A translation approach to portable ontology specifications
Knowledge Acquisition - Special issue: Current issues in knowledge modeling
UML distilled (2nd ed.): a brief guide to the standard object modeling language
UML distilled (2nd ed.): a brief guide to the standard object modeling language
Machine Learning
PlantCare: An Investigation in Practical Ubiquitous Systems
UbiComp '02 Proceedings of the 4th international conference on Ubiquitous Computing
Artificial Intelligence: A Modern Approach
Artificial Intelligence: A Modern Approach
Integrated wireless sensor/actuator networks in an agricultural application
SenSys '04 Proceedings of the 2nd international conference on Embedded networked sensor systems
Ontology Alignment: Bridging the Semantic Gap (Semantic Web and Beyond)
Ontology Alignment: Bridging the Semantic Gap (Semantic Web and Beyond)
Vineyard Computing: Sensor Networks in Agricultural Production
IEEE Pervasive Computing
Development of field programmable modular wireless sensor network nodes for ambient systems
Computer Communications
A review of wireless sensors and networks' applications in agriculture
Computer Standards & Interfaces
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Our research has been performed in the context of the EU-funded R&D project PLANTS. In this paper, we describe an ontology-driven architecture for developing systems that can be used in precision agriculture applications. Central to our approach is the use of an ontology, which views plants and associated computation as an integral part and allows the interaction of plants and artefacts in the form of synergistic mixed societies. PLANTS ontology sets up a conceptual framework that combines the knowledge about sensors, actuators and other domain concepts available, on the one hand, and the biological studies about plant stressing and sensing mechanisms and consequent plant behaviour, on the other hand, to make plants a proactive component of agricultural systems.