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Module 1: Introduction to Value Engineering (VE) in Construction
1-Value-Engineering-Excellence-in-Construction-Projects
1.1 Definition, Principles, and Objectives of Value Engineering
1.2 History and Evolution of Value Engineering in Construction
1.3 Benefits of VE in Large Construction Projects, High-Rise Buildings, and Villas
1.4 Differences Between Cost Reduction, Value Engineering, and Cost Management
Module 2: Value Engineering Framework and Methodology
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2.1 The VE Job Plan: Phases and Activities (Information, Function Analysis, Creative, Evaluation, Development, Presentation)
2.2 Function Analysis System Technique (FAST) and Function Cost Matrix
2.3 Identifying and Categorizing Project Functions in High-Rise and Villa Projects
2.4 Tools and Techniques Used in VE: Brainstorming, Workshops, and Software Aids
Module 3: Cost Management Fundamentals for VE
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3.1 Construction Cost Components: Direct, Indirect, Fixed, Variable Costs
3.2 Cost Breakdown Structures for Large Projects and High-Rise Buildings
3.3 Life-Cycle Costing vs. Initial Cost Analysis in VE
3.4 Budgeting and Cost Control Integration with VE
Module 4: Project Planning and Scheduling for Value Engineering
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4.1 Importance of Early VE in Project Planning Phase
4.2 Scheduling Techniques Impacting VE: CPM, PERT, and Gantt Charts
4.3 Risk Identification and Management within VE Planning
4.4 Integrating VE with Construction Phasing and Logistics
Module 5: Function Analysis and Value Improvement Techniques
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5.1 Function Identification and Classification in Construction Components
5.2 Techniques for Improving Value: Function Enhancement, Simplification, Substitution
5.3 Case Study: Function Analysis in High-Rise Structural Systems
5.4 Practical Exercises on Function Cost Ratio and Function Cost Reduction
Module 6: Material Selection and Optimization in VE
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6.1 Material Performance vs. Cost: Balancing Quality and Economics
6.2 Alternative Materials and Innovative Technologies for High-Rise and Villas
6.3 Environmental and Sustainability Considerations in Material Selection
6.4 Case Study: Material Substitution Impact on Cost and Performance
Module 7: Design Considerations and VE Applications
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7.1 Architect-Engineer Collaboration for Value Engineering
7.2 Structural Design Optimization for Cost and Performance
7.3 Systems Integration: MEP, Facades, and Interior Finishes VE
7.4 Design for Constructability and Maintainability
Module 8: Construction Methods and Technology in VE
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8.1 Traditional vs. Modern Construction Methods: Impact on Cost and Value
8.2 Prefabrication and Modular Construction as VE Strategies
8.3 Use of Construction Equipment and Automation to Enhance Value
8.4 Case Study: VE in Construction Method Selection for Villas and High-Rise
Module 9: Risk Management and Value Engineering
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9.1 Identifying Risks Impacting Project Value and Costs
9.2 Risk Mitigation through VE Strategies
9.3 Quantitative Risk Analysis Techniques in VE
9.4 Contingency Planning and VE for Unforeseen Conditions
Module 10: Procurement Strategies and Contract Management for VE
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10.1 Procurement Models and Their Influence on Value Engineering
10.2 Contract Types and Clauses Supporting VE Implementation
10.3 Supplier and Subcontractor Collaboration for Value Improvement
10.4 Case Study: VE in Procurement of High-Rise Projects
Module 11: Life Cycle Costing and Sustainability in VE
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11.1 Introduction to Life Cycle Costing (LCC) in Construction
11.2 Sustainable Value Engineering: Green Building Standards and Certifications
11.3 Energy Efficiency and Operational Cost Reduction Techniques
11.4 Long-Term Maintenance and Durability Considerations
Module 12: Implementation of VE Proposals and Change Management
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12.1 Evaluating VE Proposals: Feasibility, Cost, and Impact Assessment
12.2 Change Management Process for VE Recommendations
12.3 Documentation and Reporting of VE Activities and Outcomes
12.4 Case Study: Successful VE Implementation in a High-Rise Project
Module 13: Software Tools and Digital Solutions for VE
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13.1 Overview of Cost Estimation and VE Software (No specific names)
13.2 Using Spreadsheets and Databases for VE Analysis
13.3 Integrating VE with Project Management Information Systems
13.4 Digital Collaboration Tools for Multidisciplinary VE Workshops
Module 14: Monitoring, Auditing, and Continuous Improvement in VE
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14.1 Monitoring VE Impact on Project Cost and Schedule
14.2 Auditing VE Outcomes and Lessons Learned
14.3 Performance Metrics and KPIs for VE Success
14.4 Continuous Improvement and Feedback Loops in Construction Projects
Module 15: Practical Applications and Case Studies in VE
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15.1 Case Study: Value Engineering in a Large Commercial High-Rise Project
15.2 Case Study: VE in Luxury Villa Developments
15.3 Workshop: Conducting a VE Study – Step-by-Step Exercise
15.4 Best Practices, Challenges, and Future Trends in Construction VE