NÝVLT, Vladimír and Radimír NOVOTNÝ. Ontology as a Tool for Building Life Cycle Modelling. Online. In Drusa M.,Coisson E.,Marschalko M.,Dabija A.-M.,Rybak J.,Decky M.,Segalini A.,Yilmaz I. 3rd World Multidisciplinary Civil Engineering, Architecture, Urban Planning Symposium, WMCAUS 2018, Conference proceedings in IOP Conference Series: Risk management and Mitigation Planning, Volume 471, Issue 10. 1. vyd. Spojené Království: Institute of Physics Publishing, 2019, p. nestránkováno, 8 pp. ISSN 1757-8981. Available from: https://dx.doi.org/10.1088/1757-899X/471/10/102007. |
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@inproceedings{48441, author = {Nývlt, Vladimír and Novotný, Radimír}, address = {Spojené Království}, booktitle = {3rd World Multidisciplinary Civil Engineering, Architecture, Urban Planning Symposium, WMCAUS 2018, Conference proceedings in IOP Conference Series: Risk management and Mitigation Planning, Volume 471, Issue 10}, doi = {http://dx.doi.org/10.1088/1757-899X/471/10/102007}, edition = {1. vyd.}, editor = {Drusa M.,Coisson E.,Marschalko M.,Dabija A.-M.,Rybak J.,Decky M.,Segalini A.,Yilmaz I.}, keywords = {Modelling; BIM; taxonomy; ontology; Life cycle}, howpublished = {elektronická verze "online"}, language = {eng}, location = {Spojené Království}, pages = {nestránkováno}, publisher = {Institute of Physics Publishing}, title = {Ontology as a Tool for Building Life Cycle Modelling}, year = {2019} }
TY - JOUR ID - 48441 AU - Nývlt, Vladimír - Novotný, Radimír PY - 2019 TI - Ontology as a Tool for Building Life Cycle Modelling PB - Institute of Physics Publishing CY - Spojené Království KW - Modelling KW - BIM KW - taxonomy KW - ontology KW - Life cycle N2 - In this on research-based article, models presented further are representing complex concepts and facilitating their understanding. The models describe the categorization of the recorded knowledge obtained from the analysis of the monitored processes. Some of these models are descriptive (for example, the Venn diagram representing the interconnection of BIM spaces), others are predictive (e.g. a model representing the effects of BIM on the life cycle of a project), and others will be instructive-clarifying the sequence of actions that follow on to achieve a predefined output, such as a workflow model, representing authorization, identification, classification, aggregation, and usage. We can look at BIM as a framework modelling set of minimal sets of principles needed to model the basic building characteristics, along with a clear categorization of knowledge in identified and recorded models. Taxonomy is an effective and efficient way to organize and consolidate knowledge. A well-structured taxonomy allows for "meaningful gathering of experience". As we develop specialized taxonomies for organizing BIM domain knowledge, we will try to adopt the guidelines introduced by research. That is, the taxonomy is expected to be complex and complete; including classes that covering all the phenomena of our interest; based on decision-making rules, which are simple and stingy to assign instances to classes; and classes should be mutually exclusive. Moreover, because taxonomy is here as a tool for better understanding, these classes should be comprehensible and look natural. ER -
NÝVLT, Vladimír and Radimír NOVOTNÝ. Ontology as a Tool for Building Life Cycle Modelling. Online. In Drusa M.,Coisson E.,Marschalko M.,Dabija A.-M.,Rybak J.,Decky M.,Segalini A.,Yilmaz I. \textit{3rd World Multidisciplinary Civil Engineering, Architecture, Urban Planning Symposium, WMCAUS 2018, Conference proceedings in IOP Conference Series: Risk management and Mitigation Planning, Volume 471, Issue 10}. 1. vyd. Spojené Království: Institute of Physics Publishing, 2019, p.~nestránkováno, 8 pp. ISSN~1757-8981. Available from: https://dx.doi.org/10.1088/1757-899X/471/10/102007.
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