{Reference Type}: Journal Article
{Title}: Optimal Inference of Hidden Markov Models Through Expert-Acquired Data.
{Author}: Ravari A;Ghoreishi SF;Imani M;
{Journal}: IEEE Trans Artif Intell
{Volume}: 5
{Issue}: 8
{Year}: 2024 Aug
暂无{DOI}: 10.1109/tai.2024.3358261
{Abstract}: This paper focuses on inferring a general class of hidden Markov models (HMMs) using data acquired from experts. Expert-acquired data contain decisions/actions made by humans/users for various objectives, such as navigation data reflecting drivers' behavior, cybersecurity data carrying defender decisions, and biological data containing the biologist's actions (e.g., interventions and experiments). Conventional inference methods rely on temporal changes in data without accounting for expert knowledge. This paper incorporates expert knowledge into the inference of HMMs by modeling expert behavior as an imperfect reinforcement learning agent. The proposed method optimally quantifies experts' perceptions about the system model, which, alongside the temporal changes in data, contributes to the inference process. The proposed inference method is derived through a combination of dynamic programming and optimal recursive Bayesian estimation. The applicability of this method is demonstrated to a wide range of inference criteria, such as maximum likelihood and maximum a posteriori. The performance of the proposed method is investigated through a comprehensive numerical experiment using a benchmark problem and biological networks.