Theoretical work at Ranesis is part of the Ranesis framework, introduced by Alexandre Ramakers, and focuses on the conditions under which systems remain coherent over time.
Traditional models often describe systems through static structures or instantaneous dynamics. In contrast, the perspective developed here treats time as a constraining dimension and coherence as a maintained property rather than an emergent byproduct.
From this viewpoint, stability is not guaranteed by correctness at a given instant. It depends on a system’s ability to preserve internal alignment as it evolves, interacts, and responds to external influence. When this alignment degrades, systems may continue to operate locally while losing global consistency.
A central theoretical distinction in this work is between operation and maintenance. Operation produces outcomes.
Maintenance preserves the internal conditions that make those outcomes meaningful and reliable over time. Many failure modes arise not from faulty operations, but from insufficient or implicit maintenance.
The theory developed at Ranesis is intentionally domain-agnostic. It does not assume specific physical laws, computational primitives, or organizational structures. Instead, it focuses on general constraints related to time and coordination, including coherence drift, temporal margins and recovery windows, and the structural distinction between operation and maintenance.
This theoretical framework serves as a foundation for both analytical reasoning and applied developments. Formalization, domain-specific models, and implementations are explored selectively.
The theoretical foundations of the Ranesis framework are introduced in:
Ramakers, A. (2025). Kernel-Weighted Local Conservation and a Unique Finite-Time Invariant. Zenodo. https://doi.org/10.5281/zenodo.18074928
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