QHAR: Q-Holonic-Based ARchitecture for Self-Configuration of Cyber–Physical Production Systems

Industry 5.0 changes the paradigm of the current production model, with repercussions throughout the value chain, and opens up opportunities for new approaches that include reducing waste to optimize the use of the planet’s resources. This paper proposes a functional and executable model that implements a Holonic Manufacturing System (HMS) architecture inspired by the I5.0 guidelines. This architecture presents the factory floor as a service provider for the product to be built, intending to make the manufacturing process adaptable to changes. The model uses Reference nets as the modeling language, a high-level class of Petri nets, Java programming language as the annotation language, and free tool support. The model can be used to perform software-level simulations and can also be interconnected to existing physical devices using Internet of things technologies, enabling interactions between Cyber–Physical Systems (CPSs). It thus allows for the control of the shop floor and the reuse of the current machine park to make its adoption more sustainable. The model was used to generate several simulation results, which are presented and analyzed, thus demonstrating the model’s usefulness.

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“…In recent years, more holonic architectures have been proposed, e.g., QHAR [20], ADACOR [21], ADACOR2 [22], and HCBA [23].…”

Section: Related Workmentioning

confidence: 99%

Graphic Model for Shop Floor Simulation and Control in the Context of Industry 5.0

2023

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Effective Implementation of CPPS Self-reconfiguration Functionality: Research Review

Macherki

Diallo

Guizani

et al. 2022

Lecture Notes in Mechanical Engineering

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An Altruistic-Based Framework to Support Collaborative Healing of Manufacturing Resources in a Self-Organized Shop-Floor

Estrada-Jimenez,

Kalateh,

Nikghadam-Hojjati

et al. 2024

IEEE Access

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In manufacturing, biologicalisation defines the analysis of biological patterns as a source of inspiration to model intelligent manufacturing systems. This analysis is highly desirable as an answer to the increasing complexity of modeling current engineering solutions which are required to be self-organized, cooperative, and autonomous. Building on this line of research, our paper introduces a framework inspired by the notion of "reciprocal altruism" observed in species like vampire bats. The goal of this framework is twofold; first, to showcase the bio-inspired methodological guidelines of altruism in a manufacturing context. Second, to foster cooperative behaviors among its constitutive resources (equipment, machine, or robot that is capable of autonomously performing a manufacturing task). The core idea revolves around the assignment of two roles: altruistic/donors and recipients. In this context, altruistic/donors are individuals willing to share their resources or capabilities with those in need, even at the potential cost of their own fitness. We believe that this concept has versatile applications in various manufacturing scenarios, ranging from peer-to-peer energy sharing among mobile robots to load sharing and even tool sharing. In our work, we instantiate the control logic, functionalities, and proof of concept of this altruistic approach, focusing on tool-sharing as an illustrative application. Our preliminary results demonstrate an improvement when comparing the altruistic approach with a manual one. This improvement is particularly evident when considering potential production downtime and production rate fluctuations caused by tool defects. These findings underscore the tangible benefits that bio-inspired solutions can offer in addressing the ongoing challenges of smart manufacturing, especially in terms of engineering design.

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QHAR: Q-Holonic-Based ARchitecture for Self-Configuration of Cyber–Physical Production Systems

Cited by 5 publications

References 35 publications

Graphic Model for Shop Floor Simulation and Control in the Context of Industry 5.0

Graphic Model for Shop Floor Simulation and Control in the Context of Industry 5.0

Effective Implementation of CPPS Self-reconfiguration Functionality: Research Review

An Altruistic-Based Framework to Support Collaborative Healing of Manufacturing Resources in a Self-Organized Shop-Floor

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