Preference-Based Reward Learning under Partial Observability with Inexact Dynamics

In this paper, we study how partial observability and inexact latent-state inference affect reward learning from preferences.

To that end, we study preference-based reward learning under partial observability, where the learner forms latent-state estimates using an inexact learned POMDP model, so model error can accumulate over time.

For finite log-linear POMDPs, we characterize this error term by establishing the stability of the belief filter to parametric model error under certain mixing conditions, yielding bounds on the belief mismatch in expectation and in high probability.

We further extend this stability mechanism beyond the log-linear setting to neural-softmax POMDP models with overparameterized neural networks.

We then propagate these errors into trajectory-level feature perturbations and derive finite-sample guarantees for constrained Bradley--Terry reward estimation from preferences.

Our results decouple statistical error from an irreducible model-mismatch bias, and clarify when preference-based reward learning remains feasible under partial observability with imperfect dynamics.