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Course Code: ACBC 25-02 |
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Date: 2, 9, 16, 23, 30 May 2025 |
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Time: 9am – 6pm Language: Cantonese |
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Duration: 48 hours
Instructor: David Fung / Jason Wong
Award: Advanced Certificate for BIM Coordinator
Cost: HK $10,000
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Minimum No. of students in Class: 8 
Prerequisites
- At least higher diploma in architecture, building, construction or related engineering.
- Preferably to have 2 years construction field working experience.
- Preferably have BIM related experience.
1. BIM Initiation
1.1 BIM Concept
1.1.1 BIM definitions and terminology
1.1.2 The difference between 2D CAD, 3D CAD and BIM
1.1.3 Concept of BIM in the whole life cycle of a built asset
1.1.4 Value and benefits of adopting BIM
1.1.5 Value of BIM for AM & FM
1.1.6 Collaborative working in BIM
1.1.7 Limitation of BIM
1.1.8 Challenges within existing working practices & how BIM addresses them
1.1.9 How BIM affects the current practice in AECO industry
1.2 Local & Global Contexts, BIM Standards and Guidelines
1.2.1 Local BIM standards & resources
1.2.1.1 CIC BIM standards
1.2.1.2 Government BIM standards & resources
1.2.2 Global context in BIM development
1.2.3 Global BIM standards & resources
1.2.3.1 ISO 19650
1.2.3.2 BIM FORUM LOD Specification
1.2.3.3 openBIM and collaborative formats
Learning Objectives: BIM concept definitions and scope, BIM standards and guidelines in Hong Kong and global contexts.
2. BIM Software, Platform and Technologies
2.1 BIM Software, Platform and Technologies
2.1.1 Overview of common BIM software
2.1.2 Characteristic, file format & version, strength and limitation of common BIM software and platform
2.1.3 General hardware and software requirements for common BIM software
2.1.4 Operation of relevant BIM authoring software
2.1.5 Technical advice on the operation of relevant BIM software
2.2 Technologies
2.2.1 Internet & cloud
2.2.2 Laser scanning & photogrammetry
2.2.3 Unmanned Aircraft System (UAS) / Drone
2.2.4 GIS
2.2.5 Internet of Things (IoT), mobile or smart devices
2.2.6 VR/AR/MR
2.2.7 RFID
2.2.8 Gaming technology in BIM
2.2.9 Robotics
2.2.10 Programming, automation and API
2.2.11 MiC, DfMA and MiMEP
2.2.12 Indoor positioning
2.2.13 Upcoming trend of technology
Learning Objectives: BIM software and the modelling process, and describe current and relevant technologies.
3. BIM Uses and Processes
3.1 BIM Uses and Processes
3.1.1 General understanding of the workflows in local construction projects
3.1.2 BIM strategy, BIM uses, BIM processes
3.1.3 Key personnel in relation to BIM and their roles and responsibilities
3.1.4 Information Requirements (AIRs), BIM Execution Plan (BEP) throughout the full project lifecycle
3.1.5 Applications of various technologies to achieve BIM uses
3.2 Administration of the BIM projects as a project BIM coordinator
3.2.1 Project implementation following the BEP
3.2.2 Setup, creation and publishing of BIM models following BIM-related documents such as BEP or BIM standards
3.2.3 Establish and maintain data structures or links throughout the BIM processes
3.2.4 Administration and maintenance of BIM models in the BIM project
3.2.4.1 Monitor overall BIM models work progress
3.2.4.2 Coordination of BIM models with internal or other disciplines
3.2.4.3 Maintain the BIM models appropriately and compile with BIM documents such as BEP or BIM standards
3.3 Execution of BIM Uses for single and multi-disciplinary coordination in BIM project
3.3.1 Spatial Coordination and 3D Construction Coordination (As stated in CIC BIM Standards General)
3.3.2 Phase Planning (4D Modelling) (As stated in CIC BIM Standards General)
3.3.3 Design Reviews (As stated in CIC BIM Standards General)
3.3.4 Drawing Production directly from BIM software / platform
3.4 Assist in BIM related meetings
3.4.1 Meeting with appointing party
3.4.2 Meeting with Lead Appointed Party and/or Appointed Parties
3.4.3 Internal meeting
3.4.4 Multidiscipline collaboration meeting
3.4.5 Site co-ordination meeting
Learning Objectives: BIM uses and BIM software applications, execution and administration of the responsible BIM tasks for individual or cross-disciplinary BIM project coordination.
4. Digital Information Management, Collaboration and Integration
4.1 Digital Information Management
4.1.1 Value of data and how it should be managed
4.1.2 Common data formats and open formats for BIM (BCF, IFC, IDM, bsDD, COBie, MVD, etc.)
4.1.3 Data exchange of relevant BIM software for single/multiple discipline(s) collaboration
4.1.4 Limitation of data exchange in BIM BIM software in relation to information management
4.1.5 Maintain proper Level of Development (graphics and information) of the dataset
4.1.6 Establish and maintain data structures or links within the BIM software/platform protocol
4.1.7 Maintain accurate data set such as templates, standards, libraries, project files, drawings, design specifications and project schedules
4.2 Common Data Environment (CDE)
4.2.1 Overview of CDE
4.2.2 Overview of common CDE platform
4.2.3 Administration and maintenance of CDE including relevant project information standards and project information management methods and procedures
4.2.4 Limitation of CDE
4.3 Data Quality Control and Assurance across various stages
4.3.1 System checking (including software and hardware)
4.3.2 Model audit
4.3.3 Model checking including Clash avoidance strategies and Clash detection resolution methodologies
4.3.4 Audit reporting
Learning Objectives: Digital information management, collaboration and integration, including execution and administration of the operation of a common data environment and data quality control system for effective use and sharing of digital information in a BIM project.