A portfolio of foundational specifications that define how systems transition between states, preserve what matters under pressure, and hold their integrity across time and domain.
Every system that must operate reliably across time faces the same structural problem: how to move between states without losing what it has accumulated. AHA's IP portfolio provides the formal foundation for solving that problem — across biology, infrastructure, governance, and data architecture.
The specifications are domain-agnostic at their core. What changes across licensees is the variable assignment, not the underlying structure. A medical imaging platform, a governance compliance engine, and a hardware fault-tolerance system are all running the same formal architecture — instantiated in the language of their domain.
Systems operating on living subjects face a unique structural problem: the same intervention produces different outcomes depending on the patient's accumulated history. AHA's specifications provide the formal architecture for representing that history as a structural variable — enabling predictions about which states a system can and cannot reach given its current trajectory, not just its current measurement.
Hardware systems that fail do so at state boundaries that were never formally defined. AHA's specifications provide fault-boundary architectures that treat system integrity as an accumulating property — making certain failure states structurally unreachable rather than statistically unlikely. The same formal structure applies from silicon to distributed network topology.
Most AI governance frameworks treat ethics as a policy layer — a checklist applied after the system is built. AHA's specifications treat ethics as architecture — values encoded into the system's output function so that non-compliant outputs are structurally suppressed, not filtered. This is the difference between a system that passes an audit and a system that cannot fail one.
Systems that operate across multiple domains — or that must synthesize knowledge over long time horizons — require a translation layer that preserves structural meaning across variable assignments. AHA's symbolic interface specifications provide that layer: a formal interoperability architecture that lets domain-specific implementations share a common structural backbone without exposing it.
Access to selected technology family specifications for non-commercial research, validation, and publication. Includes reference implementation documentation and compliance testing protocols. Co-publication opportunities available.
Inquire →Full specification access for one licensed domain, including domain instantiation guides and verification tooling. Licensee builds their product; AHA provides the formal architecture it runs on. Royalty or flat-fee structures available.
Inquire →Cross-domain specification access for platforms operating across multiple licensed verticals. Includes the symbolic interface layer for interoperability between domain implementations. Strategic partnership structures considered.
Inquire →AHA does not publish pricing. Licensing terms are structured for the specific domain, use case, and deployment scale of each partner. All inquiries are held in strict confidence. Lectures and institutional presentations are also available.