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CLaP: Conditional Latent Planners for Offline Reinforcement Learning
Harry Shin · Rose Wang

Recent work has formulated offline reinforcement learning (RL) as a sequence modeling problem, benefiting from the simplicity and scalability of the Transformer architecture. However, sequence models struggle to model trajectories that are long-horizon or involve complicated environment dynamics. We propose CLaP (Conditional Latent Planners) to learn a simple goal-conditioned latent space from offline agent behavior, and incrementally decode good actions from a latent plan. We evaluate our method on continuous control domains from the D4RL benchmark. Compared to non-sequential models and return-conditioned sequential models, CLaP shows competitive if not better performance across continuous control tasks. It particularly does better in environments with complex transition dynamics with up to $+149.8\%$ performance increase. Our results suggest that decision-making is easier with simplified latent dynamics that models behavior as being goal-conditioned.