RL PPO agent diverges with one-step training
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Hi,
I am training my PPO agent based on a system with continuous action space, and I want to have my agent trains for only one step and one episode in each train() function, and see how it performs:
trainingOpts = rlTrainingOptions(...
MaxEpisodes=1, ...
MaxStepsPerEpisode=1, ...
Verbose=false, ...
Plots="none",...
StopTrainingCriteria="AverageReward",...
StopTrainingValue=480);
This is the settings of the agent:
function [agents,obsInfo,actionInfo] = generate_PPOagents(Ts)
%observation and action spaces
obsInfo = rlNumericSpec([2 1],'LowerLimit',-inf*ones(2,1),'UpperLimit',inf*ones(2,1));
obsInfo.Name = 'state';
obsInfo.Description = 'position, velocity';
actionInfo = rlNumericSpec([1 1],'LowerLimit',-inf,'UpperLimit',inf);
actionInfo.Name = 'continuousAction';
agentOptions = rlPPOAgentOptions(...
'DiscountFactor', 0.99,...
'EntropyLossWeight', 0.01,...
'ExperienceHorizon', 20,...
'MiniBatchSize', 20,...
'ClipFactor', 0.2,...
'NormalizedAdvantageMethod','none',...
'SampleTime', -1);
agent1 = rlPPOAgent(obsInfo, actionInfo, agentOptions);
agent2 = rlPPOAgent(obsInfo, actionInfo, agentOptions);
agents = [agent1,agent2];
end
my reward is a conditional one based on whether the states satisfy some conditions:
function [nextObs, reward, isDone, loggedSignals] = myStepFunction1(action, loggedSignals,S)
nextObs = S.A1d*[loggedSignals.State(1);loggedSignals.State(2)] + S.B1d*action;
loggedSignals.State = nextObs;
if abs(nextObs(1))>10 || abs(nextObs(2))>10
reward = S.test-100;
else
reward = -1*(nextObs(1)^2 + nextObs(2)^2);
end
isDone = false;
end
in this case, every time the system finishes train(), the agent moves forward 1 step using getAction(), then I modify the reset function and then update the env so that each time the next train() simulates, the agent will start at the new state, then do trian() again to carry out the loop. But when I simulate the system, the states diverges to Inf after just around 20 train() iterations, I have checked my env, the agent settings, all seems fine. I tested if the issue is from the penalty in the reward function by changing S.test above, but the simulation fails as well.
I am not sure if the issue is caused by the one episode one step training method, in theory I am expecting bad performance at first but it should not be diverging so fast to Inf.
Thanks.
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Accepted Answer
Shivansh
on 27 Jun 2024
Hi Haochen,
It looks like you are facing numerical instability during the training in your RL model.
It will be helpful if you can provide the training graph for the issue.
If you think the agent is producing excessive large action leading to divergence, you can try limiting the actions in a reasonable bound and saturating the outputs.
actionInfo = rlNumericSpec([1 1],'LowerLimit',-15,'UpperLimit',15); %A sample example
Since you are training for only one step per episode with both "ExperienceHorizon" and "MiniBatchSize" both set to 20, the agent might not be able to collect enough experiences to perform effective updates.
You can also try to normalize the observations and actions and analyze the impact on the training. You can add the normalization options in "agentOptions" and set them as "true".
The reward function analysis is also a great way to find the issue in the RL training. You can also try adding gradient clipping and reducing the learning rate to avoid aggresive policy updates.
You can refer to the following documentation for more information regarding the PPO agents:
Proximal Policy Optimization (PPO) Agents: https://www.mathworks.com/help/reinforcement-learning/ug/proximal-policy-optimization-agents.html.
I hope this helps!
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