Situation perception is proposed as a necessary primitive for artificial superintelligence, requiring abstract prediction, long-term compressed memory, and objective-guided active learning.
MemoryWAM: Efficient World Action Modeling with Persistent Memory
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abstract
Robust robotic manipulation in the real world requires not only an understanding of the current observation, but also memory and dynamics modeling. World action models (WAMs) possess these capabilities by jointly modeling visual foresight and actions conditioned on both current and historical observations, making them a promising paradigm for robotic manipulation. However, existing WAMs face a fundamental trade-off: methods with efficient inference typically condition only on a bounded window of recent observations and therefore struggle in non-Markovian environments, whereas methods that preserve long histories incur time and space costs that grow substantially with sequence length. To address this challenge, we introduce MemoryWAM, a world action model with efficient persistent memory. MemoryWAM uses a hybrid memory design that combines recent frames, event-boundary anchor frames, and compact gist tokens that summarize long-range history. A tailored attention mechanism enables retrieval of both detailed short-term context and compressed long-term context, supporting memory-dependent decision-making with reduced inference latency and GPU memory usage. Across long-horizon, memory-dependent manipulation tasks in both simulation and the real world, MemoryWAM outperforms strong vision-language-action (VLA) and WAM baselines while maintaining favorable computational efficiency.
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cs.CY 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Situation Perception: A Necessary Primitive to Artificial Superintelligence
Situation perception is proposed as a necessary primitive for artificial superintelligence, requiring abstract prediction, long-term compressed memory, and objective-guided active learning.