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2. Ifor: Iterative flow minimization for robotic object rearrangement
 
 # Ifor: Iterative flow minimization for robotic object rearrangement

  ![](/sites/default/files/publications/ifor.gif) 

 Accurate object rearrangement from vision is a crucial problem for a wide variety of real-world robotics applications in unstructured environments. We propose IFOR, Iterative Flow Minimization for Robotic Object Rearrangement, an end-to-end method for the challenging problem of object rearrangement for unknown objects given an RGBD image of the original and final scenes. First, we learn an optical flow model based on RAFT to estimate the relative transformation of the objects purely from synthetic data. This flow is then used in an iterative minimization algorithm to achieve accurate positioning of previously unseen objects. Crucially, we show that our method applies to cluttered scenes, and in the real world, while training only on synthetic data. Videos are available at <https://imankgoyal.github.io/ifor.html>.



 ## Authors



[Ankit Goyal](/index.php/person/ankit-goyal)

Arsalan Mousavian (NVIDIA)

Chris Paxton (Meta)

[Yu-Wei Chao](/index.php/person/yu-wei-chao)

Brian Okorn (CMU)

Jia Deng (Princeton University)

Dieter Fox (NVIDIA)

 

 

 ## Publication Date



Sunday, June 19, 2022

 

 ## Published in



[IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR) 2022](https://cvpr2022.thecvf.com/)

 

 ## Research Area



[Computer Vision](/index.php/research-area/computer-vision)

[Robotics](/index.php/research-area/robotics)

 

 

 ## External Links



[Paper](https://openaccess.thecvf.com/content/CVPR2022/papers/Goyal_IFOR_Iterative_Flow_Minimization_for_Robotic_Object_Rearrangement_CVPR_2022_paper.pdf)