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A containerised approach for multiform robotic applications.

Giuseppe Cotugno1, Rafael Afonso Rodrigues1, Graham Deacon1

  • 1Ocado Technology, Welwyn Garden City, United Kingdom.

Frontiers in Robotics and AI
|May 9, 2024
PubMed
Summary
This summary is machine-generated.

This study introduces a containerized approach to integrate diverse robotic software architectures, simplifying the inclusion of third-party contributions. The method offers flexibility and minimal computational overhead for scalable robotics.

Keywords:
microservicesrobot integrationrobot software designrobotic architecturesvirtualization

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Area of Science:

  • Robotics
  • Software Engineering
  • Computer Science

Background:

  • Robotic software architectures face challenges in scaling and integrating diverse components.
  • Traditional integration methods, like ROS, result in uniform systems hindering third-party contributions.
  • Virtualization offers potential but lacks established procedures in robotics.

Purpose of the Study:

  • To propose and evaluate a containerized approach for designing and integrating multiform robotic architectures.
  • To enhance existing robotic systems by facilitating the inclusion of third-party contributions.
  • To benchmark the integration complexity and computational performance of the proposed approach.

Main Methods:

  • Developed a containerized methodology for robotic architecture integration.
  • Augmented preexisting architectures with third-party contributions using containers.
  • Benchmarked the approach on the EU H2020 SecondHands robotic architecture.

Main Results:

  • The containerized approach demonstrated simplicity and flexibility in setup compared to non-virtualized systems.
  • Computational overhead was found to be negligible, with optimal resource utilization.
  • Successfully integrated third-party contributions into a complex robotic architecture.

Conclusions:

  • Containerization offers a viable solution for integrating multiform robotic architectures.
  • The proposed approach enhances flexibility and simplifies the integration of external modules in robotics.
  • This method paves the way for more scalable and adaptable robotic systems.