Abstract
A domain-independent conceptual model that aims to be highly reusable across specific domain applications is provided by upper-level ontologies which usually describe abstract concepts. In this paper, the authors proposed Sup_Ont, a fundamental upper ontology. In this ontology, the structure of the universe shows the concept of reality that is defined to have an existence which is known as truth. The devised super ontology and hence the domain ontologies can be reused across applications because of the generalized representation scheme used that is an EHCPR. An extended hierarchical censored production rules (EHCPRs) system is a knowledge representation system for reasoning with real-life problems and a step towards a generalized representation system. An EHCPR is a unit of knowledge resulting in a knowledge base that shows modularity and hierarchy. Extended hierarchical censored production rules (EHCPRs) have been used to represent the knowledge in intelligent systems.
Highlights
The technology around us is growing at a very fast pace as so as the web
The devised super ontology and the domain ontologies can be reused across applications because of the generalized representation scheme used that is an extended hierarchical censored production rules (EHCPRs)
An EHCPR is a unit of knowledge resulting in a knowledge base that shows modularity and hierarchy
Summary
The technology around us is growing at a very fast pace as so as the web. We started with static web and in today’s world, we are talking about the semantic web. The inventor of the WWW, Tim Berners Lee, came up with the idea of the semantic web. He provided the means for annotation of Web resources with machine process-able metadata providing them with background meaning and knowledge. The Semantic Web can be considered to be made of the Knowledge Treasure (Jain & Jain, 2014). Ontology is discussed with the domain of electronic-devices that constitute terms that describe conceptual elements like transistors, operational amplifiers, and voltages and the relationship between these elements. Performing an ontological analysis of the domain effectively, an effective knowledge representation system and vocabulary need to be defined. The Upper ontologies are known as a top-level ontology that defines the universal concepts which are the same through all knowledge domains
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