A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Semiautomated Scaffolding Planning: Development of the Feature Lexicon for Computer Application
AbstractThe purpose of this research is to go beyond current practices of manual scaffolding planning to posit a computerized practical solution. This paper presents a feature lexicon to formalize representation of factors essential to scaffolding planning. The feature lexicon provides a theoretical basis for a semiautomated computer system, called the scaffolding planning generator (SPG), which is used to select the correct scaffolding and a schedule. The scope of the work includes a case study of planning typical for scaffolding, formal definitions of lexicon terms (features), a review of the literature, an explanation of SPG functions, and validation tests of manual versus semiautomated planning. The results show that manual, visual-based analyses used for scaffolding planning are time-consuming and error prone, but the SPG yields a more accurate selection of scaffolding in less time. This paper cites past research and current use of building information modeling (BIM) best practices to instantiate the lexicon through the SPG. The research presented revolutionizes the process of appropriately identifying scaffolding.
Semiautomated Scaffolding Planning: Development of the Feature Lexicon for Computer Application
AbstractThe purpose of this research is to go beyond current practices of manual scaffolding planning to posit a computerized practical solution. This paper presents a feature lexicon to formalize representation of factors essential to scaffolding planning. The feature lexicon provides a theoretical basis for a semiautomated computer system, called the scaffolding planning generator (SPG), which is used to select the correct scaffolding and a schedule. The scope of the work includes a case study of planning typical for scaffolding, formal definitions of lexicon terms (features), a review of the literature, an explanation of SPG functions, and validation tests of manual versus semiautomated planning. The results show that manual, visual-based analyses used for scaffolding planning are time-consuming and error prone, but the SPG yields a more accurate selection of scaffolding in less time. This paper cites past research and current use of building information modeling (BIM) best practices to instantiate the lexicon through the SPG. The research presented revolutionizes the process of appropriately identifying scaffolding.
Semiautomated Scaffolding Planning: Development of the Feature Lexicon for Computer Application
Fischer, Martin (author) / Kim, Jonghoon / Levitt, Raymond / Kunz, John
2015
Article (Journal)
English
BKL:
56.03
/
56.03
Methoden im Bauingenieurwesen
Local classification TIB:
770/3130/6500
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