• Comment: See Your first article. S0091 (talk) 17:49, 5 May 2025 (UTC)

Recursive Realism is a philosophical framework that suggests the universe and reality itself are fundamentally self-referential and recursive, meaning they are structured and evolve through nested, interconnected systems that loop back on themselves. It emphasizes dynamic, adaptive processes rather than rigid, binary distinctions, suggesting that reality is constantly being constructed and reconstructed through these recursive loops.

Self-Referentiality: The core idea is that the universe, existence, and the void are intrinsically self-referential, meaning they can reference and interact with themselves.

Dynamic and Adaptive: Unlike static models of reality, Recursive Realism views the universe as a constantly evolving system where perception and understanding are also fluid and adaptable.

Beyond Binary Extremes: It challenges the tendency to view reality through rigid, binary oppositions (like good vs. evil, nature vs. nurture) and instead emphasizes the complexity and interconnectedness of phenomena.

Recursive Processes: Recursive Realism suggests that many aspects of reality, including intelligence, knowledge, and even the universe itself, are built upon recursive processes where something loops back on itself, creating a self-sustaining system.

Restoring Life to Systems: The framework aims to restore a sense of dynamism and interconnectedness to our understanding of reality, moving beyond purely static or mechanistic views.

Influence of Various Disciplines: Recursive Realism draws insights from fields like neuroscience, cognitive science, and evolutionary theory, recognizing the interconnectedness of the brain, society, and the cosmos.

Examples in Action: In essence, Recursive Realism offers a way to think about the universe and reality as a dynamic, self-referential, and interconnected system, where perception and understanding are also subject to these recursive processes.

• Britto, R., Cachazo, F., & Feng, B. (2005). New recursion relations for tree amplitudes of gluons. Nuclear Physics B, 715(1–2), 499–522. https://doi.org/10.1016/j.nuclphysb.2005.02.030
• Odifreddi, P. (1999). Classical recursion theory. In Studies in logic and the foundations of mathematics. https://doi.org/10.1016/s0049-237x(99)x8037-2
• Fuchs, C. (2009). Towards a critical theory of information. tripleC Communication Capitalism & Critique Open Access Journal for a Global Sustainable Information Society, 7(2), 243–292. https://doi.org/10.31269/triplec.v7i2.91
• Nourse, V., & Shaffer, G. (2009). Varieties of new legal realism: Can a new world order prompt a new legal theory? SSRN Electronic Journal. https://papers.ssrn.com/sol3/Delivery.cfm/SSRN_ID1511964_code87814.pdf?abstractid=1405437&mirid=1
• Shumailov, I., Shumaylov, Z., Zhao, Y., Papernot, N., Anderson, R., & Gal, Y. (2024). AI models collapse when trained on recursively generated data. Nature, 631(8022), 755–759. https://doi.org/10.1038/s41586-024-07566-y