SOTAVerified

Reinforcement Learning (RL)

Reinforcement Learning (RL) involves training an agent to take actions in an environment to maximize a cumulative reward signal. The agent interacts with the environment and learns by receiving feedback in the form of rewards or punishments for its actions. The goal of reinforcement learning is to find the optimal policy or decision-making strategy that maximizes the long-term reward.

Papers

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Showing 891900 of 15113 papers

TitleStatusHype
Comprehensive Review on the Control of Heat Pumps for Energy Flexibility in Distribution Networks0
Uncertainty quantification for Markov chains with application to temporal difference learning0
Hierarchical RL-MPC for Demand Response Scheduling0
SPPD: Self-training with Process Preference Learning Using Dynamic Value Margin0
EPO: Explicit Policy Optimization for Strategic Reasoning in LLMs via Reinforcement Learning0
Demystifying Multilingual Chain-of-Thought in Process Reward Modeling0
LocalEscaper: A Weakly-supervised Framework with Regional Reconstruction for Scalable Neural TSP Solvers0
Integrating Reinforcement Learning, Action Model Learning, and Numeric Planning for Tackling Complex TasksCode0
Navigating Demand Uncertainty in Container Shipping: Deep Reinforcement Learning for Enabling Adaptive and Feasible Master Stowage PlanningCode0
RAD: Training an End-to-End Driving Policy via Large-Scale 3DGS-based Reinforcement Learning0
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Benchmark Results

#ModelMetricClaimedVerifiedStatus
1PPGMean Normalized Performance0.76Unverified
2PPOMean Normalized Performance0.58Unverified