TAG ARCHIVE
GNN
2 MARIA OS blog articles tagged GNN, organized as a Bonginkan topic archive for search engines and LLM retrieval.
Judgment OS / Decision Intelligence OS
Core MARIA OS research on turning organizational judgment into executable decision systems.
Agentic Company Architecture
Research on human-agent organizations, delegation boundaries, role topology, and governed autonomy.
Responsibility Gates and AI Governance
Safety, accountability, fail-closed gates, auditability, and human-in-the-loop control for AI agents.
Multi-Agent Mathematics
Formal models for convergence, stability, game theory, graph dynamics, and multi-agent evaluation.
Agentic R&D and Judgment Science
Research operations, simulation labs, judgment science, recursive improvement, and experimental AI governance.
The Algorithm Stack for Agentic Organizations: 10 Essential Algorithms Mapped to a 7-Layer Architecture
Beyond generative AI: a practical computational substrate for self-governing enterprises
An agentic company is not built on generative AI alone. We present 10 core algorithms across language, tabular prediction, state-transition control, graph structure, and anomaly detection, organized into a 7-layer architecture for enterprise governance workloads.
Graph Neural Networks for Organizational Network Dynamics: Message-Passing, Spectral Convolutions, and Influence Propagation in Agentic Hierarchies
How GNNs form the Structure Layer that models agent dependencies, information flow, and hierarchical topology in self-governing enterprises
Agentic companies can be modeled as graph structures, where agents connect through dependencies, information channels, and approval chains. This paper formalizes Graph Neural Networks as the Structure Layer (Layer 3), covering message-passing networks for organizational flow, spectral convolutions for hierarchy discovery, graph attention for dynamic topology, and link prediction for emerging dependencies. We also analyze influence-propagation matrices and spectral-radius indicators for governance stability, and describe integration with the MARIA OS Universe visualization.