BIM-based collaborative building process management /
By: Daniotti, Bruno [author.].
Contributor(s): Pavan, Alberto [author.] | Lupica Spagnolo, Sonia [author.] | Caffi, Vittorio [author.] | Pasini, Daniela [author.] | Mirarchi, Claudio [author.].
Series: Springer tracts in civil engineering: Publisher: Cham, Switzerland : Springer, 2020Description: xiii, 181 pages : ill. ; 28 cm.Content type: text Media type: unmediated Carrier type: volumeISBN: 9783030328900; 9783030328917.Subject(s): Building information modeling | Construction industry -- Management
| Buildings -- Computer-aided designDDC classification: 690.0285 | Item type | Current library | Call number | Status | Date due | Barcode | Item holds |
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ATU Sligo Yeats Library Main Lending Collection | 690.0285 DAN (Browse shelf(Opens below)) | Available | 0083217 |
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Intro; Introduction; Contents; 1 Evolution of the Building Sector Due to Digitalization; 1.1 Introduction to BIM; 1.2 BIM's Foundations; 1.3 CAPEX and OPEX; 1.4 EIR and BEP; 1.5 LOD; 1.6 CDE; 1.7 BIM Professional Figures; 1.8 BIM Dimensions; 1.9 BIM Levels; 1.10 Conclusions; References; 2 Standardized Structures for Data Collection According to Specific BIM Uses (Technical Datasheet); 2.1 Introduction; 2.2 Information Management; 2.3 The Univocal Classification and Denomination System; 2.4 State-of-the-Art of Classification Systems; 2.5 INNOVance Classification and Denomination System
2.6 Application to Construction Products2.7 Application to In Situ Elements; 2.8 Application to Assembled Systems; 2.9 Standardized Collection of Information; 2.10 Standardized Technical Datasheet of Construction Products; 2.11 Guidance Dossier; 2.12 Standardized Technical Datasheet of In Situ Elements; 2.13 Standardized Technical Datasheet of Assembled Systems; 2.14 Use of Data; 2.15 Conclusions; References; 3 Standardized Guidelines for the Creation of BIM Objects; 3.1 Definition of BIM Objects; 3.2 Definition of Models of Reference and Choice of Technical Solutions
3.3 The Instruments: Revit and the INNOVance add-in3.4 Encoding According to the INNOVance Standard; 3.5 Coherence Verification; 3.6 Modeling of BIM Objects; 3.7 Interoperability Verifications; 3.8 BIM and Modeling and Representation Standards; 3.9 LOD and Grade; References; 4 Collaborative Working in a BIM Environment (BIM Platform); 4.1 BIM and Object Oriented Programming; 4.2 Common Data Environment; 4.3 CDE According to British Standards; 4.4 CDE According to the Italian Standard; 4.5 Structure of CDE Data; 4.6 Structure of CDE Environments; 4.7 Definition of Workflows
4.8 CDE in the Management of Contracts4.8.1 CDE in the Tendering Phase; 4.8.2 CDE in the Contract Phase; 4.9 Digital Platform; 4.10 INNOVance Platform; 4.11 BIMReL Project; 4.12 European Digital Platform; 4.13 Conclusions; References; 5 Benefits and Challenges in Implementing BIM in Design; 5.1 Introduction; 5.2 BIM Method or Tool; 5.3 BIM Language: IFC; 5.4 Obligatory Nature of Open Languages; 5.5 Standard Aspects: ISO 19650:2019 and UNI 11337:2017; 5.6 From LOD to LOIN; 5.7 Coordination in Digital Public Contracts; 5.8 Conclusions; References
6 Benefits and Challenges of BIM in Construction6.1 Introduction; 6.1.1 Collaboration Platform Within the Sector; 6.2 The Building Enterprises' Context for the Implementation of BIM; 6.2.1 The Relationship Between Enterprise and Supply Chain; 6.3 Integrate Digital Data in a Business Context; 6.3.1 Automated Management System of the Information Flow; References; 7 Benefits and Challenges Using BIM for Operation and Maintenance; 7.1 Introduction; 7.2 Defining Information Requirements; 7.3 Adopting Information Flows; 7.4 Ensuring Interoperability; 7.4.1 IFC; 7.4.2 COBie; 7.4.3 gbXML