, and existential.

Books

  • "Finite and Infinite Games" by James P. Carse
  • "Society of Mind" by Marvin Minsky

Papers

  • "Reward is enough" by David Silver, Satinder Singh, Doina Precup, Richard S. Sutton

Tools

  • Reinforcement learning frameworks like OpenAI Gym
  • Deep learning libraries that support continual learning, such as TensorFlow or PyTorch

Existing Products

  • Adaptive recommendation systems
  • Self-learning robots in manufacturing

Implications

Considering AI as a participant in infinite games has far-reaching implications: - It suggests an educational system for machines that mirrors lifelong learning for humans. - Ethically, it raises questions about the objectives we set for AI, as it implies an intrinsic value in AI self-improvement and -preservation. - It could inspire the development of AI that's inherently flexible, less prone to obsolescence, and thus more sustainable.

Assumptions

The initial thought assumes that: - AI can partake in infinite games in a manner similar to humans. - The current trajectory of AI development would be amenable to this paradigm shift. - There is a framework to define what "playing" means for AI beyond pure utilitarian functions.

Mental Models

This line of thinking relies on mental models such as: - The learning organization, where entities constantly evolve and adapt without a definitive end state. - Systems thinking, which views AI as part of a larger interconnected web, where every action affects the system as a whole.

Arthur Koestler's Bisociation

The concept of bisociation -- creating something new by connecting two previously unrelated ideas -- is at play here. Artificial intelligence development (traditionally a technical field) is intersecting with the concept of infinite games (usually a philosophical or strategic field). This crossover can generate novel insights into how we build and integrate AI systems in our lives.