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Showing 8 of 8 citing papers.

• BiCoord: A Bimanual Manipulation Benchmark towards Long-Horizon Spatial-Temporal Coordination cs.RO · 2026-04-07 · conditional · none · ref 36

  BiCoord is a new benchmark for long-horizon tightly coordinated bimanual manipulation that includes quantitative metrics and shows existing policies like DP, RDT, Pi0 and OpenVLA-OFT struggle on such tasks.

• JailWAM: Jailbreaking World Action Models in Robot Control cs.RO · 2026-04-07 · unverdicted · none · ref 13

  JailWAM is the first dedicated jailbreak framework for World Action Models, achieving 84.2% attack success rate on LingBot-VA in RoboTwin simulation and enabling safety evaluation of robotic AI.

• Learning Physics from Pretrained Video Models: A Multimodal Continuous and Sequential World Interaction Models for Robotic Manipulation cs.RO · 2026-02-18 · unverdicted · none · ref 36

  PhysGen uses video models to learn physics for robots, outperforming baselines by up to 13.8% on Libero and matching specialized models in real-world tasks.

• ST-$\pi$: Structured SpatioTemporal VLA for Robotic Manipulation cs.RO · 2026-04-20 · unverdicted · none · ref 26

  ST-π structures VLA models by having a spatiotemporal VLM produce causally ordered chunk-level prompts that guide a dual-generator action expert to jointly handle spatial and temporal control in robotic manipulation.

• OFlow: Injecting Object-Aware Temporal Flow Matching for Robust Robotic Manipulation cs.RO · 2026-04-20 · unverdicted · none · ref 37

  OFlow unifies temporal foresight and object-aware reasoning inside a shared latent space via flow matching to improve VLA robustness in robotic manipulation under distribution shifts.

• AnchorRefine: Synergy-Manipulation Based on Trajectory Anchor and Residual Refinement for Vision-Language-Action Models cs.RO · 2026-04-20 · unverdicted · none · ref 31

  AnchorRefine factorizes VLA action generation into a trajectory anchor for coarse planning and residual refinement for local corrections, improving success rates by up to 7.8% in simulation and 18% on real robots across LIBERO, CALVIN, and physical tasks.

• Robotic Manipulation is Vision-to-Geometry Mapping ($f(v) \rightarrow G$): Vision-Geometry Backbones over Language and Video Models cs.RO · 2026-04-14 · unverdicted · none · ref 39

  Vision-geometry backbones using pretrained 3D world models outperform vision-language and video models for robotic manipulation by enabling direct mapping from visual input to geometric actions.

• Open-Loop Planning, Closed-Loop Verification: Speculative Verification for VLA cs.RO · 2026-04-03 · unverdicted · none · ref 22

  SV-VLA uses infrequent heavy VLA planning of action chunks plus a lightweight closed-loop verifier to achieve both efficiency and robustness in dynamic robot control.