MMODELYST
Papers/Progressive Autonomy as Preference Learning: A Formalization of Trust Calibration for Agentic Tool Use
PAP

Progressive Autonomy as Preference Learning: A Formalization of Trust Calibration for Agentic Tool Use

May 18, 2026

arXiv
Abstract

We formalize trust calibration for agentic tool use (deciding when an automated agent's proposed action may execute autonomously versus require human approval) as a preference-learning problem. A policy gateway maintains a Gaussian-process posterior over a latent human risk-tolerance function, observed through a probit likelihood on binary approve/deny feedback, and escalates to the human exactly where the approval outcome is most uncertain. We show this is structurally an instance of Preferential Bayesian Optimization, inheriting its inference machinery (approximate Gaussian-process classification) and its sample-efficiency argument (uncertainty-targeted querying), while differing in objective: classifying an action space into allow/block/ask regions rather than optimizing a design.

Select text to highlight · click a highlight to remove · saved in this browser only
Authors
Changkun Ou
Your notes (browser-local)
saved
Cross-links
arXiv:2605.19151