TAG ARCHIVE
ceo
2 MARIA OS blog articles tagged ceo, 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.
Evidence, RAG, and Knowledge Governance
Evidence bundles, retrieval architecture, Graph RAG, knowledge trust, and auditable reasoning pipelines.
Agentic R&D and Judgment Science
Research operations, simulation labs, judgment science, recursive improvement, and experimental AI governance.
Multi-Universe Strategic Optimization: Minimax Theory for CEO Decision Systems
Worst-case utility optimization across parallel business universes and its implementation in MARIA OS
CEO decisions are multi-objective: each strategy affects Finance, Market, HR, and Regulatory universes with partially conflicting goals. This paper formalizes the problem as a minimax game over universe-utility vectors, derives `StrategyScore S = min_i U_i` as a robust objective candidate, constructs conflict matrices from inter-universe correlations, and characterizes a computable Pareto frontier. We connect the framework to MARIA OS MAX-gate design and report simulation results where minimax-oriented policies improved worst-case outcomes by 34% versus weighted-average baselines while retaining 91% of best-case upside.
Vision Encoding Formal Language Model for CEO Decision OS: From Natural Language Strategy to Executable Policy Logic
A mathematical framework for converting management vision into formal constraint sets, gate rules, and measurable strategic alignment scores
CEOs articulate vision in natural language, while execution systems require formal constraints. The resulting Vision-Policy Distance can drive strategic drift when autonomous agents scale. This paper formalizes a mapping from vision statements to executable policy logic, defines a Strategic Alignment Score over policy-gate coverage, and reports 94.7% vision-to-execution fidelity in MARIA OS through formal vision encoding. The Vision-Policy Distance `D(V, P)` and Alignment Rate `AR = |matching policies| / |total policies|` provide auditable metrics for whether agents are executing intended strategy.