Simulation-based potential analysis of line-less assembly systems in the automotive industry

Rachner, Jonas; Kaven, Lea; Voet, Florian; Göppert, Amon; Schmitt, Robert

doi:10.36227/techrxiv.19772977.v1

Cited by 3 publications

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“…To fully exploit the flexibility of the concept of LAS, the DT must base on a modular information model with standardized interfaces for interoperable data exchange allowing the fast integration of new entities (Göppert et al, 2021a). Since the benefits and potentials of the concept of LAS have been investigated and approved in simulations (Schönemann et al, 2015;Hofmann et al, 2019;Buckhorst and Schmitt, 2020;Hüttemann, 2021;Rachner et al, 2022b), current research is concerned with the implementation of LASs as a cyber-physical production system (CPPS). CPPS consists of intelligent and connected assets and subsystems that acquire information from their production environment and act autonomously in response to internal and external changes in the production system (Monostori et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

“…To satisfy the criteria of interoperability, the DTs are evolved following the methodology of the Digital Twin Pipeline introduced by (Göppert et al, 2021a). As part of the research project "AIMFREE" (Rachner et al, 2022a), a LAS demonstrator is built and installed where several variants of a car's drive battery module are assembled. Following the production paradigm of line-less assembly, the CPPS consists of multiple partially automated assembly stations connected by AGVs that handle all logistics processes.…”

Section: Introductionmentioning

confidence: 99%

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Industrial applications of a modular software architecture for line-less assembly systems based on interoperable digital twins

et al. 2023

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In manufacturing, rising demands for customized products have led to increased product variance and shortened product life cycles. In assembly lines, an increased variant diversity impedes the product flow. As a result, the utilization of assembly resources decreases, and production costs grow. An approach to increase the flexibility and adaptability of the assembly system is the implementation of the concept of line-less assembly. In the first step, the assembly line is dissolved. Then, stations are reallocated and linked by automated guided vehicles resulting in a loosely coupled layout, for example, a parallelization and interconnection of multiple lines or a matrix layout. A key requirement for the successful operation and control of a line-less assembly system is the collection and correct interpretation of data. To fully exploit the flexibility and adaptability of the concept of line-less assembly, a software architecture for planning and control must base on an information model allowing the fast integration of all shop floor assets and other data resources. Therefore, a modular data model with standardized interfaces for interoperable data exchange like a digital twin is needed. The aim of this paper is the development and implementation of a software architecture for planning and control of a line-less assembly system. Moreover, the architecture should integrate an interoperable digital twin of the physical system. To satisfy the criteria of interoperability and fast deployment, the digital twins are evolved following the methodology of a digital twin pipeline. Furthermore, a physical demonstrator serves as a testbed for the developed software architecture and digital twins. On the level of production planning and control, relevant industrial applications are identified and implemented in the form of use cases to show the functionality of the line-less assembly system as cyber-physical production system.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Industrial applications of a modular software architecture for line-less assembly systems based on interoperable digital twins

et al. 2023

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“…Bisher wurden die Potenziale der agilen, frei verketteten Montage meist durch Simulationen untersucht (wie in [5][6][7]…”

Section: Introductionunclassified

Agile, frei verkettete Montage real erleben/Experiencing an agile, line-less assembly

Rachner¹,

Wang²,

Mathews³

et al. 2023

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Im Forschungsprojekt „Aimfree“ wurde eine agile, frei verkettete Montage am Beispiel einer hoch skalierbaren und praxisnahen Batteriemontage realisiert. Durch taktzeitunabhängige Produktrouten und rekonfigurierbare Stationstechnik wurde eine Steigerung der Flexibilität und Resilienz erzielt. Befähigt wurde dies durch die ganzheitliche Integration der intelligenten Planung und Steuerung, des autonomen Fahrens und einer rekonfigurierbaren Infrastruktur. The research project ‘Aimfree’ puts an agile, line-less assembly system into practice based on a highly scalable and praxis-oriented battery assembly. An increase in flexibility and resilience is achieved through cycle-time-independent product routes and reconfigurable station technology. This was made possible by the holistic integration of intelligent planning and control, autonomous driving, and reconfigurable infrastructure.

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Simulation-based optimization of product integrations in line-less assembly systems based on digital twins

Rachner,

Manschein,

Göppert

et al. 2023

Procedia CIRP

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Simulation-based potential analysis of line-less assembly systems in the automotive industry

Cited by 3 publications

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Industrial applications of a modular software architecture for line-less assembly systems based on interoperable digital twins

Industrial applications of a modular software architecture for line-less assembly systems based on interoperable digital twins

Agile, frei verkettete Montage real erleben/Experiencing an agile, line-less assembly

Simulation-based optimization of product integrations in line-less assembly systems based on digital twins

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