Founding MandateAuvyrn was founded to address a persistent systems gap in high-risk environments: the absence of decision systems capable of operating across domains while preserving assurance, traceability, and accountability.
The company’s mandate is to design and deliver cross-domain technical architectures that remain dependable under operational, regulatory, and sovereign constraints, even as complexity increases. This work is anchored in correctness, resilience, and explain-ability over speed or novelty.
DeliveringOur current commercial implementation is pre-emptive fault detection in critical point capabilities. Early traction is demonstrated through cross-sector market validation, defined customer use cases, and a software-based, non-disruptive deployment pathway suited to regulated environments.
AUVYRN is engaging selected capability developers representing proprietary Fault Detection Evidence Capture Capability (FDECC), an assurance layer for critical-point environments designed to operate alongside existing systems and development pathways. The FDECC proprietary IP layer pre-empts critical point system failure across complex industries where failure is not an option. These industries include medical, energy, military, ground transportation, aerospace and more.
AUVYRN is positioning to scale globally.
Teams
Katherine I. CarletonKatherine leads the design and delivery of high-assurance decision and intelligence systems for mission-critical environments.
Her professional background spans aerospace engineering, Defence, and advanced systems development, with over two decades of experience operating across highly regulated, safety-critical, and multi-stakeholder contexts. She has worked within environments where system failure carries safety, sovereign, or strategic consequences, requiring disciplined governance, auditability, and trusted decision support.
Katherine has held senior technical and executive leadership roles across both government and private industry, including the design, delivery, and oversight of complex ICT and synthetic systems programs. Her work emphasises systems integrity, accountability, and operational resilience, particularly in distributed and constrained environments.