Most real-world problems have huge state and/or action spaces. Therefore, a
naive application of existing tabular solution methods is not tractable on such
problems. Nonetheless, these solution methods are quite useful if an agent has
access to a relatively small state-action space homomorphism of the true
environment and near-optimal performance is guaranteed by the map. A plethora
of research is focused on the case when the homomorphism is a Markovian
representation of the underlying process. However, we show that near-optimal
performance is sometimes guaranteed even if the homomorphism is non-Markovian.
Moreover, we can aggregate significantly more states by lifting the Markovian
requirement without compromising on performance. In this work, we expand
Extreme State Aggregation (ESA) framework to joint state-action aggregations.
We also lift the policy uniformity condition for aggregation in ESA that allows
even coarser modeling of the true environment
