The concept of an automatic assembly line for microscope objectives, based on adaptive selection of their components

Latyev, S. M.; Smirnov, A. P.; Воронин, А. А.; Padun, Boris S.; Yablochnikov, Eugeny I.; Frolov, Dmitry N.; Tabachkov, A. G.; Theska, René; Zocher, P.

doi:10.1364/jot.76.000436

Cited by 4 publications

(3 citation statements)

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“…The results of the virtual assembly are then used in the real assembly of pre-identified parts into subassemblies, and an algorithm for managing the assembly line is formed. The authors of [12] tested this approach and developed a software system and an experimental line. The assembly and adjustment are final processes in terms of organization of the production system under consideration.…”

Section: Methodsmentioning

confidence: 99%

Development of an industrial cyber-physical platform for small series production using digital twins

Yablochnikov

Chukichev

Timofeeva

et al. 2021

Phil. Trans. R. Soc. A.

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The article describes an industrial cyber-physical platform for small series production using digital twins under development at ITMO University (Saint Petersburg, Russia). The platform is based on the following approaches: group technology, adaptive and selective assembling, and digital twin of production systems and processes. The article presents a mechanism for constructing a unified manufacturing process, and results of an integrated multiscale simulation of an injection moulding process. The issues of ensuring identification and monitoring of objects of the industrial cyber-physical platform are considered. Specific service applications required to implement the smart product concept are discussed. The combination of the considered technologies is used to create digital twins of production system objects. All humans that have different roles in the product value stream can interact with the industrial cyber-physical platform at the three levels, receiving support in performing their tasks. This article is part of the theme issue ‘Towards symbiotic autonomous systems’.

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Section: Methodsmentioning

confidence: 99%

Development of an industrial cyber-physical platform for small series production using digital twins

Yablochnikov

Chukichev

Timofeeva

et al. 2021

Phil. Trans. R. Soc. A.

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show abstract

“…При сборке серийной продукции возможен вариант, при котором контроль величины и направления децентрировки осуществ-ляется заранее на стадии вклейки линзы в оправу. В этом случае возможна адаптивная селекция компо-нентов для сборки изделий с заданными показателями качества изображения [4].…”

Section: рис 3 блок-схема алгоритма программы моделирования процессunclassified

“…Однако при повышенных требованиях к центрировкам без окончательной юстировки изделия невозможно добиться требуемого качества изображения объектива. При окончательной сборке объективов при неудовлетворительном качестве изображения часто ис-пользуют метод юстировки по дифракционному изображению точки, при котором производят вращение оправ с линзами для взаимной компенсации остаточной децентрировки [4,5]. При этом пытаются до-биться, чтобы кома для изображения осевой точки предмета была минимальна.…”

Section: Introductionunclassified

Approach to automation of lens components centering for assembling of different design objectives

Пименов¹

2016

Naučno-teh. vestn. inf. tehnol. meh. opt.

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Cognition-Enhanced, Self-optimizing Assembly Systems

Schmitt

Corves

Loosen

et al. 2017

Integrative Production Technology

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The concept of an automatic assembly line for microscope objectives, based on adaptive selection of their components

Cited by 4 publications

References 0 publications

Development of an industrial cyber-physical platform for small series production using digital twins

Development of an industrial cyber-physical platform for small series production using digital twins

Approach to automation of lens components centering for assembling of different design objectives

Cognition-Enhanced, Self-optimizing Assembly Systems

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