A System Architecture for CAD-Based Robotic Assembly With Sensor-Based Skills

Pane, Yudha; Arbo, Mathias Hauan; Aertbeliën, Erwin; Decré, Wilm

doi:10.1109/tase.2020.2980628

Cited by 8 publications

(1 citation statement)

References 31 publications

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“…Optimized by the algorithm "ant colony optimization", where even the physical characteristics of the manipulator were considered, and the robot trajectory was generated [13]. Further, tolerances from CAD models and force sensors have been used to feel and verify the assembly [14]. Another approach is to link product design directly into assemblies by machine-readable answers to queries by object-oriented and feature-based data modeling, divided into five different ontologies, part relationships, mating, joint, and handling features [15,16].…”

Section: Related Workmentioning

confidence: 99%

From CAD to Plug & Produce - A generic structure for the integration of standard industrial robots into agents

Nilsson

Danielsson²,

Svensson³

2023

Preprint

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Industries of low batches or one-off manufacturing aim for automation that is competitive enough to adapt to new or modified products daily through in-house knowledge. A knowledge that focuses on manufacturing processes, not on machine function programming. To solve this a complete set of actions that utilize seamless data transfer from product design to a Plug & Produce automation concept is proposed together with a generic structure for the integration of standard industrial robots into agents. This structure enables agents to handle their local reference coordinate systems and locations relative to a global perspective. Seamless utilization of data from product designs to Plug & Produce will simplify and shorten the time of digital development through concurrently usable text-based and graphical configuration tools of a configurable multi-agent system. Needed data extracts directly from the product design as requirements of operational goals. Extraction of data from the product design, sequence of goals, and process plans, which are recipes of how to solve goals, can by this concept be configured by in-house knowledge that has the process knowledge but not necessarily programming competence.

show abstract

Section: Related Workmentioning

confidence: 99%

From CAD to Plug & Produce - A generic structure for the integration of standard industrial robots into agents

Nilsson

Danielsson²,

Svensson³

2023

Preprint

View full text Add to dashboard Cite

show abstract

From CAD to Plug & Produce

Nilsson,

Danielsson,

Svensson

2023

Int J Adv Manuf Technol

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Industries of low-batches or one-off manufacturing aim for automation that is competitive enough to adapt to new or modified products daily through in-house knowledge that focuses on manufacturing processes and not on machine function programming. To solve this, a complete set of actions that utilize seamless data transfer from product design in CAD to a Plug & Produce automation concept is proposed together with a generic structure for the integration of standard industrial robots into agents. This structure enables agents to handle their local reference coordinate systems and locations relative to a global perspective. Seamless utilization of data from product designs to Plug & Produce will simplify and shorten the time of digital development through concurrently usable text-based and graphical configuration tools of a configurable multi-agent system. Needed data extracts directly from the product design as requirements of operational goals. Extraction of data from the product design, sequence of goals, and process plans, which are recipes of how to solve goals, can by this concept be configured by in-house knowledge that has the process knowledge but not necessarily programming competence.

show abstract

Data driven automatic parameter inference for robotic assembly programs

et al. 2021

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A System Architecture for CAD-Based Robotic Assembly With Sensor-Based Skills

Cited by 8 publications

References 31 publications

From CAD to Plug & Produce - A generic structure for the integration of standard industrial robots into agents

From CAD to Plug & Produce - A generic structure for the integration of standard industrial robots into agents

From CAD to Plug & Produce

Data driven automatic parameter inference for robotic assembly programs

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A System Architecture for CAD-Based Robotic Assembly With Sensor-Based Skills

Cited by 8 publications

References 31 publications

From CAD to Plug &amp; Produce - A generic structure for the integration of standard industrial robots into agents

From CAD to Plug &amp; Produce - A generic structure for the integration of standard industrial robots into agents

From CAD to Plug & Produce

Data driven automatic parameter inference for robotic assembly programs

Contact Info

Product

Resources

About

From CAD to Plug & Produce - A generic structure for the integration of standard industrial robots into agents

From CAD to Plug & Produce - A generic structure for the integration of standard industrial robots into agents