Software-defined mobile supply chain

Software-defined mobile supply chain

This project explores the concept of a mobile supply chain, where manufacturing processes are performed in transit to reduce lead times, optimize resource utilization, and address peak demand. My core research focuses on developing a flexible and adaptable software architecture for robotic systems that enables automated, on-the-fly manufacturing within a dynamic transportation environment. This project aims to lay the foundation for a more responsive and resilient supply chain paradigm.

Demo Grammar design page

Software-Defined Mobile Supply Chains: Rebalancing Resilience and Efficiency in Production Systems RobotRAGs: A Reference Attribute Grammar-based Integration Approach for Robotic Assembly Lines

(Alarcon-Gerbier et al., 2022) (Zhao et al., 2023)

References

2023

  1. RobotRAGs: A reference attribute grammar-based integration approach for robotic assembly lines
    Wanqi Zhao, Johannes Mey, René Schöne, and 2 more authors
    In 2023 49th Euromicro Conference on Software Engineering and Advanced Applications (SEAA), 2023

2022

  1. Software-defined mobile supply chains: Rebalancing resilience and efficiency in production systems
    Eduardo Alarcon-Gerbier, Zarina Chokparova, Nassim Ghondaghsaz, and 4 more authors
    Sustainability, 2022