Related papers: DemoHLM: From One Demonstration to Generalizable Humanoid Loco-Manipulation

DemoHLM: From One Demonstration to Generalizable Humanoid Loco-Manipulation

URL: http://arxiv.org/abs/2510.11258v1
Date: Mon, 13 Oct 2025 10:49:40 GMT
Title: DemoHLM: From One Demonstration to Generalizable Humanoid Loco-Manipulation
Authors: Yuhui Fu, Feiyang Xie, Chaoyi Xu, Jing Xiong, Haoqi Yuan, Zongqing Lu,
Abstract summary: We present DemoHLM, a framework for humanoid loco-manipulation on a real humanoid robot from a single demonstration in simulation.<n>whole-body controller maps whole-body motion commands to joint torques and provides omnidirectional mobility for the humanoid robot.<n> Experiments show a positive correlation between the amount of synthetic data and policy performance.
Score: 29.519071338337685
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Loco-manipulation is a fundamental challenge for humanoid robots to achieve versatile interactions in human environments. Although recent studies have made significant progress in humanoid whole-body control, loco-manipulation remains underexplored and often relies on hard-coded task definitions or costly real-world data collection, which limits autonomy and generalization. We present DemoHLM, a framework for humanoid loco-manipulation that enables generalizable loco-manipulation on a real humanoid robot from a single demonstration in simulation. DemoHLM adopts a hierarchy that integrates a low-level universal whole-body controller with high-level manipulation policies for multiple tasks. The whole-body controller maps whole-body motion commands to joint torques and provides omnidirectional mobility for the humanoid robot. The manipulation policies, learned in simulation via our data generation and imitation learning pipeline, command the whole-body controller with closed-loop visual feedback to execute challenging loco-manipulation tasks. Experiments show a positive correlation between the amount of synthetic data and policy performance, underscoring the effectiveness of our data generation pipeline and the data efficiency of our approach. Real-world experiments on a Unitree G1 robot equipped with an RGB-D camera validate the sim-to-real transferability of DemoHLM, demonstrating robust performance under spatial variations across ten loco-manipulation tasks.

Related papers

ULTRA: Unified Multimodal Control for Autonomous Humanoid Whole-Body Loco-Manipulation [55.467742403416175]
We introduce a physics-driven neural algorithm that translates large-scale motion capture to humanoid embodiments.<n>We learn a unified multimodal controller that supports both dense references and sparse task specifications.<n>Results show that ULTRA generalizes to autonomous, goal-conditioned whole-body loco-manipulation from egocentric perception.
arXiv Detail & Related papers (2026-03-03T18:59:29Z)
Imitating What Works: Simulation-Filtered Modular Policy Learning from Human Videos [56.510263910611684]
We tackle prehensile manipulation, in which tasks involve grasping an object before performing various post-grasp motions.<n>Human videos offer strong signals for learning the post-grasp motions, but they are less useful for learning the prerequisite grasping behaviors.<n>We present Perceive-Simulate-Imitate (PSI), a framework for training a modular manipulation policy using human video motion data.
arXiv Detail & Related papers (2026-02-13T18:59:10Z)
Humanoid Manipulation Interface: Humanoid Whole-Body Manipulation from Robot-Free Demonstrations [25.15848825594207]
We present the Humanoid Manipulation Interface (HuMI), a portable and efficient framework for learning diverse whole-body manipulation tasks.<n>HuMI enables robot-free data collection by capturing rich whole-body motion using portable hardware.<n>HuMI achieves a 3x increase in data collection efficiency compared to teleoperation and attains a 70% success rate in unseen environments.
arXiv Detail & Related papers (2026-02-06T12:10:47Z)
MiVLA: Towards Generalizable Vision-Language-Action Model with Human-Robot Mutual Imitation Pre-training [102.850162490626]
We propose MiVLA, a vision-language-action model empowered by human-robot mutual imitation pre-training.<n>We show that MiVLA achieves strong improved generalization capability, outperforming state-of-the-art VLAs.
arXiv Detail & Related papers (2025-12-17T12:59:41Z)
METIS: Multi-Source Egocentric Training for Integrated Dexterous Vision-Language-Action Model [36.82365894983052]
A major bottleneck lies in the scarcity of large-scale, action-annotated data for dexterous skills.<n>We propose METIS, a vision-language-action model for dexterous manipulation pretrained on egocentric datasets.<n>Our method demonstrates exceptional dexterous manipulation capabilities, achieving highest average success rate in six real-world tasks.
arXiv Detail & Related papers (2025-11-21T16:32:36Z)
OmniRetarget: Interaction-Preserving Data Generation for Humanoid Whole-Body Loco-Manipulation and Scene Interaction [76.44108003274955]
A dominant paradigm for teaching humanoid robots complex skills is to retarget human motions as kinematic references to train reinforcement learning policies.<n>We introduce OmniRetarget, an interaction-preserving data generation engine based on an interaction mesh.<n>By minimizing the Laplacian deformation between the human and robot meshes, OmniRetarget generates kinematically feasible trajectories.
arXiv Detail & Related papers (2025-09-30T17:59:02Z)
Dexplore: Scalable Neural Control for Dexterous Manipulation from Reference-Scoped Exploration [58.4036440289082]
Hand-object motion-capture (MoCap) offer large-scale, contact-rich demonstrations and hold promise for dexterous robotic scopes.<n>We introduce Dexplore, a unified single-loop optimization that performs repositories and tracking to learn robot control policies directly from MoCap at scale.
arXiv Detail & Related papers (2025-09-11T17:59:07Z)
H-RDT: Human Manipulation Enhanced Bimanual Robotic Manipulation [27.585828712261232]
H-RDT (Human to Robotics Diffusion Transformer) is a novel approach that leverages human manipulation data to enhance robot manipulation capabilities.<n>Our key insight is that large-scale egocentric human manipulation videos with paired 3D hand pose annotations provide rich behavioral priors that capture natural manipulation strategies.<n>We introduce a two-stage training paradigm: (1) pre-training on large-scale egocentric human manipulation data, and (2) cross-embodiment fine-tuning on robot-specific data with modular action encoders and decoders.
arXiv Detail & Related papers (2025-07-31T13:06:59Z)
Sim-to-Real Reinforcement Learning for Vision-Based Dexterous Manipulation on Humanoids [56.892520712892804]
We introduce a practical sim-to-real RL recipe that trains a humanoid robot to perform three dexterous manipulation tasks.<n>We demonstrate high success rates on unseen objects and robust, adaptive policy behaviors.
arXiv Detail & Related papers (2025-02-27T18:59:52Z)
Learning Multi-Modal Whole-Body Control for Real-World Humanoid Robots [13.229028132036321]
Masked Humanoid Controller (MHC) supports standing, walking, and mimicry of whole and partial-body motions.<n>MHC imitates partially masked motions from a library of behaviors spanning standing, walking, optimized reference trajectories, re-targeted video clips, and human motion capture data.<n>We demonstrate sim-to-real transfer on the real-world Digit V3 humanoid robot.
arXiv Detail & Related papers (2024-07-30T09:10:24Z)
Learning a Universal Human Prior for Dexterous Manipulation from Human Preference [35.54663426598218]
We propose a framework that learns a universal human prior using direct human preference feedback over videos. A task-agnostic reward model is trained through iteratively generating diverse polices and collecting human preference over the trajectories. Our method empirically demonstrates more human-like behaviors on robot hands in diverse tasks including even unseen tasks.
arXiv Detail & Related papers (2023-04-10T14:17:33Z)
Real-World Humanoid Locomotion with Reinforcement Learning [92.85934954371099]
We present a fully learning-based approach for real-world humanoid locomotion. Our controller can walk over various outdoor terrains, is robust to external disturbances, and can adapt in context.
arXiv Detail & Related papers (2023-03-06T18:59:09Z)
Model Predictive Control for Fluid Human-to-Robot Handovers [50.72520769938633]
Planning motions that take human comfort into account is not a part of the human-robot handover process. We propose to generate smooth motions via an efficient model-predictive control framework. We conduct human-to-robot handover experiments on a diverse set of objects with several users.
arXiv Detail & Related papers (2022-03-31T23:08:20Z)
Deep Imitation Learning for Bimanual Robotic Manipulation [70.56142804957187]
We present a deep imitation learning framework for robotic bimanual manipulation. A core challenge is to generalize the manipulation skills to objects in different locations. We propose to (i) decompose the multi-modal dynamics into elemental movement primitives, (ii) parameterize each primitive using a recurrent graph neural network to capture interactions, and (iii) integrate a high-level planner that composes primitives sequentially and a low-level controller to combine primitive dynamics and inverse kinematics control.
arXiv Detail & Related papers (2020-10-11T01:40:03Z)

This list is automatically generated from the titles and abstracts of the papers in this site.