Add to ORKGThis paper introduces a novel proprioceptive state estimator for legged robots based on a learned displacement measurement from IMU data. Recent research in pedestrian tracking has shown that motion can be inferred from inertial data using convolutional neural networks. A learned inertial displacement measurement can improve state estimation in challenging scenarios where leg odometry is unreliable, such as slipping and compressible terrains. Our work learns to estimate a displacement measurement from IMU data which is then fused with traditional leg odometry. Our approach greatly reduces the drift of proprioceptive state estimation, which is critical for legged robots deployed in vision and lidar denied environments such as foggy sewers or...
Abstract — Legged robots offer exceptional mobility in uncharted terrains. Their dynamic nature yiel...
International audienceOdometry techniques are key to autonomous robot navigation, since they enable ...
International audienceOdometry techniques are key to autonomous robot navigation, since they enable ...
We present visual inertial lidar legged navigation system (VILENS), an odometry system for legged ro...
Legged robots, specifically quadrupeds, are becoming increasingly attractive for industrial applicat...
Legged robots are expected to demonstrate autonomous skills in situations which are not suitable fo...
Implementing dynamic locomotion behaviors on legged robots requires a high-quality state estimation ...
In this paper, we present a modular and flexible state estimation framework for legged robots operat...
In this paper we present a system for the state estimation of a dynamically walking and trotting qua...
Legged robots have the potential to transform the logistics and package delivery industries, become ...
Several humanoid robots will require to navigate in unsafe and unstructured environments, such as th...
Visual Inertial Odometry (VIO) is one of the most established state estimation methods for mobile pl...
State estimation for legged locomotion over a dynamic rigid surface (DRS), which is a rigid surface ...
Legged robots have the potential to transform the logistics and package delivery industries, become ...
State estimation is a fundamental requirement for mobile robots. An accurate and robust estimate of ...
Abstract — Legged robots offer exceptional mobility in uncharted terrains. Their dynamic nature yiel...
International audienceOdometry techniques are key to autonomous robot navigation, since they enable ...
International audienceOdometry techniques are key to autonomous robot navigation, since they enable ...
We present visual inertial lidar legged navigation system (VILENS), an odometry system for legged ro...
Legged robots, specifically quadrupeds, are becoming increasingly attractive for industrial applicat...
Legged robots are expected to demonstrate autonomous skills in situations which are not suitable fo...
Implementing dynamic locomotion behaviors on legged robots requires a high-quality state estimation ...
In this paper, we present a modular and flexible state estimation framework for legged robots operat...
In this paper we present a system for the state estimation of a dynamically walking and trotting qua...
Legged robots have the potential to transform the logistics and package delivery industries, become ...
Several humanoid robots will require to navigate in unsafe and unstructured environments, such as th...
Visual Inertial Odometry (VIO) is one of the most established state estimation methods for mobile pl...
State estimation for legged locomotion over a dynamic rigid surface (DRS), which is a rigid surface ...
Legged robots have the potential to transform the logistics and package delivery industries, become ...
State estimation is a fundamental requirement for mobile robots. An accurate and robust estimate of ...
Abstract — Legged robots offer exceptional mobility in uncharted terrains. Their dynamic nature yiel...
International audienceOdometry techniques are key to autonomous robot navigation, since they enable ...
International audienceOdometry techniques are key to autonomous robot navigation, since they enable ...