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Hierarchical DLO Routing with Reinforcement Learning and In-Context Vision-language Models

robotics › manipulation

📄 Abstract

Abstract: Long-horizon routing tasks of deformable linear objects (DLOs), such as cables and ropes, are common in industrial assembly lines and everyday life. These tasks are particularly challenging because they require robots to manipulate DLO with long-horizon planning and reliable skill execution. Successfully completing such tasks demands adapting to their nonlinear dynamics, decomposing abstract routing goals, and generating multi-step plans composed of multiple skills, all of which require accurate high-level reasoning during execution. In this paper, we propose a fully autonomous hierarchical framework for solving challenging DLO routing tasks. Given an implicit or explicit routing goal expressed in language, our framework leverages vision-language models~(VLMs) for in-context high-level reasoning to synthesize feasible plans, which are then executed by low-level skills trained via reinforcement learning. To improve robustness in long horizons, we further introduce a failure recovery mechanism that reorients the DLO into insertion-feasible states. Our approach generalizes to diverse scenes involving object attributes, spatial descriptions, as well as implicit language commands. It outperforms the next best baseline method by nearly 50% and achieves an overall success rate of 92.5% across long-horizon routing scenarios.

Authors (5)

Mingen Li

Houjian Yu

Yixuan Huang

Youngjin Hong

Changhyun Choi

Submitted

October 22, 2025

arXiv Category

cs.RO

arXiv PDF

Key Contributions

This paper proposes a fully autonomous hierarchical framework for challenging DLO routing tasks. It leverages VLMs for in-context high-level reasoning to generate feasible plans, which are then executed by RL-trained low-level skills, incorporating failure recovery for improved robustness in long horizons.

Business Value

Enables automation of complex assembly tasks involving cables, wires, or tubes, leading to increased efficiency, reduced labor costs, and improved product quality in manufacturing and logistics.

Paper Metadata

Innovation Type

System/Methodological

Deployment Feasibility

Requires robotic hardware, sensors (vision), and a sophisticated control system. Integration into existing assembly lines is feasible but complex.

Limitations Addressed

Difficulty in long-horizon planning for robotic manipulation,Challenges in manipulating deformable linear objects (DLOs),Need for robust skill execution and failure recovery

Performance Gains

Improved success rates in long-horizon DLO routing tasks,Enhanced robustness through failure recovery

Technical Tags

deformable linear objects (DLOs)robot manipulationlong-horizon planningreinforcement learningvision-language models (VLMs)hierarchical frameworkin-context reasoningmulti-step plansfailure recovery

Research Topics

RoboticsManipulationAI PlanningReinforcement LearningVision-Language Models

Methods & Architectures

Hierarchical Reinforcement LearningVision-Language Models (VLMs)In-context LearningMulti-step PlanningSkill DecompositionFailure Recovery Mechanisms Vision-Language Models (VLMs)Reinforcement Learning Agents

Applications & Tasks

Robotics Industrial Automation Manufacturing Assembly Lines Long-horizon robotic manipulationHandling deformable objectsComplex task decompositionRobustness to failures DLO RoutingRobotic AssemblyAutomated Cable Management

Related Fields

RoboticsArtificial IntelligenceMachine LearningComputer VisionNatural Language ProcessingReinforcement Learning

Keywords

roboticsmanipulationdeformable linear objectsDLOreinforcement learningvision-language modelsVLMhierarchical planninglong-horizon tasksrobot assemblyfailure recoveryautomation

Academic Context

#Robotics#Manipulation#AI Planning#Reinforcement Learning#Vision-Language Models

Commercial Potential

Potential Products

Automated assembly systems for electronicsRobotic solutions for wiring harnessesSmart manufacturing systems

Target Industries

ManufacturingAutomotiveAerospaceElectronics AssemblyLogistics

Use Case Examples

Automated routing of cables in car manufacturingRobotic assembly of electronic devices with complex wiringAutomated installation of fiber optic cables

Competitive Edge

Offers a more autonomous and robust solution for DLO routing compared to traditional scripted or teleoperation methods.

Resource Requirements

Compute Needs

Significant computational resources for training RL agents and running VLM inference.

Data Requirements

Data for training RL skills, potentially simulation data, and data for VLM fine-tuning.

Deployment Constraints

Requires precise robot control, accurate perception, and robust failure detection mechanisms.

Scalability

Scalability depends on the ability to generalize learned skills and planning strategies to new DLOs and environments.

Production Readiness

Maturity Level

Research

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