This record is the collection-level overview for the Signal-Time-Authority (STA) Series PublicRelease v1.0. The STA Series develops a pre-commitment controllability framework for runtime AI oversight. The central claim is that runtime oversight is control-relevant only when usable signal, remaining time, effective authority, and valid intervention policy remain jointly adequate before an externally consequential commitment event. The five public release records are: Paper 1 — Theory-only foundation: Signal-Time-Authority Runtime Oversight: A Pre-Commitment Controllability Framework https://doi.org/10.5281/zenodo.19980763 Paper 2 — C++17 staged toy simulation / synthetic evidence: C++17 Staged Toy Simulation for STA Pre-Commitment Controllability https://doi.org/10.5281/zenodo.19984104 Paper 3 — Runtime deployment architecture: Graduated STA Control: Authority Governors and Runtime Deployment Architecture https://doi.org/10.5281/zenodo.19984352 Paper 4 — Physical AI / safe-stop authority: STA for Physical AI: Safe-Stop Authority, Actuator Commitment, and Minimal-Risk Intervention https://doi.org/10.5281/zenodo.19984706 Paper 5 — Governance / assurance case closure: Governed Hazard Predicates and Assurance Cases for STA Runtime Oversight https://doi.org/10.5281/zenodo.19984993 This collection record is an index and overview record. It does not replace the individual paper records. Readers should cite the relevant individual paper DOI when referring to a specific part of the STA Series, and may cite this collection DOI when referring to the series as a whole. This is a PublicRelease v1.0 collection record.
Htet Ko Ko Naing (Sat,) studied this question.