Beyond the Boundaries of Proximal Policy Optimization
Proximal policy optimization (PPO) is a widely-used algorithm for on-policy reinforcement learning. This work offers an alternative perspective of PPO, in which it is decomposed into the inner-loop estimation of update vectors, and the outer-loop application of updates using gradient ascent with uni...
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| creator | Tan, Charlie B Toledo, Edan Ellis, Benjamin Foerster, Jakob N Huszár, Ferenc |
| description | Proximal policy optimization (PPO) is a widely-used algorithm for on-policy
reinforcement learning. This work offers an alternative perspective of PPO, in
which it is decomposed into the inner-loop estimation of update vectors, and
the outer-loop application of updates using gradient ascent with unity learning
rate. Using this insight we propose outer proximal policy optimization
(outer-PPO); a framework wherein these update vectors are applied using an
arbitrary gradient-based optimizer. The decoupling of update estimation and
update application enabled by outer-PPO highlights several implicit design
choices in PPO that we challenge through empirical investigation. In particular
we consider non-unity learning rates and momentum applied to the outer loop,
and a momentum-bias applied to the inner estimation loop. Methods are evaluated
against an aggressively tuned PPO baseline on Brax, Jumanji and MinAtar
environments; non-unity learning rates and momentum both achieve statistically
significant improvement on Brax and Jumanji, given the same hyperparameter
tuning budget. |
| doi_str_mv | 10.48550/arxiv.2411.00666 |
| format | Article |
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reinforcement learning. This work offers an alternative perspective of PPO, in
which it is decomposed into the inner-loop estimation of update vectors, and
the outer-loop application of updates using gradient ascent with unity learning
rate. Using this insight we propose outer proximal policy optimization
(outer-PPO); a framework wherein these update vectors are applied using an
arbitrary gradient-based optimizer. The decoupling of update estimation and
update application enabled by outer-PPO highlights several implicit design
choices in PPO that we challenge through empirical investigation. In particular
we consider non-unity learning rates and momentum applied to the outer loop,
and a momentum-bias applied to the inner estimation loop. Methods are evaluated
against an aggressively tuned PPO baseline on Brax, Jumanji and MinAtar
environments; non-unity learning rates and momentum both achieve statistically
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reinforcement learning. This work offers an alternative perspective of PPO, in
which it is decomposed into the inner-loop estimation of update vectors, and
the outer-loop application of updates using gradient ascent with unity learning
rate. Using this insight we propose outer proximal policy optimization
(outer-PPO); a framework wherein these update vectors are applied using an
arbitrary gradient-based optimizer. The decoupling of update estimation and
update application enabled by outer-PPO highlights several implicit design
choices in PPO that we challenge through empirical investigation. In particular
we consider non-unity learning rates and momentum applied to the outer loop,
and a momentum-bias applied to the inner estimation loop. Methods are evaluated
against an aggressively tuned PPO baseline on Brax, Jumanji and MinAtar
environments; non-unity learning rates and momentum both achieve statistically
significant improvement on Brax and Jumanji, given the same hyperparameter
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reinforcement learning. This work offers an alternative perspective of PPO, in
which it is decomposed into the inner-loop estimation of update vectors, and
the outer-loop application of updates using gradient ascent with unity learning
rate. Using this insight we propose outer proximal policy optimization
(outer-PPO); a framework wherein these update vectors are applied using an
arbitrary gradient-based optimizer. The decoupling of update estimation and
update application enabled by outer-PPO highlights several implicit design
choices in PPO that we challenge through empirical investigation. In particular
we consider non-unity learning rates and momentum applied to the outer loop,
and a momentum-bias applied to the inner estimation loop. Methods are evaluated
against an aggressively tuned PPO baseline on Brax, Jumanji and MinAtar
environments; non-unity learning rates and momentum both achieve statistically
significant improvement on Brax and Jumanji, given the same hyperparameter
tuning budget.</abstract><doi>10.48550/arxiv.2411.00666</doi><oa>free_for_read</oa></addata></record> |
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| title | Beyond the Boundaries of Proximal Policy Optimization |
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