arxiv_ai 90% Match Research Paper Robotics Engineers,AI Researchers in Robotics,Humanoid Robot Developers,Motion Control Specialists 1 week ago

One-shot Humanoid Whole-body Motion Learning

robotics › robotics-rl

📄 Abstract

Abstract: Whole-body humanoid motion represents a cornerstone challenge in robotics, integrating balance, coordination, and adaptability to enable human-like behaviors. However, existing methods typically require multiple training samples per motion category, rendering the collection of high-quality human motion datasets both labor-intensive and costly. To address this, we propose a novel approach that trains effective humanoid motion policies using only a single non-walking target motion sample alongside readily available walking motions. The core idea lies in leveraging order-preserving optimal transport to compute distances between walking and non-walking sequences, followed by interpolation along geodesics to generate new intermediate pose skeletons, which are then optimized for collision-free configurations and retargeted to the humanoid before integration into a simulated environment for policy training via reinforcement learning. Experimental evaluations on the CMU MoCap dataset demonstrate that our method consistently outperforms baselines, achieving superior performance across metrics. Code will be released upon acceptance.

Authors (6)

Hao Huang

Geeta Chandra Raju Bethala

Shuaihang Yuan

Congcong Wen

Anthony Tzes

Yi Fang

Submitted

October 29, 2025

arXiv Category

cs.RO

arXiv PDF

Key Contributions

Proposes a novel approach for one-shot humanoid whole-body motion learning, enabling effective motion policies from a single target motion sample plus walking motions. It uses optimal transport and geodesic interpolation to generate intermediate poses, optimized for collision-free configurations and retargeted for RL training.

Business Value

Reduces the significant cost and effort associated with training humanoid robots, accelerating the development and deployment of robots capable of complex, human-like movements in various environments.

Paper Metadata

Innovation Type

Novel Motion Learning and Retargeting Method

Deployment Feasibility

Feasible within robotics research and development, requiring sophisticated simulation environments and potentially real-world robot hardware.

Limitations Addressed

Labor-intensive and costly collection of human motion datasets,Difficulty in learning complex whole-body motions,Need for multiple training samples per motion category

Technical Tags

Humanoid MotionWhole-body ControlOne-shot LearningReinforcement LearningOptimal TransportMotion RetargetingCollision AvoidanceRobotics Simulation

Research Topics

RoboticsMotion ControlReinforcement LearningHumanoid RobotsSimulation-to-Real Transfer

Methods & Architectures

One-shot Motion LearningOptimal TransportGeodesic InterpolationReinforcement LearningMotion RetargetingCollision-Free Optimization Reinforcement Learning Policy

Applications & Tasks

Robotics Humanoid Robot Control Automation Labor-intensive motion dataset collectionLearning complex whole-body humanoid motionsAchieving human-like balance and coordination Learning humanoid whole-body motion from a single sampleEnabling human-like robot behaviors

Datasets & Benchmarks

Datasets

CMU MoCap dataset

Motion QualityBalanceCoordinationAdaptabilityLearning Efficiency

Related Fields

RoboticsControl TheoryMachine LearningComputer AnimationReinforcement Learning

Keywords

Humanoid RobotsWhole-body MotionReinforcement LearningOne-shot LearningMotion ControlRoboticsOptimal TransportSimulationMotion RetargetingCollision AvoidanceHuman-like Motion

Academic Context

#Robotics#Motion Control#Reinforcement Learning#Humanoid Robots#Simulation-to-Real Transfer

Technology Stack

Frameworks & Libraries

PyBullet

Programming Languages

Python

Commercial Potential

Potential Products

Motion synthesis software for humanoid robotsRL training frameworks for robot controlMotion libraries for humanoid robot platforms

Target Industries

RoboticsManufacturingLogisticsHumanoid Robot Development

Use Case Examples

Training a humanoid robot to perform complex assembly tasks with human-like dexterity.Enabling humanoid robots to navigate and interact in unstructured environments.

Competitive Edge

Offers a significant improvement over existing methods by enabling motion learning from a single sample, drastically reducing data requirements and training time for humanoid robots.

Market Opportunity

Growing market for advanced robotics, particularly humanoid robots for various applications.

Revenue Models

Licensing motion control softwareproviding robotics development services.

Resource Requirements

Compute Needs

Requires substantial computational resources for RL training in simulation and potentially for motion optimization.

Data Requirements

Requires a single target motion sample and readily available walking motions; CMU MoCap dataset used for evaluation.

Deployment Constraints

Sim-to-real gap challenges.,Computational requirements for real-time control.,Safety considerations for physical robots.

Scalability

The approach aims to improve the scalability of learning complex motions by reducing data dependency.

Production Readiness

Maturity Level

Research/Development

Time to Market

4-8 years, for robust sim-to-real transfer and integration into commercial humanoid platforms.

Patent Potential

High, related to the novel one-shot motion learning technique, optimal transport application, and RL integration for humanoid control.

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