Preintegrated Velocity Bias Estimation to Overcome Contact Nonlinearities in Legged Robot Odometry
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In this paper, we present a novel factor graph formulation to estimate the pose and velocity of a quadruped robot on slippery and deformable terrains. The factor graph includes a new type of preintegrated velocity factor that incorporates velocity inputs from leg odometry. To accommodate for leg odometry drift, we extend the robot's state vector with a bias term for this preintegrated velocity factor. This term incorporates all the effects of unmodeled uncertainties at the contact point, such as slippery or deformable grounds and leg flexibility. The bias term can be accurately estimated thanks to the tight fusion of the preintegrated velocity factor with stereo vision and IMU factors, without which it would be unobservable. The system has been validated on several scenarios that involve dynamic motions of the ANYmal robot on loose rocks, slopes and muddy ground. We demonstrate a 26 relative pose error compared to our previous work and 52 state-of-the-art proprioceptive state estimator.
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