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VIMO: Simultaneous Visual Inertial Model-Based Odometry and Force Estimation

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Authors:

In recent years, many approaches to Visual Inertial Odometry (VIO) have become available. However, they neither exploit the robot’s dynamics and known actuation inputs, nor differentiate between desired motion due to actuation and unwanted perturbation due to external force. For many robotic applications, it is often essential to sense the external force acting on the system due to, for example, interactions, contacts, and disturbances. Adding a motion constraint to an estimator leads to a discrepancy between the model-predicted motion and the actual motion. Our approach exploits this discrepancy and resolves it by simultaneously estimating the motion and the external force. We propose a relative motion constraint combining the robot’s dynamics and the external force in a pre integrated residual, resulting in a tightly-coupled, sliding-window estimator exploiting all correlations among all variables. We implement our Visual Inertial Model-based Odometry (VIMO) system into a state-of-the-art VIO approach and evaluate it against the original pipeline without motion constraints on both simulated and real-world data. The results show that our approach increases the accuracy of the estimator up to 29% compared to the original VIO, and provides external force estimates at no extra computational cost.To the best of our knowledge, this is the first approach exploiting model dynamics by jointly estimating motion and external force. Our implementation will be made available open-source./div>

Reference

  • Published in: IEEE Robotics and Automation Letters ( Volume: 4 , Issue: 3 , July 2019 )
  • DOI: 10.1109/LRA.2019.2918689
  • Read paper
  • Date: 2019
Reference
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