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

Alberto Olivares-Alarcos; Daniel Bebler; Alaa Khamis; Paulo Goncalves; Maki K. Habib; Julita Bermejo-Alonso; Marcos Barreto; Mohammed Diab; Jan Rosell; João Quintas; Joanna Olszewska; Hirenkumar Nakawala; Edison Pignaton; Amelie Gyrard; Stefano Borgo; Guillem Alenyà; Michael Beetz; L. I. Howard

doi:10.1017/S0269888919000237

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

Alberto Olivares-Alarcos
, Daniel Bebler
, Alaa Khamis
, Paulo Goncalves
, Maki K. Habib
, Julita Bermejo-Alonso
, Marcos Barreto
, Mohammed Diab
, Jan Rosell
, João Quintas
, Joanna Olszewska
, Hirenkumar Nakawala
, Edison Pignaton
, Amelie Gyrard
, Stefano Borgo
, Guillem Alenyà
, Michael Beetz
, L. I. Howard

Research output: Contribution to journal › Article › peer-review

107 Scopus citations

Abstract

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.

Original language	English
Article number	e29
Journal	Knowledge Engineering Review
Volume	34
DOIs	https://doi.org/10.1017/S0269888919000237
State	Published - 2019
Externally published	Yes

Bibliographical note

Publisher Copyright:
© Cambridge University Press, 2019.

ASJC Scopus subject areas

Software
Artificial Intelligence

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10.1017/S0269888919000237

Cite this

Olivares-Alarcos, A., Bebler, D., Khamis, A., Goncalves, P., Habib, M. K., Bermejo-Alonso, J., Barreto, M., Diab, M., Rosell, J., Quintas, J., Olszewska, J., Nakawala, H., Pignaton, E., Gyrard, A., Borgo, S., Alenyà, G., Beetz, M., & Howard, L. I. (2019). A review and comparison of ontology-based approaches to robot autonomy. Knowledge Engineering Review, 34, Article e29. https://doi.org/10.1017/S0269888919000237

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title = "A review and comparison of ontology-based approaches to robot autonomy",

abstract = "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.",

author = "Alberto Olivares-Alarcos and Daniel Bebler and Alaa Khamis and Paulo Goncalves and Habib, \{Maki K.\} and Julita Bermejo-Alonso and Marcos Barreto and Mohammed Diab and Jan Rosell and Jo{\~a}o Quintas and Joanna Olszewska and Hirenkumar Nakawala and Edison Pignaton and Amelie Gyrard and Stefano Borgo and Guillem Aleny{\`a} and Michael Beetz and Howard, \{L. I.\}",

note = "Publisher Copyright: {\textcopyright} Cambridge University Press, 2019.",

year = "2019",

doi = "10.1017/S0269888919000237",

language = "English",

volume = "34",

journal = "Knowledge Engineering Review",

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Olivares-Alarcos, A, Bebler, D, Khamis, A, Goncalves, P, Habib, MK, Bermejo-Alonso, J, Barreto, M, Diab, M, Rosell, J, Quintas, J, Olszewska, J, Nakawala, H, Pignaton, E, Gyrard, A, Borgo, S, Alenyà, G, Beetz, M & Howard, LI 2019, 'A review and comparison of ontology-based approaches to robot autonomy', Knowledge Engineering Review, vol. 34, e29. https://doi.org/10.1017/S0269888919000237

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T1 - A review and comparison of ontology-based approaches to robot autonomy

AU - Olivares-Alarcos, Alberto

AU - Bebler, Daniel

AU - Khamis, Alaa

AU - Goncalves, Paulo

AU - Habib, Maki K.

AU - Bermejo-Alonso, Julita

AU - Barreto, Marcos

AU - Diab, Mohammed

AU - Rosell, Jan

AU - Quintas, João

AU - Olszewska, Joanna

AU - Nakawala, Hirenkumar

AU - Pignaton, Edison

AU - Gyrard, Amelie

AU - Borgo, Stefano

AU - Alenyà, Guillem

AU - Beetz, Michael

AU - Howard, L. I.

PY - 2019

Y1 - 2019

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AB - 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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M1 - e29

ER -

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

Abstract

Bibliographical note

ASJC Scopus subject areas

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