Daniel Beßler scite author profile

Within the next decades, robots will need to be able to execute a large variety of tasks autonomously in a large variety of environments. To relax the resulting programming effort, a knowledge-enabled approach to robot programming can be adopted to organize information in re-usable knowledge pieces. However, for the ease of reuse, there needs to be an agreement on the meaning of terms. A common approach is to represent these terms using ontology languages that conceptualize the respective domain. In this work, we will review projects that use ontologies to support robot autonomy. We will systematically search for projects that fulfill a set of inclusion criteria and compare them with each other with respect to the scope of their ontology, what types of cognitive capabilities are supported by the use of ontologies, and which is their application domain.

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Foundations of the Socio-Physical Model of Activities (SOMA) for Autonomous Robotic Agents1

Beßler

Porzel

Pomarlan

et al. 2021

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In this paper, we present foundations of the Socio-physical Model of Activities (SOMA). SOMA represents both the physical as well as the social context of everyday activities. Such tasks seem to be trivial for humans, however, they pose severe problems for artificial agents. For starters, a natural language command requesting something will leave many pieces of information necessary for performing the task unspecified. Humans can solve such problems fast as we reduce the search space by recourse to prior knowledge such as a connected collection of plans that describe how certain goals can be achieved at various levels of abstraction. Rather than enumerating fine-grained physical contexts SOMA sets out to include socially constructed knowledge about the functions of actions to achieve a variety of goals or the roles objects can play in a given situation. As the human cognition system is capable of generalizing experiences into abstract knowledge pieces applicable to novel situations, we argue that both physical and social context need be modeled to tackle these challenges in a general manner. The central contribution of this work, therefore, lies in a comprehensive model connecting physical and social entities, that enables flexibility of executions by the robotic agents via symbolic reasoning with the model. This is, by and large, facilitated by the link between the physical and social context in SOMA where relationships are established between occurrences and generalizations of them, which has been demonstrated in several use cases in the domain of everyday activites that validate SOMA.

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SkillMaN — A skill-based robotic manipulation framework based on perception and reasoning

Diab

Pomarlan

Beßler

et al. 2020

Robotics and Autonomous Systems

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Open-EASE: A Cloud-Based Knowledge Service for Autonomous Learning

et al. 2015

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Daniel Beßler

Know Rob 2.0 — A 2nd Generation Knowledge Processing Framework for Cognition-Enabled Robotic Agents

A review and comparison of ontology-based approaches to robot autonomy

Foundations of the Socio-Physical Model of Activities (SOMA) for Autonomous Robotic Agents1

SkillMaN — A skill-based robotic manipulation framework based on perception and reasoning

Open-EASE: A Cloud-Based Knowledge Service for Autonomous Learning

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