Railway Information Modeling RIM : Track to Rail Modernization /

Building Information Modeling (BIM) is the digital and graphical representation of the physical and functional characteristics of a structure. It provides a reliable basis for decisions throughout a building's lifecycle, and with BIM it is possible to design, plan, build and track projects. In...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Bensalah, Mounir
Otros Autores: Elouadi, Abdelmajid, Mharzi, Hassan
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Hoboken : ISTE, Ltd. ; Wiley, 2019.
Temas:
Railroads > Data processing.
Railroads > Data processing
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Half-Title Page; Title Page; Copyright Page; Contents; Acknowledgments; General Introduction; 1. Introduction to BIM Integration into Railway; 1.1. Introduction; 1.2. Methodology; 1.3. Railway
  • formulation of the problem; 1.4. BIM development; 1.5. BIM integration into railway projects; 1.6. Feedback from real project experiences; 1.6.1. Project Mälarbanan, Sweden; 1.6.2. TUC/Infrabel experience, Belgium; 1.6.3. BIM at SNCF maintenance department, France; 1.6.4. Crossrail, UK; 1.6.5. ONCF electrical substation, Morocco; 1.7. Discussion of the results; 1.8. Conclusions and perspectives
  • 2. BIM into Railway: Optimization of Cost by Using BIM2.1. Introduction; 2.2. Methodology; 2.3. Cost structure of a tram
  • assumptions fixed for the analysis; 2.3.1. Cost structure of a tramway
  • construction phase: comparative analysis; 2.3.2. Hypotheses made for the fixed and studied sub-costs in the construction phase; 2.3.3. Cost of facility maintenance; 2.3.4. Summary of costs studied
  • basic hypotheses of the analysis; 2.4. Optimization of cost of a tram through the integration of BIM: a theoretical analysis; 2.4.1. Theoretical analysis of cost optimization; 2.4.2. Summary
  • 2.4.3. Discussion and analysis2.4.4. Limitations; 2.5. Conclusions and perspectives; 3. BIM and Sustainability; 3.1. Introduction; 3.2. Optimizing the use of materials for durability; 3.3. Energy efficiency; 3.4. Sustainability in the management of the life cycle; 3.5. Sustainability BIM and railway?; 3.6. Discussion of the results; 3.7. Conclusions and perspectives; 4. BIM Integration to Railway Projects -Case Study; 4.1. Introduction; 4.2. Methodology; 4.3. Integrating BIM into railway projects: review of experiences; 4.3.1. Focus on BIM
  • 4.3.2. Building information modeling: a literature review4.3.3. BIM software examples; 4.4. Integrating BIM into railway projects: review of experiences; 4.4.1. Crossrail, UK; 4.4.2. Infrabel, Belgium; 4.4.3. STA, Sweden; 4.4.4. BIM France, France; 4.4.5. NNRA, Norway; 4.4.6. Summary and discussion of the review of experiences; 4.5. ONCF/Colas Rail Maroc electrical substation
  • BIM integration; 4.5.1. Context of the collaboration; 4.5.2. Methodology; 4.5.3. Key step and planning of realization; 4.5.4. Comments on the results; 4.5.5. Recommendations; 4.6. General discussion
  • 4.7. Conclusions and perspectives5. How to Successfully Integrate BIM into a Railway Project
  • Framework; 5.1. Framework for the adoption and implementation of BIM
  • literature review; 5.2. Summary; 5.3. Framework for the adoption and implementation of BIM
  • experience review; 5.3.1. BIM charter; 5.4. Conclusions of the case study; 5.4.1. Systra; 5.4.2. Egis; 5.4.3. Setec; 5.4.4. Colas Rail; 5.5. Discussion of the results; 5.6. Conclusions and perspectives; 6. Railway Information Modeling
  • Project Management; 6.1. Reminder of the fundamentals of BIM

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