| Overall Educational Objective |
To have knowledge about BIM (Building Information Modeling), which is frequently used in developed countries but has just started in our country, will enable the student who takes the course to gain knowledge in the construction industry, where the level of digitalization is expected to increase in the near future, with applications carried out on sample construction projects that are BIM-based and include BIM processes. It is among the benefits and objectives of the course to ensure that the student specializes at a level that he/she can then take on as a BIM manager.
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| Course Description |
Building Information Modeling is a process in which project data is created and managed digitally in 3D. These data are included and coordinated throughout the entire life cycle of the building, from its conceptual design to its demolition. BIM is a digital working method designed for the construction industry. The BIM concept adds significant value and professionalism to engineering projects and project management as it creates an environment of information exchange and efficient collaboration between architects, engineers and all other building professionals throughout the life cycle of the building. In the Building Information Modeling course; can be used effectively in main processes such as the design, construction and maintenance of different projects; The aim is to convey theoretical knowledge about a building information management system that is commonly used and benefited by all stakeholders in all processes, such as employers, designers, contractors and suppliers, through sample applications. It is among the objectives of the course to train expert individuals who have knowledge and application skills about BIM and BIM management, which include new and developing applications of the profession.
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Program Outcomes and Competences |
Level |
Assessed by |
| 1) |
Integration of the skills acquired during the undergraduate degree with improved and deepened level of expertise in the field of construction management. |
H |
Participation,Project
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| 2) |
Applied in-depth theoretical and practical knowledge by conducting scientific research on construction and project management. |
N |
|
| 3) |
Extensive knowledge about the analysis and modeling methods used in construction project management and their limitations. |
N |
|
| 4) |
Ability to design and perform exploratory research based on analytics, modeling and experimentation; to generate solutions to complex situations encountered in this process, interpret the results and bring innovative solutions. |
S |
Participation,Project
|
| 5) |
Ability to describe the processes and results of a study in a systematic and clear way both in written and verbal form on national and international platforms within or outside of the field of construction project management. |
N |
|
| 6) |
Awareness of social, scientific and ethical values in the stages of collection, processing, usage, interpretation and dissemination of project data and in all related professional activities. |
S |
Project
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| 7) |
Professional awareness of new and emerging applications in the construction management field and an ability to demonstrate their uses. |
S |
Project
|
| 8) |
Competence in leadership and multi-disciplinary team membership skills to develop solutions to complex situations related to project management and to take responsibility. |
N |
|
| 9) |
Ability to communicate in English both verbally and in writing at the European Language Portfolio General Level B2. |
N |
|
| 10) |
Understanding of social and environmental aspects of construction projects and applications. |
N |
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| Week |
Subject |
| 1) |
Description of the course, explanation of its objectives and learning methods |
| 2) |
Eski çağlardan günümüze yapı üretim süreçlerinin planlanması ve yönetimi (Klasik Yunan, Roma, Osmanlı dönemleri ve günümüz) |
| 3) |
Introduction to BIM, what is BIM, purposes of Building Information Modeling |
| 4) |
Countries using BIM and sample projects produced based on BIM
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| 5) |
BIM tools and usage methods
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| 6) |
BIM processes and the stages followed in the processes
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| 7) |
BIM “NOD” definitions and application examples
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| 8) |
Benefits of BIM, comparative evaluation of the advantages and disadvantages of using BIM
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| 9) |
The future of BIM, usage possibilities in Turkey, BIM Management
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| 10) |
BIM sustainability relationship, analysis through sample projects
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| 11) |
Preparation of a BIM-based sample construction project
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| 12) |
BIM 3D registration analyzes over the construction project
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| 13) |
BIM 4D modeling over the construction project; Time Planning analysis
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| 14) |
BIM 5D modeling over the construction project; Cost Planning analyzes
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| 15) |
Final Examination Period |
| 16) |
Final Examination Period |