Planning of Modular Fixtures in a Robotic Assembly System

Hossein Tohidi; Tarek N Al-Geddawy

doi:10.1016/j.procir.2015.12.090

Planning of Modular Fixtures in a Robotic Assembly System

Hossein Tohidi, Tarek N Al-Geddawy

Mechanical & Industrial Engineering

Research output: Contribution to journal › Conference article › peer-review

17 Scopus citations

Abstract

Increasing product varieties is beneficial for companies in terms of expanding the market and harmful in terms of increasing manufacturing costs. Designing and fabricating different fixtures for producing different products with different geometries is a significant portion of the manufacturing costs. To overcome to this problem in a mid-volume mid-variety robotic assembly system, an optimization model is developed to minimize hole-pattern modular fixtures' preparation time and efforts. Using this model, the best locations for placing different products and jigging-pins are determined, considering all possible part's translations and rotations on the holder. The model is solved by GAMS using the BARON solver for different examples to prove the efficacy of the proposed model.

Original language	English (US)
Pages (from-to)	252-257
Number of pages	6
Journal	Procedia CIRP
Volume	41
DOIs	https://doi.org/10.1016/j.procir.2015.12.090
State	Published - 2016
Event	48th CIRP International Conference on Manufacturing Systems, CIRP CMS 2015 - Ischia, Italy Duration: Jun 24 2015 → Jun 26 2015

Keywords

Mathematical programing
Modular fixtures
Nonlinear model
Optimization
Rotation
Translation

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abstract = "Increasing product varieties is beneficial for companies in terms of expanding the market and harmful in terms of increasing manufacturing costs. Designing and fabricating different fixtures for producing different products with different geometries is a significant portion of the manufacturing costs. To overcome to this problem in a mid-volume mid-variety robotic assembly system, an optimization model is developed to minimize hole-pattern modular fixtures' preparation time and efforts. Using this model, the best locations for placing different products and jigging-pins are determined, considering all possible part's translations and rotations on the holder. The model is solved by GAMS using the BARON solver for different examples to prove the efficacy of the proposed model.",

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AU - Al-Geddawy, Tarek N

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AB - Increasing product varieties is beneficial for companies in terms of expanding the market and harmful in terms of increasing manufacturing costs. Designing and fabricating different fixtures for producing different products with different geometries is a significant portion of the manufacturing costs. To overcome to this problem in a mid-volume mid-variety robotic assembly system, an optimization model is developed to minimize hole-pattern modular fixtures' preparation time and efforts. Using this model, the best locations for placing different products and jigging-pins are determined, considering all possible part's translations and rotations on the holder. The model is solved by GAMS using the BARON solver for different examples to prove the efficacy of the proposed model.

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KW - Nonlinear model

KW - Optimization

KW - Rotation

KW - Translation

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Planning of Modular Fixtures in a Robotic Assembly System

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Keywords

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