Learn Quantity Surveying, Building Estimation, BOQ, Rate Analysis & BBS for G+11 High-Rise Projects with Practical Case
β±οΈ Length: 2.6 total hours
β 4.62/5 rating
π₯ 2,155 students
π November 2025 update
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- Course Overview
- Navigate the intricate landscape of high-rise structural engineering by examining the specific financial and technical requirements of G+11 multistory developments, moving beyond basic residential estimation into the world of vertical urban infrastructure.
- Gain a comprehensive understanding of the Administrative Project Lifecycle, learning how to track costs from the initial geotechnical investigation and site mobilization phases through to the structural completion and final architectural finishing.
- Explore the nuances of Vertical Logistics and Material Handling, acknowledging how the height of a G+11 building significantly impacts labor productivity rates, hoisting costs, and the specialized equipment needed for high-level concrete pumping.
- Analyze the Interdisciplinary Coordination required for accurate surveying, focusing on how structural drawings must be meticulously reconciled with architectural layouts to prevent costly discrepancies in material take-offs.
- Understand the Economies of Scale inherent in multi-floor construction, where repetitive structural elements like typical floor slabs and columns allow for strategic bulk procurement and optimized labor scheduling.
- Delve into the Standardization of Measurement protocols specifically for high-rise blocks, ensuring that every cubic meter of concrete and ton of steel is accounted for according to international or regional building codes.
- Evaluate the Environmental and Safety Overheads that are unique to tall buildings, including the estimation of safety nets, specialized scaffolding systems, and debris chutes that add significant value to the preliminary budget.
- Requirements / Prerequisites
- A foundational background in Civil Engineering or Construction Management is essential to comprehend the technical terminology and structural concepts presented throughout the modules.
- The ability to Read and Interpret Complex Blueprints, including structural framing plans, sectional details, and reinforcement layouts, which serve as the primary source of data for all estimations.
- Basic proficiency in Microsoft Excel or Google Sheets, as the course relies heavily on creating automated calculation sheets to manage the massive data sets generated by an eleven-story project.
- Access to a Personal Computer or Laptop capable of running spreadsheet software and viewing high-resolution PDF technical drawings simultaneously for a seamless learning experience.
- An Analytical and Detail-Oriented Mindset, necessary for identifying subtle design variations between different floor levels that could drastically alter the total project cost if overlooked.
- Familiarity with Basic Construction Mathematics, including the calculation of areas, volumes, and weight-to-volume conversions for various building materials like steel, cement, and aggregates.
- Prior exposure to General Site Operations is beneficial, as understanding how tasks are physically executed on a construction site helps in creating more realistic and practical rate analyses.
- Skills Covered / Tools Used
- Mastery of Advanced Excel Techniques for Quantity Surveying, including the use of logical functions and data validation to create error-proof Building Estimation templates.
- Utilization of Standard Schedule of Rates (SOR) to perform localized price benchmarking, ensuring that the estimated costs remain competitive and reflect current market volatility.
- Application of Structural Coefficient Analysis to determine the precise volume of raw materials required for different concrete grades, accounting for shrinkage and wastage factors.
- Development of Dynamic Rate Analysis Models that allow users to update the entire project budget instantly by simply modifying the base price of core commodities like TMT bars or OPC cement.
- Implementation of Wastage Control Strategies within the estimation process, learning how to predict and mitigate material loss during the cutting and bending of reinforcement steel.
- Creation of Comprehensive Tender Documents, including the preparation of a structured Bill of Quantities that can be used for competitive bidding in the private or public sectors.
- Techniques for Digital Quantity Take-off, teaching students how to extract precise measurements from digital architectural files with speed and accuracy.
- Benefits / Outcomes
- Position yourself as a Lead Quantity Surveyor capable of managing high-value budgets for prestigious G+11 residential or commercial projects in the urban real estate sector.
- Bridge the gap between Academic Theory and Professional Practice by working through a live case study that mirrors the challenges faced by estimators in top-tier construction firms.
- Enhance your Financial Decision-Making capabilities, gaining the confidence to provide developers with accurate cost-to-complete forecasts and budget variance reports.
- Streamline the Procurement and Supply Chain process by generating highly accurate material schedules that prevent both over-stocking and project delays due to shortages.
- Cultivate the Technical Foresight to identify potential design flaws or “hidden costs” in the planning stage, allowing for proactive value engineering and significant cost savings.
- Develop a Professional Portfolio featuring a complete G+11 estimation project, which can be showcased to prospective employers as tangible proof of your technical expertise.
- Accelerate your Career Trajectory toward senior roles such as Project Controls Manager, Commercial Manager, or Senior Cost Estimator in the global construction industry.
- Pros
- Provides a Highly Specialized Focus on high-rise structures, filling a critical knowledge gap often left by general construction courses.
- Features a Time-Efficient Curriculum that delivers high-impact, practical knowledge in just 2.6 hours, making it ideal for busy working professionals.
- Utilizes a Realistic Case Study Approach, ensuring that students learn by doing rather than just observing theoretical lectures.
- Incorporates the Latest 2025 Industry Updates, ensuring that all methodologies and rate analysis techniques are relevant to the current construction climate.
- Cons
- The Condensed Format creates a steep learning curve that may require absolute beginners to pause and review sections multiple times to fully grasp the complex data.
Learning Tracks: Hindi,Teaching & Academics,Engineering
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