Delta-JEPA augments latent forward prediction with a Latent Difference Action Decoder that reconstructs actions from embedding displacements, yielding action-sensitive world models that improve planning on four visual continuous-control tasks over JEPA baselines.
Dreamer-CDP: Improving Reconstruction-free World Models Via Continuous Deterministic Representation Prediction
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abstract
Model-based reinforcement learning (MBRL) agents operating in high-dimensional observation spaces, such as Dreamer, rely on learning abstract representations for effective planning and control. Existing approaches typically employ reconstruction-based objectives in the observation space, which can render representations sensitive to task-irrelevant details. Recent alternatives trade reconstruction for auxiliary action prediction heads or view augmentation strategies, but perform worse in the Crafter environment than reconstruction-based methods. We close this gap between Dreamer and reconstruction-free models by introducing a JEPA-style predictor defined on continuous, deterministic representations. Our method matches Dreamer's performance on Crafter, demonstrating effective world model learning on this benchmark without reconstruction objectives.
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cs.AI 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Delta-JEPA: Learning Action-Sensitive World Models via Latent Difference Decoding
Delta-JEPA augments latent forward prediction with a Latent Difference Action Decoder that reconstructs actions from embedding displacements, yielding action-sensitive world models that improve planning on four visual continuous-control tasks over JEPA baselines.