PRMR (Pi Recursive Model of Reality): A Computational Framework for Recursive System Evolution

This paper introduces the Pi Recursive Model of Reality (PRMR), a computational framework designed to model the evolution of structured systems through recursive state transitions. The model represents systems as sequences of states that undergo cycles of fragmentation, interaction, and reorganisation, while preserving underlying informational continuity. A formal framework is developed and implemented as a discrete-time simulation, allowing observation of system behaviour across recursive cycles. Results demonstrate the emergence of structured complexity, hierarchical organisation, and sustained non-linear evolution under repeated application of the recursive operator. The framework is evaluated across abstract, physically interpreted, and speculative cognitive domains, showing consistent structural behaviour despite differences in interpretation. PRMR is not presented as a complete physical theory yet, but as a structural and computational framework that may offer insight into recursive processes in complex systems. Limitations and future directions are discussed, including the need for formalisation, empirical validation, and theoretical refinement.