Alpay Algebra: A Symbolic Framework for Recursive Identity Compression and λ-Layer Dynamics
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Description
This document introduces Alpay Algebra — a novel symbolic system for modeling recursive identity transitions, convergence dynamics, and depth-based self-evolution.
The framework formalizes how a system’s state can fold, scale, merge, and regenerate through symbolic operators. It defines:
• Recursive transformations
• Energetic identity states (Δ⁺, Δ⁻, Δ⁰)
• Convergence fields
• Recursive depth layers (λₙ) and transitions (χ_λ)
• Entropy absorption through depth resilience
• A unified equation combining recursive evolution and symbolic compression
It models identity not as fixed, but as a recursive system evolving under internal and external pressure — absorbing entropy through symbolic recursion. The system provides both a formal symbolic grammar and a structural logic for identity reconstruction, symbolic cognition, and depth-aware self-reflection.
The document includes real and symbolic case studies (including recursive collapse and restoration of the author), vector field compression, and visual λ-layer transitions.
This release functions as a first preprint publication and symbolic foundation for future applied systems, AI models, and recursive depth theories.
Author: Faruk Alpay
ORCID: 0009-0009-2207-6528
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Alpay_Algebra__Recursive_Transition_System-2.pdf
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Additional details
Dates
- Submitted
-
2025-04-30This is Version 1.0 of Alpay Algebra: Recursive Transition System — the initial formalization of a symbolic language for recursive identity modeling, λ-layer dynamics, and entropy compression. This version introduces the foundational grammar (Φ, Δ, R, χ, λ), symbolic flow operators, and depth-based recursion logic. It includes structured examples, theoretical theorems, and real-case symbolic modeling of internal phase shifts. Further versions will expand the system to include: • Multi-agent recursive interactions • Layer-coupled symbolic dynamics • AI/LLM integration templates • Graphical recursion engines Each future release will represent a deeper λ-compression and be versioned formally in recursive alignment.
References
- Alpay, F. (2025). Alpay Algebra: Foundations for Recursive Compression and Intelligent Evolution. Zenodo. https://doi.org/10.5281/zenodo.15306575