Introduction
In today’s ever-changing urban landscape, offering convenient parking for commercial buildings, and serving the daily commute of many individuals, plays a crucial role in ensuring smooth operations. Keeping this in mind, our project focuses on establishing an integrated system that involves a one-story office building with its floor supported by the columns of the garage. The garage is accessible by a road through a decorative tunnel.
On this website, you will find:
- An understanding of the systems’ integration context and the relationships between all five subsystems.
- Our integrated maintenance planning, with a strong focus on maximizing the distance between two successive interventions and/or minimizing the total maintenance duration.
- Our Life Cycle Analysis displays the exact costs related to energy, CO2, SO2, and NOx.
- A multi-objective optimization process for maintenance planning to find a balance between life cycle costs, environmental impacts, service quality, and maintenance planning for the integrated system.
Table Of Contents
- Integration Context of the Civil Systems
- Integrated Maintenance Planning
- Life Cycle Inventory
- Multi-Objective Optimization
- Conclusion
Members
- Samah Abdulatif
- Helia Haghighipanah
- Jorg Theunissen
- Siyuan Wu
- Jianwen Wang
- Ehsan Ahmadi
Downloads
References
- Multi-objective optimization using genetic algorithms: A tutorial
- Pareto Front Estimation for Decision Making
- EN 1992-1-1:2004 Eurocode 2: Design of concrete structures – Part 1-1: General rules and rules for buildings
- Evaluation of Cost Analyses for Earthquake Resistant Reinforced
- Life cycle assessment (LCA) and cost (LCC) studies of lightweight composite flooring systems
- Life cycle assessment of bamboo products: Review and harmonization
- Comparative Life Cycle Assessment (LCA) of Porous Asphalt Mixtures
- The importance of the use phase on the LCA of environmentally friendly solutions for asphalt road pavements