TY - GEN
T1 - Extending the Common Greenhouse Ontology with Incident Reporting from Autonomous Systems
AU - Eichhorn, Tim
AU - Chalan, Ghusen
AU - van Roozendaal, Simon
AU - Reil, Jens
AU - van Ee, Tim
AU - Moreira, João Rebelo
AU - Sales, Tiago Prince
N1 - Publisher Copyright:
© 2024 Copyright for this paper by its authors.
PY - 2024
Y1 - 2024
N2 - This paper presents the development of an extension to the Common Greenhouse Ontology (CGO) to enhance greenhouse automation, specifically focusing on incident reporting from autonomous systems. This research addresses the evolving landscape of technology in greenhouse operations and the need to support semantic interoperability among various components within a greenhouse ecosystem. By extending the CGO to accommodate robot-based autonomous systems, such as autonomous systems to combat diseases in crops and horticultural indoor positioning systems, this study aims to improve data transfer, understanding, and communication in smart horticulture projects. By designing the CGO extension based on practical implementations within the smart horticulture initiative of TNO and Hortivation, we demonstrate the effectiveness of the extended CGO for autonomous systems in enabling collaboration and standardised communication. The paper concludes by discussing the significance of the ontology extension in driving innovation and efficiency in greenhouse automation, while also highlighting areas for future exploration and refinement.
AB - This paper presents the development of an extension to the Common Greenhouse Ontology (CGO) to enhance greenhouse automation, specifically focusing on incident reporting from autonomous systems. This research addresses the evolving landscape of technology in greenhouse operations and the need to support semantic interoperability among various components within a greenhouse ecosystem. By extending the CGO to accommodate robot-based autonomous systems, such as autonomous systems to combat diseases in crops and horticultural indoor positioning systems, this study aims to improve data transfer, understanding, and communication in smart horticulture projects. By designing the CGO extension based on practical implementations within the smart horticulture initiative of TNO and Hortivation, we demonstrate the effectiveness of the extended CGO for autonomous systems in enabling collaboration and standardised communication. The paper concludes by discussing the significance of the ontology extension in driving innovation and efficiency in greenhouse automation, while also highlighting areas for future exploration and refinement.
KW - Autonomous systems
KW - Common greenhouse ontology
KW - Incident reporting
KW - Semantic interoperability
UR - http://www.scopus.com/inward/record.url?scp=85214579036&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:85214579036
T3 - CEUR workshop proceedings
BT - JOWO 2024 - The Joint Ontology Workshops
A2 - Oliveira, Ítalo
A2 - Barcelos, Pedro Paulo F.
A2 - Calhau, Rodrigo
A2 - Fonseca, Claudenir M.
A2 - Righetti, Guendalina
PB - CEUR
T2 - 2024 Joint Ontology Workshops - Episode X: The Tukker Zomer of Ontology, and Satellite Events, JOWO 2024
Y2 - 15 July 2024 through 19 July 2024
ER -