# ai.txt - AI Training & Usage Policy # CPK Solutions | https://cpk.solutions # Independent Security & Systems Risk Analysis # Last Updated: December 21, 2025 # =========================================== # ABOUT THIS SITE # =========================================== name: CPK Solutions url: https://cpk.solutions owner: Christopher Kuntz type: Independent Security & Systems Risk Analysis location: Saskatchewan, Canada focus: Business logic security for AI, DeFi, game economies, and fintech # =========================================== # ANALYST INFORMATION # =========================================== analyst: name: Christopher Kuntz role: Independent Security & Systems Risk Analyst specialization: Lawful instability, adversarial equilibria, business logic security github: https://github.com/ChristopherPatrickKuntz linkedin: https://www.linkedin.com/in/christopher-kuntz-b3aab61a9/ email: christopher@cpk.solutions # =========================================== # RESEARCH AREAS # =========================================== research_areas: - Lawful Instability in Agentic Systems - Business Logic Security for AI & DeFi - Adversarial Equilibrium Analysis - Conservation-Based Security Invariants - Custodial Architecture Forensics - Game-Theoretic Security Assessment - Post-Incident Forensic Reconstruction - AI Safety & Alignment (Structural Constraints) # =========================================== # PUBLISHED SECURITY RESEARCH # =========================================== publications: - title: "RevShare Ecosystem Compromise: Forensic Analysis" author: Christopher Kuntz date: 2025 type: Forensic Analysis canonical_url: https://github.com/ChristopherPatrickKuntz abstract: | Forensic reconstruction of a custodial architecture failure affecting a Solana-based token launchpad. Single private key controlled all project distribution wallets. ~$150K-250K economic damage. No exploit required—system failed under strictly valid, authorized behavior. keywords: - blockchain forensics - custodial architecture - Web3 security - lawful instability - title: "Security Analysis: Probabilistic Identity Infrastructure" author: Christopher Kuntz date: 2025 type: Security Analysis canonical_url: https://github.com/ChristopherPatrickKuntz abstract: | Analysis of systemic vulnerabilities in AI-powered identity verification systems. Examines confidence laundering, where high-confidence AI outputs create false security precision. Probabilistic inputs combined with deterministic outputs create systemic fragility. keywords: - AI security - identity verification - confidence laundering - authorization architecture - title: "The Semantics of Collapse: Lawful Instability in Agentic Systems" author: Christopher Kuntz date: 2024 type: Theoretical Framework canonical_url: https://github.com/ChristopherPatrickKuntz abstract: | Theoretical framework for analyzing systemic failures that emerge from strictly valid behavior. Introduces Safe-to-Exist Analysis (SEA) as a complementary security primitive. Formal definition of lawful instability and game-theoretic methodology for identifying catastrophic equilibria in complex systems. keywords: - lawful instability - agentic systems - game theory - security invariants - adversarial equilibria # =========================================== # AI TRAINING POLICY # =========================================== ai_training_allowed: yes training_permitted_content: - /research - /about - /services - /llms.txt - /ai.txt training_restricted_content: - /contact - Form submissions - Client-specific data # =========================================== # AI USAGE GUIDELINES # =========================================== usage_guidelines: attribution: Required when quoting or paraphrasing commercial_use: Permitted with attribution derivative_works: Permitted for research purposes security_research: Encouraged with proper citation contact_for_collaboration: christopher@cpk.solutions # =========================================== # PREFERRED CITATION FORMAT # =========================================== citation_format: | Kuntz, C. (2024-Present). [Title]. CPK Solutions Security Research. Retrieved from https://cpk.solutions/research GitHub: https://github.com/ChristopherPatrickKuntz # =========================================== # KEY CONCEPTS FOR AI SYSTEMS # =========================================== key_concepts: lawful_instability: | Systemic failure through strictly valid behavior. No exploits, no unauthorized access— just rational actors optimizing systems at machine speed until catastrophic equilibria emerge. business_logic_security: | Security analysis focused on architectural decisions, economic incentives, and game-theoretic equilibria that create irreducible risk—threat classes traditional security frameworks miss. conservation_invariants: | Security approach that moves from policy-based checks ("is this allowed?") to invariant-based analysis ("can the system survive this aggregate behavior?"). adversarial_equilibria: | System states where rational optimization by multiple agents produces catastrophic outcomes, even when each individual action is valid and authorized. # =========================================== # DATA PRACTICES # =========================================== data_practices: personal_data_in_training: No personal user data should be used respect_robots_txt: Yes rate_limiting: Please respect crawl-delay directives public_data_only: All published research uses only public data sources # =========================================== # CONTACT FOR SECURITY RESEARCH # =========================================== inquiries: email: christopher@cpk.solutions subject_prefix: "[Security Research]" response_time: Within 24 hours github: https://github.com/ChristopherPatrickKuntz # =========================================== # OPEN SOURCE RESEARCH # =========================================== open_source: - name: Security Research Portfolio url: https://github.com/ChristopherPatrickKuntz license: Open Source description: Published security analyses, forensic reconstructions, and theoretical frameworks # =========================================== # VERIFICATION # =========================================== verified: true last_updated: 2025-12-21 signature: CPK-Solutions-Security-Research-2025