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I am trying to devise an iterative markov decision process (MDP) agent in Python with the following characteristics:

  • observable state
    • I handle potential 'unknown' state by reserving some state space for answering query-type moves made by the DP (the state at t+1 will identify the previous query [or zero if previous move was not a query] as well as the embedded result vector) this space is padded with 0s to a fixed length to keep the state frame aligned regardless of query answered (whose data lengths may vary)
  • actions that may not always be available at all states
  • reward function may change over time
  • policy convergence should incremental and only computed per move

So the basic idea is the MDP should make its best guess optimized move at T using its current probability model (and since its probabilistic the move it makes is expectedly stochastic implying possible randomness), couple the new input state at T+1 with the reward from previous move at T and reevaluate the model. The convergence must not be permanent since the reward may modulate or the available actions could change.

What I'd like to know is if there are any current python libraries (preferably cross-platform as I necessarily change environments between Windoze and Linux) that can do this sort of thing already (or may support it with suitable customization eg: derived class support that allows redefining say reward method with one's own).

I'm finding information about on-line per-move MDP learning is rather scarce. Most use of MDP that I can find seems to focus on solving the entire policy as a preprocessing step.

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This isn't Python-specific, but I found a research paper on a technique for an On-line MDP (the PDF link is on the right, under "Cached"). It may be interesting to look over, although I'm not sure if it can fulfill your goal. –  voithos Feb 5 '12 at 2:42
    
Incremental/Decremental (ie: online) SVR techniques are also starting to appear in academia however no Python libraries for these as of yet. –  Brian Jack Feb 15 '13 at 9:29
    
poMDP may mitigate the need for specialized information gathering moves... The whole 0-padded answer channel in the state space feels like a hack. Though that would allow a reward function to reward it asking the right questions... so I'm unsure about this still... –  Brian Jack Feb 15 '13 at 9:33
    
I could also use a recurrent LSTM network to estimate the reward (as a regression problem) over time based on time series input from the environment. –  Brian Jack Jul 22 '13 at 18:54

2 Answers 2

I am a grad student doing lots of MCMC stuff in Python and to my knowledge nothing implements MDPs directly. The closest thing I am aware of is PyMC. Digging around the documentation provided this, which gives some advice on extending their classes. They definitely don't have rewards, etc., available out of the box.

If you're serious about developing something good, you might consider extending and subclassing the PyMC stuff to create your decision processes, as then you can get it included in the next update of PyMC and help out lots of future folks.

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I'm not exactly a doctorate holder in Mathematics so I'm kind of reliant on help from people that are. Need to try to convince someone to implement some way for the (po)MDP to use probabilistic rewards perhaps with an SVR (or other regression) to estimate the reward function over time. It should be obvious the (po)MDP should be making gradually refined best-guesses as it acquires more data as a consequence of taking moves. –  Brian Jack Feb 6 '12 at 8:06
    
scikits.learn has easy SVR() support if you need those sorts of tools. –  EMS Feb 6 '12 at 15:43
    
there's still the issue of making the MDP able to use the SVR-approximated reward function whose function shape will be change on-line with the stream of new data just as the MDP would be. –  Brian Jack Feb 6 '12 at 16:00
    
I don't understand what you mean by "issue". Yes, you'll have to have a way to feed your data in real time to the code you write. But presumably the code you write will be to use scikits.learn SVR() and perhaps some stuff from PyMC to handle that incoming data and appropriately update your model. It seems like you're asking if someone has already done the hard work needed to solve your specific difficult variant of a hard problem... the answer's usually 'no'. –  EMS Feb 6 '12 at 18:05
    
Probably not unless someone else has thought of using an SVR function approximation in place of a normal (heuristic most likely) MDP reward function. –  Brian Jack Feb 7 '12 at 1:59

Here is a python toolbox for MDPs.

Caveat: It's for vanilla textbook MDPs and not for partially observable MDPs (POMDPs), or any kind of non-stationarity in rewards.

Second Caveat: I found the documentation to be really lacking. You have to look in the python code if you want to know what it implements or you can quickly look at their documentation for a similar toolbox they have for MATLAB.

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Partial observation is a key element of my requirements however. –  Brian Jack Jul 22 '13 at 18:55

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