Learning low-frequency motion control for robust and dynamic robot locomotion

Learning low-frequency motion control for robust and dynamic robot locomotion

Robotic locomotion is often approached with the goal of maximizing robustness and reactivity by increasing motion control frequency. We challenge this intuitive notion by demonstrating robust and dynamic locomotion with a learned motion controller executing at as low as 8 Hz on a real ANYmal C quadr...

Volledige beschrijving

Bibliografische gegevens
Hoofdauteurs:	Gangapurwala, S, Campanaro, L, Havoutis, I
Formaat:	Conference item
Taal:	English
Gepubliceerd in:	IEEE 2023

Gelijkaardige items

Learning and deploying robust locomotion policies with minimal dynamics randomization
door: Campanaro, L, et al.
Gepubliceerd in: (2024)

Guided constrained policy optimization for dynamic quadrupedal robot locomotion
door: Gangapurwala, S, et al.
Gepubliceerd in: (2020)

Learning system adaptive legged robotic locomotion policies
door: Gangapurwala, S
Gepubliceerd in: (2022)

RLOC: terrain-aware legged locomotion using reinforcement learning and optimal control
door: Gangapurwala, S, et al.
Gepubliceerd in: (2022)

Real-time trajectory adaptation for quadrupedal locomotion using deep reinforcement learning
door: Gangapurwala, S, et al.
Gepubliceerd in: (2021)

CPG-ACTOR: reinforcement learning for central pattern generators
door: Campanaro, L, et al.
Gepubliceerd in: (2021)

Rapid stability margin estimation for contact-rich locomotion
door: Orsolino, R, et al.
Gepubliceerd in: (2021)

Streamlined sim-to-real transfer for deep-reinforcement learning in robotics locomotion
door: Campanaro, L
Gepubliceerd in: (2023)

Multi-controller multi-objective locomotion planning for legged robots
door: Brandao, M, et al.
Gepubliceerd in: (2020)

VAE-Loco: versatile quadruped locomotion by learning a disentangled gait representation
door: Mitchell, AL, et al.
Gepubliceerd in: (2023)

Next steps: learning a disentangled gait representation for versatile quadruped locomotion
door: Mitchell, AL, et al.
Gepubliceerd in: (2022)

Roll-Drop: accounting for observation noise with a single parameter
door: Campanaro, L, et al.
Gepubliceerd in: (2023)

High-slope terrain locomotion for torque-controlled quadruped robots
door: Focchi, M, et al.
Gepubliceerd in: (2016)

Motion planning for quadrupedal locomotion: Coupled planning, terrain mapping, and whole-body control
door: Mastalli, C, et al.
Gepubliceerd in: (2020)

Learning an expert skill-space for replanning dynamic quadruped locomotion over obstacles
door: Surovik, D, et al.
Gepubliceerd in: (2021)

Receding-horizon perceptive trajectory optimization for dynamic legged locomotion with learned initialization
door: Melon, O, et al.
Gepubliceerd in: (2021)

Generalization of movements in quadruped robot locomotion by learning specialized motion data
door: Hiroki Yamamoto, et al.
Gepubliceerd in: (2020-06-01)

Hybrid control and motion planning of dynamical legged locomotion /
door: Sadati, Nasser.
Gepubliceerd in: (2012)

Receding-horizon motion planning of quadrupedal robot locomotion
door: Melon, OA
Gepubliceerd in: (2022)

Preview optimization for learning locomotion policies on rough terrain
door: Mastalli, C, et al.
Gepubliceerd in: (2016)

Learning Robust Terrain-Aware Locomotion
door: Margolis, Gabriel B.
Gepubliceerd in: (2022)

Locomotion of multibody robotic systems: Dynamics and optimization
door: Chernousko Felix L.
Gepubliceerd in: (2018-01-01)

Semantically grounded object matching for robust robotic scene rearrangement
door: Goodwin, W, et al.
Gepubliceerd in: (2022)

Learning sequences of approximations for hierarchical motion planning
door: Brandao, M, et al.
Gepubliceerd in: (2020)

GaitMesh: controller-aware navigation meshes for long-range legged locomotion planning in multi-layered environments
door: Brandao, M, et al.
Gepubliceerd in: (2020)

Design of Transverse Brachiation Robot and Motion Control System for Locomotion between Ledges at Different Elevations
door: Chi-Ying Lin, et al.
Gepubliceerd in: (2022-05-01)

Locomotion control and implementation on robotic fish
door: Xiao, Jianfang
Gepubliceerd in: (2013)

Trajectory and foothold optimization using low-dimensional models for rough terrain locomotion
door: Mastalli, C, et al.
Gepubliceerd in: (2017)

First steps: latent-space control with semantic constraints for quadruped locomotion
door: Mitchell, AL, et al.
Gepubliceerd in: (2021)

Leg swinging motion modeling of a legged locomotion of walking and climbing robot /
door: 288997 Shamsudin Mohd. Amin, et al.

RoLoMa: robust loco-manipulation for quadruped robots with arms
door: Ferrolho, H, et al.
Gepubliceerd in: (2023)

The Complex Dynamic Locomotive Control and Experimental Research of a Quadruped-Robot Based on the Robot Trunk
door: Dongyi Ren, et al.
Gepubliceerd in: (2019-09-01)

Continual Reinforcement Learning for Quadruped Robot Locomotion
door: Sibo Gai, et al.
Gepubliceerd in: (2024-01-01)

Learning Advanced Locomotion for Quadrupedal Robots: A Distributed Multi-Agent Reinforcement Learning Framework with Riemannian Motion Policies
door: Yuliu Wang, et al.
Gepubliceerd in: (2024-05-01)

Safe Robust Adaptive Motion Control for Underactuated Marine Robots
door: G. Reza Nazmara, et al.
Gepubliceerd in: (2024-06-01)

Analysis and control of aquatic locomotion on robotic fish
door: Eric Purnama
Gepubliceerd in: (2014)

Analysis and control of aquatic locomotion on robotic fish
door: Poddar, Rohit
Gepubliceerd in: (2015)

Versatile Locomotion Planning and Control for Humanoid Robots
door: Junhyeok Ahn, et al.
Gepubliceerd in: (2021-08-01)

Robust motion control of a two wheeled mobile robot /
door: Osama Kanjou 1987, et al.
Gepubliceerd in: (2014)

Design and Dynamic Locomotion Control of Quadruped Robot with Perception-Less Terrain Adaptation
door: Lei Wang, et al.
Gepubliceerd in: (2022-01-01)