About the Program
This comprehensive program is carefully designed to equip civil engineering students with advanced proficiency in computational methods for structural analysis and design. The curriculum covers the analysis, design, and detailing of structural systems, utilizing the latest software and industry best practices to ensure students develop a deep understanding of these essential tools. By incorporating emerging technologies, including AI and machine learning, the program also enhances students' ability to optimize designs and improve decision-making processes. Upon completion, graduates will be well-prepared to address complex structural design challenges, ensuring the safety, efficiency, and longevity of structures across various industries. Their expertise in computational techniques will position them as valuable contributors to the future of structural engineering.
Courses
    Credits Semester
  • Building Information Modelling in Construction 3 III
  • Practical Design of Structural Steel Members 3 IV
  • Concrete Building System Design 3 V
  • Precast Construction - Members & Systems 3 V
  • Structural Steel Buildings - Design and Practices 3 VI
  • Design of Pre-Engineered Buildings 3 VII
    Credits Semester
  • Essentials of Data Science and AI for Civil Engineers 3 I
  • Critical Thinking, Design Thinking, Leadership and Teamwork 3 II
  • Project Management for Professionals / Finance for Professionals 3 VIII
    Credits Semester
  • Critical Thinking, Design Thinking, Leadership and Teamwork 3 II
  • Career Readiness in Digital Era 3 VI
Mode of Delivery
  • Self-paced learning + Expert session (VILT) – 30 hours
  • Project work – 15 hours
  • Face-to-face instructor led sessions / VILT sessions – 45 hours (including project work)
Job Roles
  • Design Engineer
  • Planning Engineer
  • BIM Co-ordinator
  • Design Consultant
Software Tools
  • REVIT
  • STAAD PRO
  • ETABS
  • SAFE
  • MS Project
Skills
  • Proficiency in BIM software, understanding of construction processes, and 3D modeling and visualization.
  • Understand practical design aspects of structural steel members, load calculations, and safety considerations.
  • Knowledge about concrete building systems, design principles, and construction techniques.
  • Knowledge of precast concrete production, modelling using ETABS & SAFE software, design, and construction methods, enabling the design and management of precast concrete structures
  • Proficiency in the design of structural steel buildings, including a thorough understanding of material properties and connection design.
  • Knowledge of pre-engineered building design, enabling the design and management of such structures
  • Gain knowledge about bridge engineering design practices, load calculations, and safety considerations.