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Bibliographic Details
Main Authors: Katuwandeniya, Kavindie, Widhanapathirana, Samith Rajapaksha Jayasekara
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.07846
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author Katuwandeniya, Kavindie
Widhanapathirana, Samith Rajapaksha Jayasekara
author_facet Katuwandeniya, Kavindie
Widhanapathirana, Samith Rajapaksha Jayasekara
contents As the robotics systems increasingly integrate into daily life, from smart home assistants to the new-wave of industrial automation systems (Industry 4.0), there's an increasing need to bridge the gap between complex robotic systems and everyday users. The Robot Operating System (ROS) is a flexible framework often utilised in writing robot software, providing tools and libraries for building complex robotic systems. However, ROS's distributed architecture and technical messaging system create barriers for understanding robot status and diagnosing errors. This gap can lead to extended maintenance downtimes, as users with limited ROS knowledge may struggle to quickly diagnose and resolve system issues. Moreover, this deficit in expertise often delays proactive maintenance and troubleshooting, further increasing the frequency and duration of system interruptions. ROS Help Desk provides intuitive error explanations and debugging support, dynamically customized to users of varying expertise levels. It features user-centric debugging tools that simplify error diagnosis, implements proactive error detection capabilities to reduce downtime, and integrates multimodal data processing for comprehensive system state understanding across multi-sensor data (e.g., lidar, RGB). Testing qualitatively and quantitatively with artificially induced errors demonstrates the system's ability to proactively and accurately diagnose problems, ultimately reducing maintenance time and fostering more effective human-robot collaboration.
format Preprint
id arxiv_https___arxiv_org_abs_2507_07846
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle ROS Help Desk: GenAI Powered, User-Centric Framework for ROS Error Diagnosis and Debugging
Katuwandeniya, Kavindie
Widhanapathirana, Samith Rajapaksha Jayasekara
Robotics
As the robotics systems increasingly integrate into daily life, from smart home assistants to the new-wave of industrial automation systems (Industry 4.0), there's an increasing need to bridge the gap between complex robotic systems and everyday users. The Robot Operating System (ROS) is a flexible framework often utilised in writing robot software, providing tools and libraries for building complex robotic systems. However, ROS's distributed architecture and technical messaging system create barriers for understanding robot status and diagnosing errors. This gap can lead to extended maintenance downtimes, as users with limited ROS knowledge may struggle to quickly diagnose and resolve system issues. Moreover, this deficit in expertise often delays proactive maintenance and troubleshooting, further increasing the frequency and duration of system interruptions. ROS Help Desk provides intuitive error explanations and debugging support, dynamically customized to users of varying expertise levels. It features user-centric debugging tools that simplify error diagnosis, implements proactive error detection capabilities to reduce downtime, and integrates multimodal data processing for comprehensive system state understanding across multi-sensor data (e.g., lidar, RGB). Testing qualitatively and quantitatively with artificially induced errors demonstrates the system's ability to proactively and accurately diagnose problems, ultimately reducing maintenance time and fostering more effective human-robot collaboration.
title ROS Help Desk: GenAI Powered, User-Centric Framework for ROS Error Diagnosis and Debugging
topic Robotics
url https://arxiv.org/abs/2507.07846