Proceedings of the Eighteenth International Conference on Principles of Knowledge Representation and Reasoning 2021
DOI: 10.24963/kr.2021/73
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Flexible Robotic Assembly Based on Ontological Representation of Tasks, Skills, and Resources

Abstract: Technology has sufficiently matured to enable, in principle, flexible and autonomous robotic assembly systems. However, in practice, it requires making all the relevant (implicit) knowledge that system engineers and workers have – about products to be assembled, tasks to be performed, as well as robots and their skills – available to the system explicitly. Only then can the planning and execution components of a robotic assembly pipeline communicate with each other in the same language and solve tasks autonomo… Show more

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Cited by 7 publications
(4 citation statements)
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“…Beyond mere search, machine-actionable descriptions also allow to further automate tasks heavily relying on expert knowledge. An example is matching complex requirements with an existing supply: In the project Factory of the Future 17 , we described the capabilities of individual robots to make allocations for a sequence of tasks to be performed [30]. In another, still ongoing project, we want to suggest suitable ways of manufacturing for requested parts.…”
Section: Knowledge-aware Systemsmentioning
confidence: 99%
“…Beyond mere search, machine-actionable descriptions also allow to further automate tasks heavily relying on expert knowledge. An example is matching complex requirements with an existing supply: In the project Factory of the Future 17 , we described the capabilities of individual robots to make allocations for a sequence of tasks to be performed [30]. In another, still ongoing project, we want to suggest suitable ways of manufacturing for requested parts.…”
Section: Knowledge-aware Systemsmentioning
confidence: 99%
“…However, such mapping would require an universal information representation among all employed skills [44]. To lay a foundation for that, skills and their primitives could be defined in standards such as AutomationML or other standards, such as the Factory of the Future ontology [87]. Within this aspect, it is worth noting that industrial applications initially preferred Automation ML (AML) as information representation and this is also visible in Fig.…”
Section: Trends and Outlooksmentioning
confidence: 99%
“…On one hand, from the manufacturing domain where the concept of Plug-and-Work based on PPR [8] describes capabilities at the shop floor. On the other hand, from the robotics domain, where ontologies have been defined to represent robots' capabilities necessary to solve complex steps like the assembly of a chainsaw as described in the FoF ontology [9]. This resulted in the architecture shown in Fig.…”
Section: Architecture and Definitions Of Termsmentioning
confidence: 99%
“…However, such mapping would require an universal information representation among all employed skills [51]. To lay a foundation for that, skills and their primitives could be defined in industrial standards such as AML like in [5] or definitions like the FoF ontology [9]. Within this aspect, it is worth noting that industrial applications initially preferred AML as information representation and this is also visible in Fig.…”
Section: Trends and Outlooksmentioning
confidence: 99%