About Course
Master Advanced Structural Design & Analysis of High-Rise Buildings in 5 Weeks
A hands-on program for structural engineers who want to move from uncertainty to sound engineering judgment — modelling, analyzing, and designing slabs, beams, columns, shear walls, and foundations to Eurocode standards, inside real BIM workflows.
Whether you’re starting in structural design or looking to sharpen your analysis skills, this hands-on program will help you move from uncertainty to sound engineering judgment and code-compliant design.
Instead of getting lost in theory, you’ll tackle real-world design challenges.
Program Objectives
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Model, analyze, and design structures using RSA.
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Apply accurate loads and combinations per Eurocode.
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Design and detail various slab types: solid, ribbed, waffle, and hollow-core.
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Design reinforced concrete beams, addressing bending, shear, torsion, and detailing.
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Design short and slender columns under axial and biaxial loads with stability checks.
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Model and design shear walls for lateral loads with proper reinforcement and interaction.
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Design pad, combined, and mat foundations, accounting for bearing, settlement, and reinforcement.
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Verify, document, and interpret structural analysis results.
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Integrate RSA into collaborative BIM workflows.
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Present structural designs with clarity and confidence.
Are you ready to stand out in structural design?
Great engineering isn’t just about software — it’s about using the right tools with purpose.
This is your chance to master Robot Structural Analysis (RSA) and design safe, efficient, and impactful structures like a pro.
Book your slot today.
Only 50 slots available.
Kick-off: August 10, 2026
Course Content
Module I: Structural Design Principles and Feasibility Studies for projects
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Site investigation
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Environmental exposure classes (EN 1992-1-1, Sections 4.1–4.2)
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Terrain category & wind effects (EN 1991-1-4, Section 4.3.2)
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Geotechnical Investigation: Soil type, bearing capacity & groundwater (EN 1997-1, informative)
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Properties of concrete & steel (EN 1992-1-1, Sections 3.1–3.2)
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Composite action & section assumptions (EN 1992-1-1, Sections 6.1–6.2)
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Stress–strain relationships (EN 1992-1-1, Sections 3.1.7–3.1.9)
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Durability & cover requirements (EN 1992-1-1, Sections 4.4–4.5)
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Loads & combinations (EN 1990, Section 6; EN 1991-1-1, imposed loads)
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Limit states (ULS & SLS) (EN 1990, Section 2.4)