Automatic State Space Aggregation Using a Density Based Technique
Abstract
applying reinforcement learning techniques in continuous environments is challenging because there are infinitely many states to visit in order to learn an optimal policy. To make this situation tractable, abstractions are often used to reduce the infinite state space down to a small and finite one. Some of the more powerful and commonplace abstractions, tiling abstractions such as CMAC, work by aggregating many base states into a single abstract state. Unfortunately, significant manual effort is often necessary in order to apply them to non-trivial control problems. Here we develop an automatic state space aggregation algorithm, Maximum Density Separation, which can produce a meaningful abstraction with minimal manual effort. This method leverages the density of observations in the space to construct a partition and aggregate states in a dense region to the same abstract state. We show that the abstractions produced by this method on two benchmark reinforcement learning problems can outperform fixed tiling methods in terms of both the convergence rate of a learning algorithm and the number of abstract states needed.
Document Details
- Document Type
- Technical Report
- Publication Date
- May 01, 2012
- Accession Number
- ADA563366
Entities
People
- Robert Wright
- Steven Loscalzo
Organizations
- Air Force Research Laboratory