SALE-Based Offline Reinforcement Learning with Ensemble Q-Networks

In this work, we build upon the offline reinforcement learning algorithm TD7, which incorporates State-Action Learned Embeddings (SALE) and LAP, and propose a model-free actor-critic algorithm that integrates ensemble Q-networks and a gradient diversity penalty from EDAC. The ensemble Q-networks effectively address the challenge of out-of-distribution actions by introducing penalties that guide the actor network to focus on in-distribution actions. Meanwhile, the gradient diversity penalty encourages diverse Q-value gradients, further suppressing overestimation for out-of-distribution actions. Additionally, our method retains an adjustable behavior cloning (BC) term that directs the actor network toward dataset actions during early training stages, while gradually reducing its influence as the precision of the Q-ensemble improves. These enhancements work synergistically to improve training stability and accuracy. Experimental results on the D4RL MuJoCo benchmarks demonstrate that our algorithm achieves superior convergence speed, stability, and performance compared to existing methods.