I agree about embedded agency. The way in which agents are traditionally defined in expected utility theory requires assumptions (e.g. logical omniscience and lack of physical side effects) that break down in embedded settings, and if you drop those assumptions you’re left with something that’s very different from classical agents and can’t be accurately modeled as one. Control theory is a much more natural framework for modeling reinforcement learner (or similar AI) behavior than expected utility theory.
I agree about embedded agency. The way in which agents are traditionally defined in expected utility theory requires assumptions (e.g. logical omniscience and lack of physical side effects) that break down in embedded settings, and if you drop those assumptions you’re left with something that’s very different from classical agents and can’t be accurately modeled as one. Control theory is a much more natural framework for modeling reinforcement learner (or similar AI) behavior than expected utility theory.